KR0162443B1 - Control apparatus and method of flow of water dispenser of a refrigerator - Google Patents

Abstract

The present invention relates to a water dispenser of a refrigerator to which a pump motor is applied. In the related art, in order to take out an appropriate amount of water according to a user's intention, it is necessary to check an amount of water filled in a container and to adjust an on / off state of a lever switch. If the lever louver is pressed for too long, the water overflows out of the container, but the present invention divides and stores the data about the discharge amount of water into predetermined steps, and if the user selects one step to take out the water, By constantly discharging the amount of water corresponding to the selected step it is possible to prevent the overflow of water to solve the conventional problems.

Description

Apparatus and method for adjusting discharge flow rate of refrigerator dispenser

1 is a view showing the internal configuration of a typical refrigerator dispenser.

2 is a view showing the internal configuration of the refrigerator dispenser to which the flow control volume is applied according to the present invention.

Figure 3 is a circuit diagram showing a discharge flow rate control device of the refrigerator dispenser of the present invention.

Figure 4 is a flow chart showing a discharge flow rate control method of the refrigerator dispenser of the present invention.

Figure 5 is an exemplary view showing a relationship with the flow rate discharged in accordance with the state of the flow control volume according to the present invention.

* Explanation of symbols for main parts of the drawings

100: microcomputer 200: flow selector

300: starting unit 400: pump motor driving unit

1 lever 2 lever lever

3: lever switch 4: pump motor

5: bucket 6: water outlet

7: Flow control volume

The present invention relates to a water dispenser of a refrigerator to which a pump motor is applied, and more particularly, to an apparatus and a method for controlling a discharge flow rate of a refrigerator dispenser such that a constant flow rate is always discharged by the set amount when a user sets an amount of water discharged.

In general, the water dispenser of the refrigerator to which the pump motor is applied, as shown in FIG. 1, when the user presses the lever louver 2 using a container to drink water, the lever louver 2 is set to 1 in the 1 position. The lever switch 3 is turned on.

Therefore, the pump motor 4 is driven to supply the water of the bucket 5 through the water discharge port 6 while the lever switch 3 is turned on.

Thereafter, when the appropriate amount of water is taken out and the user removes the container from the lever louver 2, the lever switch 3 is turned off, and thus the pump motor 4 is also turned off so that the extraction of water is completed.

However, in such a case, in order to take out the proper amount of water as the user intended, it is necessary to directly check the amount of water filled in the container and to adjust the on / off state of the lever switch. There was an overflowing uncomfortable problem.

Therefore, in view of the conventional problems, the present invention divides and stores data on the discharge amount of water into predetermined sections, and if a user selects one section to take out water, the amount of water corresponding to the selected section is determined. By constantly discharging the present invention, the object of the present invention is to prevent the overflow of water and provide more convenience to the user.

The method for adjusting the discharge flow rate of the refrigerator dispenser of the present invention includes a first process of determining whether a section for water discharge time is set by a user, and a second process of determining which section corresponds to the section set by the first process. And after determining whether the lever switch is turned on, when the lever switch is turned on, a third process of discharging water by driving the pump motor for a predetermined time according to the second process and the determined setting section, and the third process is set in the third process. When the predetermined time according to the interval elapses, the pump motor is stopped and the process returns to the first process.

On the other hand, the discharge flow rate controller of the present invention refrigerator dispenser for realizing the method consisting of the above process, as shown in Figure 3, the flow rate selection unit 200 for selecting the discharge amount of water by the user, and the discharge start of the water A starter 300 including a lever switch 3 for applying a signal, a section according to the amount of water to be discharged by receiving the signal selected by the flow rate selector 200, and the starter 300 The microcomputer 100 outputs the pump motor driving signal for a predetermined time according to the section setting when the water discharge start signal is applied to the pump motor, and the pump motor 4 while the pump motor driving signal is output from the microcomputer 100. It consists of a pump motor drive unit 400 for driving the water discharge.

The present invention configured as described above will be described in detail with reference to FIGS. 2 to 5.

First, as shown in FIG. 2, the flow adjusting volume 7 is attached to the front portion of the dispenser so that the user can conveniently adjust the flow rate of the water when the user wants to take out the water.

The microcomputer 100 should store data on the time for driving the pump motor 4 and the flow rate discharged according to the driving time. An example thereof will be described with reference to FIG.

