KR20060119389A - Agitator control method of refrigerants water tank type purifier - Google Patents

Abstract

A method for controlling an agitator by checking whether a compressor is operated or not, comparatively determining accumulated times from an open time point of the compressor, checking whether it is a cold water discharge mode or not, and comparatively determining accumulated times from a time point after stopping discharge of cold water is provided to constantly maintain temperature of water or the state of ice and prevent temperature of water from being rapidly changed. A method for controlling an agitator of a refrigerants water tank type purifier comprises the steps of: determining whether a compressor is operated or not; and operating an agitator of a refrigerants water tank if the compressor is operated, and stopping the agitator for at least a predetermined time if the compressor is not operated. A method for controlling an agitator of a refrigerants water tank type purifier comprises the steps of: determining whether a compressor is operated or not; and operating an agitator of a refrigerants water tank if the compressor is operated, and determining whether a time accumulated from the non-operating time point exceeds a set time or not if the compressor is not operated; and operating the agitator if the accumulated time does not exceed the set time, and stopping the agitator for at least a predetermined time if the accumulated time exceeds the set time.

Description

Agitator control method of refrigerants water tank type purifier

1 is a block diagram showing a water purifier according to a preferred embodiment of the present invention.

Figure 2 is a flow chart illustrating a stirrer control method according to a preferred embodiment of the present invention.

** Description of symbols for the main parts of the drawing **

220: filter 340: electrolytic cell solenoid valve

400: electrolytic cell 501: refrigerant tank

502: refrigerant coil 520: hot water tank assembly

540: hot water safety solenoid valve 560: alkali cold water pipe

580: alkali hot water pipe 620: coke

970 pressure switch 980 alkali water pipe

800: drain solenoid valve 900: acidic water solenoid valve

910: refrigerant tank solenoid valve 930: refrigerant tank

940: cold water solenoid valve 950: normal temperature solenoid valve

960: hot water solenoid valve 990: room temperature water pipe

The present invention relates to a method of controlling a stirrer of a refrigerant tank type water purifier.

The main difference between the refrigerant tank type water purifier and the general water purifier is in the generation of ice in the refrigerant tank, and since the shape, formation process, and position of the ice are important, it is necessary to implement a certain form, position, shape, and the like.

To this end, in the case of using a stirrer in the conventional refrigerant tank type water purifier, there is no proper control method of the stirrer to stir the water to rot, not only maintain the temperature of the water but also maintain the thickness, shape, etc. of the ice formed in the tank constant Can't. Therefore, there is a problem that does not help the user to drink water of a certain temperature desired.

The present invention has been made in order to solve the above problems, the stirring of the water tank of the refrigerant tank type water purifier that can not only maintain the temperature of the water by stirring the water, but also maintain the thickness, shape, etc. of the ice formed in the tank constant The purpose is to provide a control method.

Stirrer control method of the refrigerant tank water purifier of the present invention for achieving the above object comprises the steps of determining whether the compressor operation; Operating the stirrer of the coolant tank when the compressor is in operation, and stopping the stirrer for at least a predetermined time when the compressor is not in operation.

Stirrer control method of the refrigerant tank water purifier according to another aspect of the present invention comprises the steps of determining whether the compressor operation; Operating the stirrer of the refrigerant tank when the compressor is in operation, and determining whether the accumulated time from the time point exceeds the set time when the compressor is not in operation; Operating the stirrer if the set time is not exceeded, and stopping the stirrer for at least a predetermined time if the set time is exceeded.

Stirrer control method of the refrigerant tank water purifier according to another aspect of the present invention comprises the steps of determining whether the cold water export mode; In the case of the cold water extraction mode, the stirrer of the coolant tank is operated. If not, the stirrer is stopped for at least a predetermined time.

Stirrer control method of the refrigerant tank water purifier according to another aspect of the present invention comprises the steps of determining whether the cold water export mode; Operating the stirrer of the coolant tank in the cold water discharge mode, and determining whether the accumulated time exceeds the operation holding time after the cold water discharge stops; Operating the stirrer when the operation holding time is not exceeded, and stopping the stirrer for at least a predetermined time when the operation holding time is exceeded.

