KR20000001379A - Ice machine control method of complex refrigerator - Google Patents

Abstract

PURPOSE: An ice machine control method of a complex refrigerator is provided to greatly improve the freezing quality of ice by preventing defects of defrosting state. CONSTITUTION: The ice machine control method of a complex refrigerator comprises the steps of:removing air in the supplied water by rotating a collecting and extracting equipment installed to possibly rotate on the upper part of an ice manufacturing container; progressing ice manufacture for a certain time; separating ice in the ice manufacturing container from the ice manufacturing container by heat of a heater after rotating the collecting and extracting equipment by 90 degrees after ice manufacturing; collecting and extracting ice from the ice manufacturing container.

Description

Ice Maker Control Method for Combined Refrigerator

The present invention relates to a method for controlling an ice maker of a composite refrigerator, and more particularly, in the ice maker mounted inside the freezer compartment of the composite refrigerator, the ice maker can proceed in a state of removing air in the water by rotating the blower for a predetermined time at the initial stage of water supply during ice making. It would be.

In general, a complex refrigerator has a relatively large capacity that is capable of performing various functions such as ice making by combining the freezing compartment and the refrigerating compartment with the left and right sides, unlike the direct-cooling refrigerator having the freezing compartment and the refrigerating compartment in the upper and lower parts. As a refrigerator of the related art, a conventional composite refrigerator includes a freezer compartment 1 for storing food in a frozen state on both sides of the refrigerator main body 7 and a refrigerating compartment for storing food in a refrigerated state, as shown in FIGS. 1 to 3. In addition to the basic configuration of (8), a dispensing function that allows the user to receive ice or water in the cup by pressing the select button is also included.

In order to perform the above functions, various devices are provided inside the refrigerator body 7, and the inside of the refrigerator body 7 is connected to an external water supply source and a pipe 9 to connect the pipe 9. A filter unit 6 for filtering the water supplied through the water, a water supply valve 10 for selectively blocking and opening the water supply path of the water purified by the filter unit 6, and a pipe at the water supply valve 10. Ice maker 2 for ice-making the water supplied through the (9), a water tank 11 for storing a predetermined amount of water supplied from the water supply valve 10 through the pipe (9), and the ice maker (2) It is composed of a dispensing unit 13 that can receive the water supplied through the pipe (9) from the ice or water tank (11) made in the cup 12 to selectively receive by the user's pressing operation.

In addition, the ice maker 2 receives the water supplied to the ice making container 3 to perform an ice making stroke with cold inside the freezing chamber 1, and the ice produced in the ice making container 3 to the ice making container 3 by heat. A heater (not shown) mounted on the bottom surface of the ice making container 3 to separate from the upper surface of the ice making container 3 to extract the ice separated from the ice making container 3 by the heater. A drawer (4) rotatably installed, a storage container (5) for storing a predetermined amount of ice taken out by the rotation of the drawer (4) from the lower side of the ice making container (3), and the storage container It consists of a conveying means for conveying the ice contained in (5) to the said dispensing part 13 side.

In addition, as a conveying means of the ice maker 2, a conveying machine 14 is provided inside the storage container 5, and the conveying machine 14 is provided with a motor provided outside the storage container 5. It is connected to the shaft 16 so that it can be operated by the driving force of 15, the front end portion of the conveyor 14 is provided with a rotary divider 17 for dividing into a shape for each type of ice desired by the user.

In addition, the ice container 19 is formed in the storage container 5 so that the ice conveyed by the conveyer 14 can be introduced into the dispensing unit 13 on the freezing chamber door 18 side, and the dispensing unit 13 is formed. ) Is formed in the upper side of the cup inlet 20 to be connected with the ice inlet (19) in communication with the opening, the front portion of the ice or water of the ice maker 2 by the user's pressing The panel 22 is provided with a plurality of buttons so that the water in the tank 11 can be received by the cup 12.

