KR920002385Y1 - Ice-maker - Google Patents

Abstract

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Description

Automatic Ice Maker

1 is a perspective view of a conventional ice maker.

2 is an exploded perspective view of the automatic ice making device of the present invention.

Figure 3a is a cross-sectional view of the installation state of the automatic ice making device of the present invention.

Figure 3b is a cross-sectional view of the operating state of the automatic ice making device of the present invention.

4 is an enlarged view of portion “A” of FIG. 3A.

* Explanation of symbols for main parts of the drawings

11: ice machine body 12: ice tray

13: ice bowl 14: water tank

15: inlet port 16: water supply valve

17: fixed quantity water supply tank 18: through-hole

19: tank chamber 20: control jaw

21: discharge port 22, 23: hinge piece

25 Solenoid Pusher 26 Spool

The present invention relates to an ice maker of a refrigerator, and more particularly, to an automatic ice maker that supplies water using a drop of water without a separate feed pump.

As shown in FIG. 1, a conventional ice maker is installed in a freezer compartment of a large-capacity refrigerator, and includes an ice maker main body 1, an ice maker plate 2, an ice bowl 3, a water tank 4, and a water feed pump 5) and a water supply plate 6.

In the conventional ice maker, the water is filled in the water supply tank 4 and placed on the water supply plate 6 so that a predetermined amount of water accumulates in the water supply plate 6.

When the automatic deicing operation is started, the water supply pump 5 is started and a predetermined amount of water accumulated in the water supply plate 6 is pumped up to the ice making plate 2 and then the water supply pump 5 is stopped.

The water accumulated in the ice tray 2 is frozen by the cold air of the freezer compartment. When the ice is completely frozen, the temperature sensor attached to the ice tray 2 detects the set temperature.

When the signal of the temperature sensor is transmitted to the ice maker main body 1, the ice maker main body 1 rotates the ice making dish 2 by 180 degrees, falls ice to the ice bowl 3, and rotates it back, and returns the ice making dish 2 to the original position. Return to.

When the ice tray 2 is returned to its original position, the water feed pump 5 is operated again, and water is sprayed on the ice tray 2 to repeat this ice tray.

Such a conventional ice making apparatus requires a water feed pump 5 in order to pump water into the ice making apparatus 2, and there is a problem in that power consumption increases due to the use of the water feed pump 5, and the water feed pump 5 The area occupied by the space of the freezer is also large, there is a problem that the effective space is reduced.

Therefore, the present invention has been devised to solve the above-mentioned problems. The ice tray and the ice bowl are rotated in the freezer compartment by rotating the ice tray and the ice tray 180 ° and rotating the ice tray without using a water pump. A water tank is installed in the refrigerating chamber on the connected fixed water supply device to supply water for ice making as a natural drop.

Hereinafter will be described in detail according to an embodiment shown in the accompanying drawings an automatic ice making device for the present invention.

2 is an exploded perspective view of the automatic ice making device of the present invention, an ice maker main body 11, an ice tray 12 receiving water for ice making, and an ice bowl for storing iced ice in a freezer compartment 30 of a refrigerator ( 13) installed in the refrigerating chamber 40 formed next to the freezing chamber 30, the water supply tank 14 for storing water for supply to the ice making plate 12, and supplying the water to the ice making plate 12 in a fixed quantity The fixed water supply tank 17 and the fixed water supply tank 17 are provided with a solenoid pusher 25 for tilting or horizontally maintaining the fixed water supply tank 17.

Ice bowl 13 is placed on the bottom of the freezer compartment 30 in the above configuration, the ice tray 12 is placed on the top of the ice bowl 13 to rotate 180 °, for the ice making in the refrigerating chamber 40 Water is supplied to the ice making plate 12 of the freezing chamber 30.

The fixed quantity water supply tank 17 installed in the refrigerating chamber 40 has a tank chamber 19 for storing water and a discharge port 21 through which water is discharged when tilted to some extent and a water supply valve 16 of the water supply tank 14. The water supply valve control jaw 20 for controlling the is integrally formed.

A hinge center portion 22 for rotation center is installed at the bottom of the bottom surface of the fixed quantity water supply tank 17, and another solenoid connecting hinge piece 23 is formed at a distance from the hinge piece 22.

3 and 4, the bush 26 of the solenoid pusher 25 in which the hinge piece 23 for the solenoid installed on the bottom of the fixed water supply tank 17 is embedded in the bottom of the refrigerating chamber 40. Inlet 15 of the water supply tank 14 installed on the upper surface of the fixed water supply tank 17 protrudes downwards to supply the through-holes 18 of the fixed water supply tank 17 to the ice-making water supply. It is formed to protrude from the bottom to enter and exit, and the water supply control valve 16 is mounted on the inside of the inlet 15.

The present invention having such a configuration fills the water in the water supply tank 14 and puts it on the fixed water supply tank 17. As shown in FIG. 3A, the water supply valve 22 is controlled by the control jaw 20 of the fixed water supply tank 17. It is pushed up and opened so that the quantity of water is supplied to the fixed quantity water supply tank 17 through the inlet 15.

When the automatic deicing operation is started, power is applied to the solenoid coil of the solenoid pusher 25 to excite and the spool 26 rises as the fourth degree, and one side of the fixed quantity water supply tank 17 is lifted up.

Therefore, the fixed-quantity water supply tank 17 is inclined to the tank chamber 19 side and the discharge port 21 side descends around the hinge center 22 for the rotational center and is inclined in the fixed-quantity water supply tank 17. Water is contained in the ice making plate 12 through the discharge port 21.

At this time, the water supply valve 16 separated from the control jaw 20 of the fixed quantity water supply tank 17 blocks the inlet as shown in FIG. 3B by the water pressure in the water supply tank 14.

When water accumulates in the ice making plate 12, a temperature sensor (not shown) installed under the ice making plate 12 detects a temperature increase due to water and generates a signal, and the power of the solenoid pusher 25 is cut off according to the signal. do.

Therefore, the spool 26 of the solenoid pusher 25 is lowered, the fixed quantity water supply tank 17 is rotated about the hinge 22 to its original position, and receives water from the water supply tank 14 to perform an automatic ice making cycle. Will be repeated.

According to the present invention as described above, by using the natural drop by the drive of the solenoid pusher in the fixed-quantity water supply tank, it is possible to automatically reduce the power consumption without using the water supply pump that was conventionally pumped water, which can greatly reduce the power consumption. In other words, the cost can be reduced.

Claims (1)

In the freezer compartment 30, an ice tray 13 and an ice tray 12 capable of forward / reverse rotation and an ice maker main body 11 forming an ice-making cycle are installed on the ice bowl 13 and the ice bowl 13, and the ice-making chamber 40 is used for ice-making. In the water supply apparatus, the solenoid pusher 25 is installed at the bottom of the refrigerating compartment 40, and the water supply tank 14 having the inlet 15 having the water supply control valve 16 for water supply control is formed at the top. And a discharge port 21 for supplying water to the ice making plate 12 and a tank chamber 19 for storing a predetermined amount of water between the solenoid pusher 25 and the water supply tank 14. The fixed-quantity water supply tank 17 having the control jaw 20 for controlling the water supply valve 16 of the inlet and outlet 18 of the inlet 15 of the water supply tank 14 and the inlet 15 is disposed at 19. The hinge piece 22 for the rotational point of the fixed quantity water supply valve 17 to the bottom of the refrigerating chamber 40, and the solenoid connecting hinge piece 23 is An automatic ice making device, characterized in that a hinged connection to a spool (26) of the shearer (25) is configured to supply a predetermined amount of water for ice making to the ice making plate (12) by natural drop.