KR101308747B1 - A method for controlling ice maker - Google Patents

Abstract

The present invention provides a control method of an ice making apparatus having a storage tank for storing ice generated by an ice making device and a conveying means for transferring the ice to a discharge port, the method comprising: detecting an ice-covering state by an ice-covering sensor provided in the storage tank; Checking whether additional ice can be stored in the reservoir; If the additional storage is possible in the reservoir continues to generate by the ice generating device, and if the additional storage in the reservoir is not possible to stop the ice generation by the ice producing device; includes.

Description

Control Method of Ice Maker {A METHOD FOR CONTROLLING ICE MAKER}

The present invention relates to a control method of an ice making apparatus provided with a water purifier or a refrigerator to efficiently control an ice making apparatus for generating and storing ice, thereby increasing the amount of ice storage.

Ice makers provided in water purifiers and refrigerators generate ice by cooling the ice making water using a refrigerant cycle, and the generated ice is dropped and stored in an ice storage container provided in the ice maker, so that ice making and storage are efficiently carried out. to be.

On the other hand, inside the ice container is provided with means for moving the stored ice, such as screws in a specific direction. Accordingly, when the user needs the ice, the screw is operated to transfer the ice to the outlet side so that the ice comes out. In addition, a pulverization apparatus including a plurality of blades is provided around the outlet, so that the ice being transported is crushed and directed to the outlet.

Here, in the case of a water purifier or a refrigerator used in a home, an ice maker must be provided in a narrow and limited space, thereby having a space limitation. In particular, in the case of water purifiers, these spatial constraints are large. Under these spatial constraints, a significant amount of space is required to provide both the above-mentioned ice making device and the ice crushing device, and further, in order to supply stable ice, it is necessary to store some ice in advance.

When the transfer device as described above is provided with both an ice container and a grinding device, there is a problem in that the amount of ice that can be accommodated in the ice storage box is reduced. In particular, according to the location where the generated ice falls in the ice container, the ice is piled up unevenly inside the ice container, and thus there is a problem that no more ice is accommodated.
(Patent Document 1) KR10-2010-0083420 A
(Patent Document 2) KR10-2009-0123338 A

The present invention is to solve the problem of the ice storage of the ice making apparatus for generating and storing the ice used in the conventional general water purifier or refrigerator, and by efficiently controlling the ice making apparatus to have the maximum amount of ice storage in a small space of the user An object of the present invention is to provide a control method of an ice making apparatus that can improve convenience.

The present invention provides the following configuration to achieve the above technical problem.

One embodiment of the present invention, in the control method of the ice making apparatus having a storage tank for storing the ice generated by the ice producing device and the transfer means for transferring the ice to the outlet side, the ice sensor is provided in the storage tank is in the ice state Detecting; Checking whether additional ice can be stored in the reservoir; If the additional storage is possible in the reservoir continues to generate by the ice generating device, and if the additional storage in the reservoir is not possible to stop the ice generation by the ice producing device; includes.

The step of checking whether the additional ice can be stored in the reservoir may include: forward and reverse rotation of the screw-type transfer means provided in the reservoir for a predetermined time; And a step of additionally detecting a full ice detection sensor provided in the storage tank.

In particular, if there is a specific limitation in the shape of the reservoir, the step of checking whether the additional ice can be stored in the reservoir, the inside of the reservoir in which an upward inclination is formed toward the downstream side of the ice movement path by the forward rotation of the transfer means Rotating the screw-shaped conveying means for a predetermined time; And a step of sensing the ice level sensor provided in the storage tank.

If the ice detection sensor provided in the reservoir does not detect the ice state in the step of additionally detecting the ice state, additional ice storage is possible, and when the ice detection state is detected, the additional ice storage is impossible.

Another embodiment of the present invention is a control method of an ice making apparatus having a storage tank for storing ice generated by the ice-making apparatus and a conveying means for transferring the ice to the outlet side, wherein among the plurality of ice detection sensors provided in the storage tank Detecting at least one overflow state; Comparing the possibility of storing additional ice in the reservoir; And dispersing the ice in the reservoir after the storage is possible in the reservoir, and continuing to generate ice by the ice generator, and stopping the ice generation by the ice generator when additional storage in the reservoir is impossible.