The composite refrigerator configured as described above is operated to allow the user to directly receive ice or water frozen in the cup 12 while performing the refrigerating and freezing functions according to the principle of the refrigeration cycle as in the conventional refrigerator. This is as follows.

First, a water supply stroke is made into the refrigerator main body 7 through a pipe 9 from an external water supply faucet, and the water supplied is purified while passing through the filter part 6 to connect the pipe 9. Is introduced into the water supply valve 10 side, the water introduced into the water supply valve 10 is selectively supplied to the ice maker 2 side through the upper side pipe or to the water tank 11 side through the lower side pipe. In the ice maker 2, iced water is iced, and the water tank 11 stores a predetermined amount of water as much as the watered water.

In this state, the user selects a plurality of buttons installed on the panel 22 of the dispensing unit 13. If ice is desired, the ice selection button is pressed, and if water is desired, the water selection button is pressed by pressing the ice selection button. Water can be received in the cup 12 to drink.

Meanwhile, the ice making stroke by the ice maker 2 is as shown in FIGS. 4A, 4B, 4C, 4D, 4E, 4F and 5.

That is, FIG. 4 is an ice making process. After water supply is completed in the ice making container 3, an ice making process is performed for a predetermined time t1, and when the ice making process is completed, the ice making container 3 is shown in FIG. 4B. Rotate the blower (4) installed on the upper side of 90 °, and then stop for a predetermined time (t2), turn off the thermostat (not shown) and turn on the heater to turn on the ice making vessel ( 3) It enters a rest process to separate the ice in the ice making container (3).

In addition, after finishing the rest process as described above, as shown in FIGS. 4C and 4D again, the take-out machine 4 is rotated 270 ° to take out and transport the ice from the ice making container 3, At this time, the thermostat is on, and the heater is off.

Then, as shown in FIG. 4E, after a water supply process is performed in which water is supplied to the ice making container 3 again, the water supply process is terminated as shown in FIG. 4F. The above ice making stroke is performed continuously and repeatedly until a certain amount of ice is stored in the storage container 5, that is, until the height of the filter part 6 reaches the set position.

However, such a conventional refrigerator, when the ice is iced in the ice maker 2 mounted in the freezer compartment 1, ice is carried out in a state where the air in the initial water supply water is not removed. There is a problem, such as the ice is splattered or damage to the ice shape due to the deterioration of the ice quality of the ice resulting in a lot of inconvenience during ice making to the user.

Accordingly, the present invention is to solve the above problems, by rotating the blower for a predetermined time during the initial water supply during the de-icing in the ice maker mounted inside the freezer compartment of the composite refrigerator to remove the air in the water It is an object of the present invention to provide a method of controlling an ice maker of a multi-purpose refrigerator which can prevent a phenomenon in which a bad state of ice is generated upon completion of ice making.

1 is a perspective view showing a state in which an ice maker is mounted in a freezer compartment of a conventional composite refrigerator

Figure 2 is a longitudinal cross-sectional view showing the main portion of Figure 1 cut away

3 is a perspective view of the ice maker of FIG.

4A to 4F are longitudinal cross-sectional views sequentially showing an operation state in the conventional ice making.

5 is a flowchart sequentially showing a progress state in the conventional ice making

6 is a flowchart sequentially showing a progress state at the time of ice making according to the present invention

Explanation of symbols on the main parts of the drawings

One; Freezer 2; Ice maker

3; Ice tray 4; Blower

In order to achieve the above object, the present invention provides a water supply by rotating the extractor rotatably installed on the upper side of the ice-making container for a predetermined time after the water is completed in the ice-making container in ice making machine mounted in the freezer compartment. Removing the air in the container and proceeding with the ice making process for a predetermined time, and after the ice making process is completed, rotating the blower by 90 ° and stopping for a predetermined time while separating the ice in the ice making container from the ice making container by the heat of the heater. After the rest process, and after the rest process is finished again by rotating the blower 270 ° to take out and transport the ice from the ice making container, and again after the water supply process of the water supply to the ice making vessel ice making It is fixed to a storage container provided on the lower side of the ice making container in such a manner that one cycle of the stroke is finished. The ice maker of a refrigerator control method for a compound of the de-icing of administration characterized in that it is advanced in a continuous repetitive service is achieved doemeurosseo until the ice is stored.

