KR100636553B1 - Water supplying control apparutus for a ice maker and control method thereof - Google Patents

Abstract

In the present invention, when the difference between the present temperature and the initial temperature detected by the temperature sensor after the initial water supply is smaller than the reference temperature value, additional water is supplied to accurately control the amount of water supplied to the tray. As a control device and a water supply control method,

A temperature sensor that detects the temperature of the tray and converts it into an electrical signal and outputs it, a memory for storing water supply information, and a water supply valve that operates to supply or shut off water to the tray by operating the water supply valve according to a control signal. Means, means for providing time information, and inputting and storing the initial temperature, and after initial water supply, detects the present temperature around the tray, and the difference between the detected present temperature and the initial temperature is greater than the reference temperature value. It is determined whether the large, and if the difference between the current temperature and the initial temperature is smaller than the reference temperature value is determined to include a small amount of the initial water supply is operated to include a control means for additional water supply.

Tray, Water Supply, Additional Water Supply, Water Supply Valve, Memory, Ice Maker

Description

Water supplying control apparutus for a ice maker and control method

1 is a block diagram of a water supply apparatus of a general automatic ice maker.

2 is a block diagram of a water supply control apparatus of an automatic ice maker according to an embodiment of the present invention.

3 is a flowchart illustrating an operation of a water supply control method of an automatic ice maker according to an embodiment of the present invention.

4 is a flowchart illustrating a water supply control method of an automatic ice maker according to another embodiment of the present invention.

5 is a configuration state diagram showing the arrangement of the main portion of the water supply control device of the automatic ice maker according to an embodiment of the present invention.

Figure 6 is an excerpt longitudinal cross-sectional view of the main part of the water supply control device of the automatic ice maker according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

6: tray

10: temperature sensor 20: memory

30: control unit 40: water supply valve drive unit

50: timer 60: insulator

The present invention relates to the field of automatic ice makers used in refrigerators. More specifically, when the difference between the present temperature and the initial temperature detected by the temperature sensor after the initial water supply is smaller than the reference temperature value, the additional water is supplied to the tray. It relates to a water supply control device and a water supply control method of an automatic ice maker, which can accurately control the amount of water.

In general, a refrigerator is provided with a refrigerator compartment and a freezer compartment, and a compressor for compressing a refrigerant and a heat exchanger for generating cold air are installed to operate the refrigerator and the freezer compartment to supply cool air at an appropriate temperature. The food is selected and sorted according to the cold characteristics of the storage.

The freezer is not only used as a storehouse for frozen foods, but also as a useful means of obtaining ice by putting purified water in a suitable container and freezing it with a cold freezer.

In the past, as an ice maker, a container having a fixed volume can be simply stored in a freezer compartment. However, in recent years, in response to the development of science and the user's demand, it has been used automatically from the supply of purified water to the storage and take out / delivery of frozen ice. Automatic ice makers (Ice makers) have been installed and used in the freezer compartment to increase user convenience.

The automatic ice maker installed in the freezer of the refrigerator and automatically producing ice includes a water supply unit for supplying purified water, a tray for receiving purified water to be made of ice, and a tray when all the water in the tray is frozen. And an ice lever for sweeping the inside of the ice, an ice motor for providing power for rotating the ice lever, an ice storage container for storing ice, and the like.

The automatic ice maker of the above-described structure stores the purified water when the tray receiving the purified water receives the cold air from the freezer and completes the ice making, and then checks that the ice level lever lowered to the bottom swings inside the ice storage container and checks that it is empty. In this case, the heater installed at the lower end of the tray is operated to exfoliate the ice ice from the tray, and to automatically drop it from the tray with the above-mentioned ice lever to drop and load the ice storage container located under the tray.

In addition, the automatic ice maker having the above-described configuration is configured to automatically receive purified water from a water supply device including a water tank and a water supply pump provided in the refrigerator for the next ice making after the completion of the ice removal. Since the water tank installed in the refrigerator is difficult to sufficiently increase its capacity due to the space limitations in the refrigerating chamber, it is necessary to replenish water in the water tank relatively frequently. Therefore, in some cases, a method of directly connecting the water supply via a filter or a water purifier is also adopted.