Comparing whether the storage of the additional ice in the reservoir is possible, if the plurality of ice sensor does not detect the ice or if only a portion of the plurality of ice sensor is detected in the ice state, the additional ice storage is possible, a plurality of If all of the ice sensor are detected as ice, additional ice storage is impossible.

Dispersing the ice in the storage tank when the additional storage is possible in the storage tank and continuously generating the ice by the ice producing device includes rotating the screw in the storage tank forward and backward for a predetermined time so that the ice in the storage tank is rotated. It is characterized by dispersing.

In particular, when there is a specific limitation in the shape of the reservoir, if further storage in the reservoir is possible, the step of dispersing the ice in the reservoir and continuing to produce ice by the ice producing device, the ice movement path by the forward rotation of the transfer means It characterized in that the ice in the reservoir is dispersed by rotating the screw-type transfer means in a predetermined period of time in the reservoir in which an upward inclination is formed toward the downstream side of the reservoir.

The present invention has the following effects by the technical configuration as described above.

The present invention has the effect of evenly dispersing the ice stored in the storage tank of the ice making machine to increase the amount of ice storage to enhance the user's convenience. In particular, it is determined whether or not to use the ice detection sensor provided in the storage tank, whether the ice can be stored additionally to determine whether to generate additional ice to reduce the power consumption to use the ice making device efficiently Has an effect.

1 is a schematic view showing the appearance of a water purifier equipped with an ice making device to which the control method of the present invention is applied.
2 is a side view of the ice making apparatus of the present invention.
3 is a schematic view showing the control of the ice making apparatus by the controller.
4 is a flow chart of a control method of the ice making apparatus of the present invention.
Figure 5 is a side view of the ice making device provided with different ice sensor in a storage tank having a slope.
Figure 6 is a side view of the ice making apparatus provided with different ice sensor in a reservoir having no inclination.
7 is an ice making apparatus in the initial state in which ice is not produced.
8 is an ice making apparatus in a state where ice is unevenly stacked in a storage tank.
9 is an ice making apparatus in an ice state in which ice is uniformly stacked in a storage tank.

Hereinafter, with reference to the accompanying drawings will be described a specific content for practicing the present invention through embodiments of the present invention.

One embodiment of the present invention is used in the ice making apparatus having a reservoir for storing the ice produced by the ice making device and a conveying means for transferring the ice to the outlet side. Such an ice maker may be provided in household appliances such as a water purifier or a refrigerator.

1 shows a schematic view of a water purifier equipped with an ice maker of this embodiment. Referring to FIG. 1, the water purifier 1 includes a main body 2 forming an external appearance and a filter 3 provided inside the main body. The filter 3 functions to remove suspended solids, debris and various harmful substances contained in raw water such as tap water flowing from the tap water. The purified water passing through the filter may be stored in the purified water tank and the cold and hot water tank, and then taken out through the dispenser 4. In addition, ice may be generated by an ice maker (not shown) provided in the main body 2, and the generated ice may be taken out through the dispenser 4.

2 shows a side view of the ice making apparatus of this embodiment. The ice maker shown in FIG. 2 may be provided inside the water purifier of FIG. 1. Referring to FIG. 2, the ice making apparatus of the present embodiment includes an ice making apparatus 10 for generating ice, a storage tank 20 for storing the generated ice, and mounted inside the storage tank to move the ice inside the storage tank to the outlet side. It comprises a conveying means 30 for conveying and grinding means 40 provided on the downstream side of the ice movement path by the conveying means.

The ice making device 10 has an ice tray 11 rotatable by the drive motor 12. In addition, the ice tray 11 is provided with a finger 15 which is an evaporator connected to a refrigerant cycle capable of producing ice. The finger 15 is in contact with the ice making water accommodated in the ice tray, so that ice is formed around the finger. The ice generated in the ice tray 11 is dropped into the ice storage tank 20 by the operation of the driving motor 12 to be accommodated.