Therefore, according to the present invention, the ice maker is rotated in the freezing compartment in the freezing chamber during the initial period of water supply by rotating the blower for a predetermined time to remove the air in the water to remove the ice in the ice is completed when the ice is finished, It is possible to prevent the occurrence of defects in the de-icing state such as splattering or damage to the ice shape, thereby greatly improving the ice quality of the ice.

Hereinafter, preferred embodiments of the present invention for achieving the above object will be described in detail with reference to the accompanying drawings.

FIG. 6 is a flowchart sequentially illustrating a state of progress in ice making according to the present invention, in which parts identical to those of the related art are denoted by the same reference numerals to describe the present invention.

The present invention is the upper side of the ice making container (3) for a predetermined time (t3) after the water supply to the ice making container (3) when the ice is iced in the ice maker (2) mounted inside the freezer compartment (1) of the composite refrigerator Rotating the blower (4) rotatably installed in the water to remove the air in the water supply, then the ice making stroke proceeds for a predetermined time (t1), and rotates the blower (4) 90 ° when the ice making stroke is completed After stopping for a predetermined time t2, the thermostat is turned off and the heater is turned on to enter a rest process in which the ice in the ice making container 3 is separated from the ice making container 3 by the heat of the heater.

Subsequently, after finishing the above rest process, the blower 4 is rotated 270 ° again to take out and transport the ice from the ice making container 3, wherein the thermostat is turned on and the heater Is off.

Then, after a water supply process is performed in which water is supplied to the ice making container 3 again, a predetermined amount is stored in the storage container 5 provided on the lower side of the ice making container 3 in such a manner that one cycle of the ice making stroke is completed. The above ice making stroke is performed continuously and repeatedly until the ice is stored, that is, until the height of the filter unit 6 reaches the set position.

That is, in the present invention by removing the air in the water by rotating the blower (4) 90 ° for a predetermined time (t3) in the initial stage of the completion of water supply at the time of ice making, the ice is empty when the ice is completed, which is a problem of the prior art, It is possible to prevent a phenomenon in which ice-making defects occur such as splattering of ice or damage to ice shape.

As described above, the present invention by rotating the blower for a predetermined time in the initial stage of water supply in the ice maker mounted in the freezer compartment of the composite refrigerator to allow the ice to proceed in the state of removing the air in the water to remove the ice It can prevent the phenomenon of de-icing condition such as empty, splatter of ice or damage of ice shape, and greatly improve the ice quality of ice so that user can use it conveniently when making ice. It is a very useful invention that has greatly improved efficiency and reliability.

Although the preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the above-described embodiments, and the present invention may be commonly used in the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the following claims. Anyone with knowledge will be able to make various changes.

Claims (1)

When ice is iced in the ice maker installed inside the freezer compartment, after the water supply to the ice making vessel is completed, a blower is rotatably installed on the upper side of the ice making vessel for a predetermined time to remove the air in the water, and then the ice making stroke for a predetermined time. After the defrosting step is completed, rotating the blower 90 ° and then stopped for a predetermined time and at the same time proceeding a rest process for separating the ice in the ice making vessel from the ice making vessel by the heat of the heater, After finishing the process, the brewing machine is rotated 270 ° again to remove and transport the ice from the ice making container, and again, after the watering process in which the water is supplied to the ice making container is completed, the first cycle of the ice making process is finished. The above ice making until a certain amount of ice is stored in the storage container provided on the lower side of the container Ice machine control method of the refrigerator to the composite so as to proceed with the positive streak repeatedly characterized.