The water supply device of the above-mentioned automatic ice maker is employed in actual products in various ways depending on the manufacturer. However, as shown in FIG. 1, water is supplied to the tray 6 in connection with the water supply source 1. Water supply pipe (3) for supplying, water filter (2) is provided at one point of the water supply pipe (3) to purify the water flowing in the water supply pipe (3), water supply pipe (3) is installed at one point of the water supply pipe (3) It is provided with a water supply valve (4) for adjusting the amount of water flowing in the), and a rotary aberration (5) installed between the outlet of the water supply valve (4) and the water supply pipe (3) to rotate by water pressure.

There are a variety of water supply control methods for controlling the operation of the water supply apparatus of the automatic ice maker configured as described above.

First, when a command to generate ice is input, the controller (not shown) controls to open the water supply valve 4. When the water supply valve 4 is opened as described above, water is supplied to the tray 6 through the water supply pipe 3 connected to the water supply source 1, and the water flowing through the water supply pipe 3 passes through the purified water filter 2. It is purified while being supplied to the tray (6).

While performing the water supply as described above, the controller (not shown) determines whether a predetermined time has elapsed, and when the set water supply time has elapsed, the process of supplying water to the tray 6 is terminated by closing the water supply valve 4. .

However, the water supply control method of the conventional automatic ice maker does not supply the correct amount of water to the tray because it simply controls the water supply to the tray for a set time and does not consider the fluctuation of water pressure or other factors, that is, the water supply in the tray. There is a problem that the amount of water is too little frozen ice cubes (each ice) is too small, or too many overflow to overflow into the ice container or freezer below.

As another conventional water supply control method, U.S. Pat. At 4,909,039, after a predetermined time has elapsed after the water supply operation is performed, the temperature of the tray is sensed, and when the temperature is lower than the predetermined temperature, water is supplied when the water is not supplied. As a result, when the temperature is above a predetermined temperature, a method of determining that water is supplied to a tray and performing a deicing and ice-making process so that a constant amount of water is always provided is disclosed.

However, this method also focuses on warning that no water is supplied to the tray, and it is difficult to accurately control the amount of water supplied to the tray.

In another conventional water supply control method, after the initial water supply, the temperature detected by the temperature sensor changes by the set temperature change amount, that is, the water supply is terminated, the additional water is supplied, or the initial water is supplied according to the change rate of the temperature. A method of adjusting the water supply by resetting the time has been disclosed.

However, since the conventional water supply control method determines the amount of water supplied to the tray using the rate of change of the temperature detected from the tray, an error in which the change rate of the temperature according to the capacity difference of the tray is determined as the amount of water supplied to the tray is generated. There is a problem that does not accurately control the amount of water supplied to.

An object of the present invention is to solve such a conventional problem, the amount of water supplied to the tray by additional water supply if the difference between the current temperature and the initial temperature detected by the temperature sensor after the initial water supply is smaller than the reference temperature value It is to provide a water supply control device and a water supply control method of the automatic ice maker.

The apparatus of the present invention as a means for achieving the above object is, in the automatic ice maker, a temperature sensor for detecting the temperature of the tray and then converts it into an electrical signal and outputs, a memory for storing water supply information and The water supply valve driving means for operating the water supply valve according to the control signal to supply or cut off water to the tray, the means for providing time information, the initial temperature detection input and storage, the tray after the initial water supply Detects the surrounding temperature and determines whether the detected difference between the present temperature and the initial temperature is greater than the reference temperature value.If the difference between the present temperature and the initial temperature is smaller than the reference temperature value, it is determined that the initial water supply is small. It comprises a control means for the additional water supply.

In the configuration of the apparatus of the present invention, the control means detects the secondary current temperature by using a temperature sensor after the additional water supply, and determines whether the difference between the detected secondary current temperature and the initial temperature is larger than the reference temperature value. When the difference between the secondary present temperature and the initial temperature is smaller than the reference temperature value, it is preferable to determine that the primary additional water supply amount is small and output a control signal for the secondary additional water supply.