The reservoir 20 is provided with a space for storing the ice generated by the above-described ice producing device 10. Thus, the reservoir is provided at the bottom of the ice making device.

Here, the reservoir 20 may be formed to be inclined upward toward the downstream side of the ice movement path. Here, the ice movement path refers to a path in which ice is transferred to the outlet side by a transfer means described later in the storage tank. That is, the downstream side of the ice movement path refers to the outlet side. However, the storage tank 20 may not be inclined. 2 shows a reservoir in which a slope is formed, and FIG. 6 shows a reservoir in which a slope is not formed.

Referring to FIG. 2, when an upward inclination is formed in the reservoir 20 toward the downstream side of the ice movement path, the ice stored in the reservoir is transferred upwardly by the transfer means 30. Therefore, the ice path is directed in the upper right direction. In FIG. 2, the reservoir 20 has an upward inclination by a predetermined angle θ toward the downstream side of the ice movement path.

Due to the inclination angle θ of the reservoir, the space on the left side of the reservoir in FIG. 2 is wider than the space on the right side. This allows an efficient structure to have the maximum amount of ice storage in the small space of the water purifier. That is, a sufficient space is formed in the left side of the reservoir to accommodate as much ice as possible than the configuration without the inclination.

The transfer means 30 is composed of a screw rotatably mounted in the reservoir. Therefore, when the screw rotates, the ice of the reservoir is transferred along the blade of the screw.

In FIG. 2, the transfer means 30 is mounted to be inclined along an upward slope of the reservoir. That is, it is mounted to have the same inclination in accordance with the shape of the reservoir. Such a configuration can prevent the ice to be conveyed from being suddenly taken out and poured into the ejection opening 60. However, when the reservoir does not have an inclination as shown in FIG. 6, the transfer means 30 is horizontally mounted in accordance with the shape of the reservoir.

A blowout outlet 60 is formed on the downstream side of the ice movement path with respect to the transfer means. It is preferable to have the inclination so that the ice conveyed by the conveying means is taken out by the weight on the inclination. In addition, the cap 61 is provided to block the outlet so that foreign matters can be prevented from entering.

The grinding means 40 is formed on the downstream side of the ice movement path with respect to the conveying means. However, the outlet is formed on the upstream side of the ice path. The grinding means 40 is configured to include a fixed blade and a plurality of rotary blades. Therefore, when ice is positioned between the fixed blade and the plurality of rotary blades, the ice is crushed by the relative movement of the fixed blade and the rotary blades.

In this case, the transfer means 30 is driven by the drive motor 50. That is, the rotating shaft extending from the drive motor is connected to the transfer means to rotate the transfer means.

In the lower portion of the ice tray 11 or the upper portion of the reservoir 20, a full-water detection sensor 70 is provided. The ice sensor 70 detects this when the ice is filled in the reservoir and transmits a signal to the controller 90.

3 shows the control of the ice making apparatus by the controller. Referring to FIG. 3, the controller 90 is provided inside the main body of the water purifier or the refrigerator, and when the ice stored in the reservoir reaches the full ice position through the ice sensor 70, driving of the transfer means is performed. The motor 50 is driven or the ice making of the ice making device 10 is stopped.

4 schematically shows a control method of the present embodiment. The control method of the present embodiment is applied to an ice making device having a storage tank for storing the ice generated by the above-mentioned ice making device and a conveying means for transferring the ice to a discharge port, and the ice-covering sensor provided in the storage tank detects the ice level. Step (S100), the step of checking whether the storage of additional ice in the reservoir (S200), if the additional storage is possible in the reservoir continues to generate by the ice generator, if the additional storage in the reservoir is not possible ice by the ice generator It is configured to include the step of stopping the generation (S300).