The microcomputer 100 should store in advance the pump motor driving time and the flow rate data according to the magnitude of the voltage input through the input terminal ADP1 according to the adjustment of the flow regulating volume 7. When the following voltage is applied, the pump motor drive signal for driving the pump motor must be output for A time to discharge 100 cc of water. Similarly, if a voltage between 2 to 3 volts is applied, B time to discharge 150 cc of water. It should output the drive signal of the pump motor that drives the pump motor, and when the voltage between 3 and 4 volts is applied, it outputs the pump motor drive signal that drives the pump motor for C time to discharge 200cc of water. The data on the drive time of the pump motor 4 should be stored in advance.

In addition, when a voltage of 4 volts or more is applied to the input terminal ADP1 of the microcomputer 100, the pump motor while the lever switch 3 is turned on in order to discharge water in conjunction with the operation of the lever switch 3. Drive signal should be output.

Therefore, when the user applies the voltage of 2 volts or less in the first step to the input terminal ADP1 of the microcomputer 100 by adjusting the flow rate adjusting volume 7 of the flow rate selection unit 200, the microcomputer ( 100 converts the input analog signal into a digital signal, sets one section based on the digital signal value, and then the lever switch 3 of the starter 300 is turned on to apply a low potential to the input terminal IP1. When the water discharge start signal is applied, the transistor TR1 of the pump motor driving unit 400 is turned on by outputting a low-potential pump motor driving signal for an A time period according to the first setting section through the output terminal OP1.

As a result, the transistor TR2 is also turned on, and the pump motor 4 is driven for A time, thereby discharging 100 cc of water.

Thereafter, the microcomputer 100 stops the discharge of water by stopping the pump motor 4 by applying a high-potential signal through the output terminal OP1 when the time according to the first setting section elapses.

Similarly, if two sections are set in the microcomputer 100 by adjusting the flow adjusting volume 7 in two stages, the pump motor 4 is driven for B time according to the two set sections to discharge 150 cc of water. When three sections are set in the microcomputer 100 by adjusting the flow rate adjusting volume 7 in three steps, the pump motor 4 is driven for C time according to the three set sections to discharge 200 cc of water.

On the other hand, when the user adjusts the flow rate control volume (7) so that a voltage of 4 volts or more is applied to the input terminal (ADP1) of the microcomputer 100, and then turn on the lever switch (3) of the starter 300, The microcomputer 100 may directly adjust the discharge amount of water by applying a pump motor driving signal having a low potential through the output terminal OP1 during the on time in conjunction with the lever switch 3.

Referring to the above-described operation process with reference to the flowchart of FIG. 4, the microcomputer 100 determines whether the section is set by the flow rate selection unit 200, and if the section is set, which section corresponds to the section. After that, after determining whether the lever switch 3 is turned on, when the lever switch is turned on, the pump motor 4 is driven for a predetermined time according to the set section determined above. That is, if the determined setting section is one setting section, the pump motor 4 is driven for A time according to the first setting section, and if it is two setting sections, the pump motor 4 is driven for B time according to the two setting sections. , If the set period is three, the pump motor (4) is driven for C time according to the three set period, after which the drive of the pump motor (4) is stopped when the predetermined time according to the set period is elapsed Return On the other hand, in the state in which the section is not set in the above, that is, the state is set in the fourth step in FIG.

As described above, the present invention sets the discharge amount of the water according to the adjustment of the automatic adjustment volume, thereby discharging a predetermined amount during the discharge of the water, thereby taking out the water without overflowing the water.

Claims (2)

A first step of determining whether a section for the water discharge time is set by the user, a second step of determining which section corresponds to the section set by the first step, and then determining whether the lever switch is turned on A third step of discharging water by driving the pump motor for a predetermined time in accordance with the second step and the determined setting section when the lever switch is turned on; and when the predetermined time according to the setting section is elapsed in the third step, the pump motor Discharging flow rate control method of the refrigerator dispenser, characterized in that consisting of a fourth step of stopping and returning to the first process. Setting a section according to the amount of water to be discharged by receiving a signal selected by the flow rate selecting section, a starter including a flow rate selecting section for selecting a discharge amount of water by the user, a lever switch for applying a water discharge start signal, and And a microcomputer for outputting a pump motor driving signal for a predetermined time according to the section setting when the water discharge start signal is applied from the starter, and driving the pump motor while the pump motor driving signal is output from the microcomputer. Discharge flow rate adjusting device of the refrigerator dispenser, characterized in that the pump motor drive unit for discharging.