In the configuration of the apparatus of the present invention, the control means detects the secondary current temperature by using a temperature sensor after the additional water supply, and the difference between the detected secondary current temperature and the primary current temperature is greater than the reference temperature value. It is judged whether or not large, and when the difference between the secondary current temperature and the primary current temperature is less than the reference temperature value, it is determined that the primary additional water supply is small, characterized in that for outputting a control signal for the secondary additional water supply Water supply control device of the ice maker.

In the configuration of the apparatus of the present invention, the control means, the control signal for determining that the initial water supply is large when the difference between the primary current temperature and the initial temperature is larger than the reference temperature value to reduce the initial water supply time by a certain value. It is preferable to output.

In the configuration of the apparatus of the present invention, it is preferable that the control means outputs a control signal for increasing the initial water supply time by determining that the initial water supply amount after the second additional water supply is small.

In addition, the configuration of the method of the present invention as a means for achieving the above object, detecting and inputting and storing the initial temperature, performing the initial water supply for a certain time, by detecting the current temperature around the tray, Determining whether the difference between the present temperature and the initial temperature is greater than the reference temperature value, and if the difference between the present temperature and the initial temperature is smaller than the reference temperature value, judges that the initial water supply is small and operates additional water supply. It is made to include.

The configuration of the method of the present invention comprises the steps of detecting the secondary current temperature by using a temperature sensor after the additional water supply, and determining whether the difference between the detected secondary current temperature and the initial temperature is greater than the reference temperature value, and the secondary current When the difference between the temperature and the initial temperature is smaller than the reference temperature value, it is preferable to further include the step of determining that the first additional water supply amount is smaller than the second additional water supply.

The configuration of the method of the present invention includes detecting a secondary current temperature by using a temperature sensor after additional water supply, and determining whether a difference between the detected secondary current temperature and the primary current temperature is greater than a reference temperature value; When the difference between the primary present temperature and the primary present temperature is smaller than the reference temperature value, it is preferable to further include the step of determining that the primary additional water supply is small and performing secondary additional water supply.

The configuration of the method of the present invention preferably further comprises the step of determining that the initial water supply amount is large when the difference between the primary present temperature and the initial temperature is greater than the reference temperature value, thereby decreasing the initial water supply time by a certain value.

The configuration of the method of the present invention preferably further comprises the step of increasing the initial water supply time by determining that the initial water supply amount after the second additional water supply is small.

The constitution of the present invention is preferable if the temperature sensor mounted on the tray of the ice maker is surrounded by an insulator, except for the surface in contact with the supplied water.

Hereinafter, the most preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. . Other objects, features, and operational advantages, including the object, operation, and effect of the present invention will become more apparent from the description of the preferred embodiment.

For reference, the embodiments disclosed herein are only presented by selecting the most preferred embodiment in order to help those skilled in the art from the various possible examples, the technical spirit of the present invention is not necessarily limited or limited only by this embodiment Rather, various changes, additions, and changes are possible within the scope without departing from the spirit of the present invention, as well as other equivalent embodiments.

Configuration of the water supply control device of the automatic ice maker according to an embodiment of the present invention, as shown in Figure 2, after detecting the internal temperature of the tray (6, see Figure 1) and converts it into an electrical signal and outputs A temperature sensor 10, a memory 20 for storing water supply information, a water supply valve driving unit 40 for operating water supply valves according to control signals to supply or cut off water to the tray 6, and time. After detecting and storing the initial temperature T1 using the timer 50 and the temperature sensor 10 for providing information, and operating the water supply valve driver 40 to perform initial water supply, the timer When a predetermined time elapses through 50, the primary current temperature T2 is detected using the temperature sensor 10, and the difference between the primary current temperature T2 and the initial temperature T1 is greater than the reference temperature value. The initial water supply time is reduced by a certain amount, and the primary current temperature (T2) If the difference in the degree (T1) is smaller than the reference temperature value, the first additional water is supplied, and when a predetermined time passes through the timer 50, the secondary current temperature T3 is detected using the temperature sensor 10, When the difference between the secondary present temperature (T3) and the initial temperature (T1) (see FIG. 3) or the difference between the secondary present temperature (T3) and the primary present temperature (T2) (see FIG. 4) is smaller than the reference temperature value The second additional water supply, and the control unit 30 is made to increase the initial water supply time after a second additional water supply constant.