In the step S100 of detecting the ice-covering sensor, the ice generated in the ice making apparatus 10 (S50) falls on the storage tank 20 to detect the accumulation in the storage tank through the ice-covering sensor 70. Say step. In the initial state of the ice making apparatus as shown in FIG. 7, ice is concentrated and accumulated in a specific portion as shown in FIG. 8. In the state as shown in Figure 7, the height of the ice is reached to the height of the ice sensor is mounted on the side of the reservoir stacked ice. The ice sensor detects this. On the other hand, since the ice is not evenly distributed and accumulated in the reservoir at this stage, the reservoir cannot be confirmed as full of ice.

The step S200 of checking whether the additional ice can be stored in the storage tank is to determine whether the ice level detected in the step S100 is a true ice state in which additional ice storage is impossible.

The step (S200) of checking whether the additional ice can be stored in the reservoir includes rotating the screw-type transfer means provided in the reservoir for a predetermined time (S210) and an ice-covering sensor provided in the reservoir to determine the ice state. It further includes the step (S220). In other words, by distributing the ice forward and backward rotation of the screw-type conveying means to detect whether the state of the ice with an additional ice sensor.

On the other hand, if there is a specific limitation in the shape of the reservoir, for example, when the upward inclination is formed toward the downstream side of the ice movement path, the step (S200) for checking whether the storage of additional ice in the reservoir is possible to transfer Reverse rotation of the screw-type transfer means for a predetermined time in the reservoir in which an upward inclination is formed toward the downstream side of the ice movement path by the forward rotation of the means (S210) and the ice sensor is provided in the reservoir. It may be configured to additionally detect the step (S220). Since the inclination is formed in the reservoir, the screw disperses the ice by rotating the conveying means in the form of a screw.

In this case, if the ice detection sensor provided in the reservoir does not detect the ice state in the step S210 of additionally detecting the ice state, additional ice storage is possible, and when the ice detection state is detected, the additional ice storage is impossible. to be. 9 shows a case where it is impossible to store additional ice. That is, in FIG. 9, the ice is evenly distributed, and since the ice reached the true state of ice, it is impossible to store additional ice.

If further storage in the reservoir is possible to continue to generate by the ice generating device, and if it is impossible to store additional storage in the storage step (S300) in the step of stopping the generation of ice by the ice generating device in the previous step (S200) If so, additional ice is produced and stored or the ice is stopped.

Another embodiment of the present invention relates to a control method of an ice making apparatus having a storage tank for storing ice generated by the ice-making apparatus and a conveying means for transferring the ice to the outlet side, wherein the storage tank includes a plurality of ice sensor. have. FIG. 5 shows an example in which two different ice detection sensors 71 and 72 are mounted in a reservoir when a slope is formed in the reservoir. FIG. 6 shows an example in which two different ice detection sensors 71 and 72 are mounted in a reservoir when there is no inclination in the reservoir.

The embodiment of the present invention includes the steps of detecting at least one of the plurality of ice detection sensors provided in the storage state (S100), comparing the storage of additional ice in the storage tank (S200), and further storage in the storage tank In this case, after dispersing the ice in the storage tank, ice is continuously generated by the ice generator, and when it is impossible to store additionally in the storage tank, the ice production by the ice generator is stopped (S300).

At least one or more of the plurality of ice detection sensors to detect the state of ice (S100) as in the above-described embodiment, the ice (S50) generated in the ice producing device falls into the reservoir so that the ice sensor is stacked in the ice This refers to the step of detecting the height.

 Comparing whether the additional ice can be stored in the reservoir (S200) is a step of confirming whether the detected ice level is a true ice state in which the additional ice storage is impossible as in the above-described embodiment.

Here, when the plurality of ice detection sensors do not detect the state of ice or only some of the plurality of ice detection sensors detect the ice state, additional ice storage is possible, and when the plurality of ice detection sensors detect the state of ice. Is when additional ice storage is not possible.

A plurality of different ice sensor is mounted at the same height on the side of the reservoir as shown in FIG. Therefore, it is impossible to store additional ice. If the true ice state, all the ice sensor will detect the ice state. In addition, if only a few sensors detect the ice will not be evenly distributed in the reservoir will be able to store additional ice. Thus, by comparing the detection of the plurality of ice sensor, it is confirmed whether the true ice state.