Configuration of the water supply control method of the automatic ice maker according to an embodiment of the present invention, as shown in Figure 3, the step of starting the operation (S10) and the detection of the initial temperature (T1) using a temperature sensor input And storing (S20), operating the water supply valve driving unit (S30) for the initial water supply for a predetermined time, waiting for a predetermined time after the initial water supply (S40), and the primary current using the temperature sensor Detecting a temperature T2 to determine whether a difference between the primary current temperature T2 and the initial temperature T1 is greater than the reference temperature value (S50), and the primary current temperature T2 and the initial temperature T1. If the difference is greater than the reference temperature value, it is determined that the initial water supply amount is large and the initial water supply time is decreased by a predetermined value (S60), and the difference between the primary current temperature (T2) and the initial temperature (T1) is the reference temperature value. If smaller than the initial water supply is judged to be small While the first additional water supply for a predetermined time (S70), and waiting for a certain time after the first additional water supply (S80), the second current temperature (T3) by using a temperature sensor to detect the second Determining whether the difference between the present temperature (T3) and the initial temperature (T1) is greater than the reference temperature value (S90), and when the difference between the secondary current temperature (T3) and the initial temperature (T1) is smaller than the reference temperature value It is determined that the first additional water supply amount in the step of operating the water supply valve driving unit for a certain time (S100) and the initial water supply time after the second additional water supply is judged to be a small increase in the initial water supply time And a step (S120) of terminating the operation (S110).

The configuration of the water supply control method of the automatic ice maker according to another embodiment of the present invention is as shown in FIG. 4, which in FIG. 3 detects the secondary current temperature T3 using a temperature sensor. Instead of determining whether the difference between the difference present temperature T3 and the initial temperature T1 is greater than the reference temperature value (S90), the second present temperature T3 is detected by detecting the second present temperature T3 using a temperature sensor. The difference between the step T3) and the primary current temperature T2 is greater than the reference temperature value (S190).

By the above configuration, the action of the water supply control device and the water supply control method of the automatic ice maker according to an embodiment of the present invention are as follows.

When power is applied and the operation procedure of FIG. 3, which is programmed and stored in the memory 20, is executed by the controller 30, the operation of the water supply control device of the automatic ice maker according to the embodiment of the present invention starts ( S10).

When the operation is started, the control unit 30 detects the initial temperature T1 using a signal input from the temperature sensor 10 installed around the tray and stores it in the memory 20 (S20).

Next, the control unit 30 operates the water supply valve through the water supply valve driving unit 40 so that water is supplied to the tray for a predetermined time (about 5 seconds) so that initial water supply is made (S30). While the initial water supply is made in this way, the temperature around the tray where the temperature sensor 10 is installed is temporarily raised due to the influence of the water supplied.

After the initial water supply is made, the controller 30 waits a delay for a predetermined time (about 15 seconds) (S40). During the delay waiting, after the temperature of the water supplied to the tray is in thermal equilibrium with the tray, the temperature around the tray where the temperature sensor 10 is installed is lowered due to the influence of cold air in the freezer.

After the delay wait time passes, the controller 30 primarily detects the present temperature T2 around the tray by using the temperature sensor 10, and then detects the detected present present temperature T2 and the memory 20. It is determined whether the difference from the stored initial temperature T1 is greater than the reference temperature value (S50). The reference temperature value is a value corresponding to the most suitable initial water supply amount according to the capacity and freezing capacity of the freezer, the capacity and material of the tray, etc., and is experimentally predetermined and stored in the memory 20.

If the difference between the detected primary current temperature T2 and the initial temperature T1 is greater than the reference temperature value, the controller 30 determines that the initial water supply amount is large, so that the initial water supply time may be slightly reduced in the future. Reduces a certain value (about 1 second) (S60).

However, when the difference between the detected primary current temperature T2 and the initial temperature T1 is smaller than the reference temperature value, the controller 30 determines that the initial water supply amount is small and supplies the water supply valve through the water supply valve driver 40. By operating the water to be supplied to the tray for a predetermined time (about 2.5 seconds) is the first additional water supply (S70). In this way, while the first additional water is being supplied, the temperature around the tray where the temperature sensor 10 is installed increases temporarily due to the influence of the water supplied, but after a predetermined time, the thermal equilibrium is reached and immediately after that time. Since it is lowered by the cold air of the freezer compartment, it is necessary to measure the temperature at this point in order to accurately measure the temperature.

After the delay wait time has passed, the controller 30 secondly detects the present temperature T3 around the tray by using the temperature sensor 10, and detects the detected second present temperature T3 and the memory 20. It is determined whether the difference between the stored initial temperature T1 or the primary present temperature T2 is greater than the reference temperature value (S90 and S190).

If the difference between the detected secondary current temperature T3 and the initial temperature T1 or primary current temperature T2 is greater than the reference temperature value, the controller 30 determines that the amount of water supplied to the tray is sufficient. The water supply operation is terminated by blocking the water supply valve through the water supply valve driver 40 (S120).

However, if the difference between the detected secondary current temperature T3 and initial temperature T1 or primary current temperature T2 is smaller than the reference temperature value, the controller 30 may not be placed in the tray despite the primary additional water supply. It is determined that the amount of water supplied is small to operate the water supply valve through the water supply valve drive unit 40 so that the water is supplied to the tray for a predetermined time (about 2.5 seconds) to additionally supply additional water (S100).

After the additional water supply is made in this manner, the control unit 30 determines that the water is sufficiently supplied to the tray, thereby terminating the water supply operation by shutting off the water supply valve through the water supply valve drive unit 40. In the process of water supply and secondary additional water supply, it was determined that the initial water supply was set low enough to require two additional water supply, and the initial water supply time was increased by a certain value (about 1 second) to increase the initial water supply slightly in the future. After (S110), the operation is terminated (S120).

On the other hand, the control unit 30 obtains the information on the time elapsed from the timer 50 in the above water supply control process, the timer 50 may use a separate external element, an internal program such as a counting program It can also be used.

When the water supply control process as described above is completed, the ice making cycle is started to freeze the water contained in the tray. When the water contained in the tray is completely frozen, the ice is taken out of the tray and stored in an ice storage container. do.

In addition, when the temperature sensor 10 mounted on the tray 6 of the ice maker is surrounded by an insulator except for the surface in contact with the water supplied, the temperature sensor 10 affects the temperature sensor 10 except the water supplied. Without this, accurate temperature measurements are possible, which allows more accurate control.

As described in the above embodiment, the present invention, if the difference between the current temperature and the initial temperature detected by the temperature sensor after the initial water supply is smaller than the reference temperature value by additional water supply to accurately control the amount of water supplied to the tray Has the effect.

Claims (11)