If further storage is possible in the reservoir, dispersing the ice in the reservoir and continuing to produce ice by the ice producing device (S300) by rotating the screw-shaped transfer means provided in the reservoir for a predetermined time in the storage tank Disperse the ice.

In addition, when it is impossible to further store in the reservoir step (S300) of stopping the ice generation by the ice producing device stops the operation of the ice producing device by the controller described above.

 On the other hand, if there is a specific limitation in the shape of the reservoir, for example, if an upward inclination is formed toward the downstream side of the ice movement path, ice is generated after dispersing the ice in the reservoir when further storage is possible in the reservoir. In step S300 of continuously generating ice by the apparatus, the screw-shaped transfer means is reversely rotated for a predetermined time in a reservoir in which an upward slope is formed toward a downstream side of the ice movement path by forward rotation of the transfer means. Disperse the ice in the reservoir.

When the control method of the ice making machine as described above is used, the ice stored in the storage tank of the ice making machine is evenly distributed, and the amount of ice storage of the ice making device is increased, thereby improving user convenience. In particular, it is possible to determine whether or not to use the ice detection sensor provided in the storage tank, determine whether the ice can be stored additionally to determine whether to generate additional ice to reduce the power consumption, and efficiently Can be used.

Although the preferred embodiments of the present invention have been described above with reference to the accompanying drawings, the scope of the present invention is not to be construed as limited to such embodiments and / or drawings, and is determined by the matters set forth in the claims below. do. In addition, it should be clearly understood that improvements, changes, modifications, and the like apparent to those skilled in the art described in the claims are included in the scope of the present invention.

1: water purifier 2: body
3: filter 4: dispenser
10: ice making device 20: storage tank
30: transfer means 40: grinding means
50: drive motor 60: outlet
70,71,71: ice sensor 90: controller

Claims (8)

Ice generating device, the conveying means for conveying the ice and the ice generated by the ice generating device therein, is formed to be inclined upward toward the downstream side of the ice movement path, the conveying means is disposed inclined upwardly therein In the control method of the ice-making apparatus provided with a storage tank,
Sensing the ice state by the ice detection sensor provided in the reservoir;
Checking whether additional ice can be stored in the reservoir;
If the additional storage is possible in the reservoir continues to generate by the ice generating device, and if the additional storage in the reservoir is not possible to stop the ice generation by the ice producing device; includes,
Examining whether the storage of additional ice in the reservoir is possible,
Rotating the screw-type transfer means for a predetermined time in a reservoir in which an upward inclination is formed toward a downstream side of the ice movement path by forward rotation of the transfer means; And
And a step of detecting an ice level in the ice sensor provided in the storage tank. delete delete The method of claim 1,
If the ice detection sensor provided in the reservoir does not detect the ice state in the step of additionally detecting the ice state, additional ice storage is possible, and when the ice detection state is detected, the additional ice storage is impossible.
Control method of ice maker. Ice generating device, the conveying means for conveying the ice and the ice generated by the ice generating device therein, is formed to be inclined upward toward the downstream side of the ice movement path, the conveying means is disposed inclined upwardly therein In the control method of the ice-making apparatus provided with a storage tank,
Sensing at least one or more of the plurality of ice detection sensors provided in the storage state;
Comparing the possibility of storing additional ice in the reservoir;
And dispersing the ice in the reservoir when further storage is possible in the reservoir, and continuously generating ice by the ice generator, and stopping the ice generation by the ice generator when additional storage in the reservoir is impossible.
If additional storage is possible in the reservoir, dispersing the ice in the reservoir and continuing to produce ice by the ice maker,
Control of the ice making apparatus characterized by dispersing the ice in the reservoir by reversely rotating the screw-shaped transfer means for a predetermined time in a reservoir in which an upward inclination is formed toward the downstream side of the ice movement path by forward rotation of the transfer means. Way. The method of claim 5,
Comparing whether it is possible to store additional ice in the reservoir,
If the plural ice detection sensors do not detect the state of ice or only some of the ice detection sensors detect the state of ice, additional ice storage is possible. A method of controlling an ice maker, wherein ice storage is not possible. delete delete

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