In the automatic ice maker which consists of a water supply device, a tray, an ice-breaker, and an ice detector, A temperature sensor that senses the temperature of the tray, converts it into an electrical signal, and outputs it; a memory storing experimentally predetermined reference temperature values, an initial water supply time, and a control program; and operating a water supply valve according to the control of the control program. And a water supply valve driving unit for supplying or cutting off water to the tray, and a timer for providing time information. After the initial temperature T1 of the tray is detected and stored in the memory, the water supply valve driving unit is operated to initially supply water to the tray during the initial water supply time, and the first current temperature T2 of the tray is adjusted. Detect and determine whether the difference between the first present temperature T2 and the initial temperature T1 is greater than the reference temperature value, and the difference between the first present temperature T2 and the initial temperature T1 is the reference temperature. If the value is smaller than the value, the initial water supply is determined to be small, and the water supply valve driving unit is further operated for a predetermined time, and the first additional water is supplied, and the difference between the first current temperature T2 and the initial temperature T1 is stored in advance. If it is larger than the temperature value, it is determined that the initial water supply amount is large and the initial water supply time stored in the memory is reduced and stored by a predetermined time, so that the control is applied to the next initial water supply. Water supply control apparatus of an automatic ice maker, characterized in that consisting of. The method of claim 1, The controller may further operate the water supply valve driving unit for the predetermined time to additionally supply water, and then detect the secondary current temperature T3 of the tray by using the temperature sensor to detect the secondary current temperature. It is determined whether the difference between the T3 and the initial temperature T1 is greater than the reference temperature value, and the first addition is performed when the difference between the secondary current temperature T2 and the initial temperature T1 is smaller than the reference temperature value. The water supply control device of the automatic ice maker characterized in that the water supply is determined to be small to further operate the water supply valve driving unit for a predetermined time. The method of claim 2, The controller determines that the initial water supply amount is small after the second additional water supply, and increases and stores the initial water supply time stored in the memory by a predetermined time, so that the water is supplied to the next initial water supply. controller. The method of claim 1, The controller may further operate the water supply valve driving unit for the predetermined time to additionally supply water, and then detect the secondary current temperature T3 of the tray using the temperature sensor to detect the secondary current temperature. It is determined whether the difference between the T3 and the primary current temperature T2 is greater than the reference temperature value, and the difference between the secondary current temperature T3 and the primary current temperature T2 is smaller than the reference temperature value. The water supply control device of the automatic ice maker characterized in that the first additional water supply is determined to be small to further operate the water supply valve drive unit for a predetermined time. The method of claim 4, wherein The controller determines that the initial water supply amount is small after performing the second additional water supply, and increases and stores the initial water supply time stored in the memory by a predetermined time so as to be applied to the next initial water supply. Water supply control device. In the water supply control method of the automatic ice maker, Detecting and storing an initial temperature T1 of the tray; Initially watering the tray for a pre-stored initial watering time; Detecting a first present temperature T2 of the tray and determining whether a difference between the first present temperature T2 and the initial temperature T1 is greater than a previously stored reference temperature value; Determining that the initial water supply amount is small when the difference between the first current temperature T2 and the initial temperature T1 is smaller than the reference temperature value, thereby additionally supplying water to the tray for a predetermined time; If the difference between the first current temperature (T2) and the initial temperature (T1) is greater than the pre-stored reference temperature value, it is determined that the amount of initial water supply is large, and by reducing and restoring the pre-stored initial water supply time by a predetermined time, The water supply control method of the automatic ice maker characterized in that it comprises the step of being applied to the next initial water supply. The method of claim 6, wherein after the first additional water supply to the tray for the predetermined time, Detecting a secondary current temperature T3 of the tray and determining whether a difference between the secondary current temperature T3 and the initial temperature T1 is greater than a reference temperature value; When the difference between the secondary current temperature (T2) and the initial temperature (T1) is less than the reference temperature value is determined that the first additional water supply is small characterized in that the additional additional water to the tray for a predetermined time How to control the water supply of automatic ice makers. The method of claim 7, wherein And determining that the initial water supply amount is small after the second additional water supply and increasing the pre-stored initial water supply time by a predetermined time so as to be applied to the next initial water supply. The method of claim 6, wherein after the first additional water supply to the tray for the predetermined time, Detecting a secondary current temperature T3 of the tray and determining whether a difference between the secondary current temperature T3 and the primary current temperature T2 is greater than a reference temperature value; When the difference between the secondary current temperature (T3) and the primary current temperature (T2) is less than the reference temperature value is determined that the primary additional water supply is small characterized in that the additional additional water to the tray for a predetermined time Water supply control method of automatic ice maker. The method of claim 9, And determining that the initial water supply amount is small after the second additional water supply and increasing the pre-stored initial water supply time by a predetermined time so as to be applied to the next initial water supply. delete

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