Stirrer control method of the refrigerant tank water purifier according to another aspect of the present invention comprises the steps of determining whether the compressor operation or cold water mode; Operating the stirrer of the coolant tank when the compressor is in operation or in the cold water extraction mode; otherwise, stopping the stirrer for at least some time.

Stirrer control method of the refrigerant tank water purifier according to another aspect of the present invention comprises the steps of determining whether the compressor operation; Operating the stirrer of the refrigerant tank when the compressor is in operation, and determining whether the accumulated time from the time point exceeds the set time when the compressor is not in operation; Operating the stirrer if the set time is not exceeded, and determining whether the cold water export mode is exceeded; Operating the stirrer in the cold water extraction mode; otherwise determining whether the accumulated time exceeds the operation holding time after the cold water export stops; Operating the stirrer when the operation holding time is not exceeded, and stopping the stirrer for at least a predetermined time when the operation holding time is exceeded.

According to these configurations, the water can be stirred to keep the temperature of the water constant, and the thickness, shape, and the like of the ice formed in the water tank can be kept constant.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a block diagram showing a refrigerant tank type water purifier. As shown in FIG. 1, the water purifier according to the present embodiment includes a filter 220 that largely filters and purifies raw water, a solenoid valve that controls the flow of purified water passing through the filter 220, and the solenoid valve. It consists of a coke 620 to the water is discharged, a pressure switch 970 disposed in the flow path between the solenoid valve and the cock 620, and a control unit for sending a signal of the pressure switch 970 to the solenoid valve.

When a voltage is applied to the electrode of the electrolytic cell 400 for a predetermined time or more in order to withdraw the ionized water, the scale is fixed to the electrode plate and requires automatic cleaning. To this end, the electrolytic cell 400 may be provided with a flow path changing motor for changing the flow path at a phase angle of 180 ° in the outlet pipe connected to each chamber.

Here, the driving method for the flow path change motor is referred to the publication of Korean Patent Laid-Open No. 2004-0108296, and a detailed description thereof will be omitted.

Furthermore, it is preferable that the coolant bath assembly is provided to cool the alkaline ionized water generated from the electrolytic cell 400 to provide alkaline cold water.

 In the coolant tank assembly, an alkali cold water pipe 560 containing alkali water is passed through the coolant tank 501, and the coolant coil 502 for cooling the water inserted into the coolant tank 501 in the coolant tank 501. Is inserted. Both ends of the refrigerant coil 502 is connected to the cooling means.

On the other hand, it is preferable to provide an agitator (not shown) to stir the water in the coolant tank 501, to prevent the phenomenon of ice in the coolant tank 501 and to maintain a constant temperature of the water in the pipe.

Here, the water inserted into the refrigerant tank 501 is supplied to the water through the refrigerant tank tube 930 when the refrigerant tank water supply solenoid valve 910 is opened.

Thus, the alkaline water of the alkali cold water pipe 560 passing through the refrigerant water tank 501 is cooled.

Alkaline normal temperature water generated in the electrolytic cell 400, the flow is controlled by the alkaline water supply solenoid valve installed after the electrolytic cell 400, the alkaline normal temperature water is alkaline cold water pipe 560 when the cold water solenoid valve 940 is opened. It is transferred to the refrigerant tank assembly through, and then cooled and discharged.

The alkaline room temperature water and the room temperature purified water formed in the electrolytic cell 400 are controlled by the room temperature solenoid valve 950.

The room temperature water pipe 990 which transfers the room temperature water is joined between the pressure switch 970 and the refrigerant water tank assembly, thereby providing alkali room temperature water, alkali cold water, and room temperature constant water through one coke 620.

In addition, a hot water tank assembly 520 for heating and storing the alkaline ionized water generated from the electrolytic cell 400 may be provided to provide alkaline hot water.

The alkaline room temperature water is transferred through the alkali hot water pipe 580 and then warmed in the hot water tank assembly 520 and then stored and discharged into the alkaline hot water.

Solenoid valves for controlling the flow of purified water may be further provided on each flow path in order to selectively and efficiently withdraw each functional water.

In addition, the cock 620 is provided to the water can be withdrawn.

The pressure switch 970 may be installed after the point where the room temperature water pipe 990 joins, and may be installed in the alkaline water pipe 980 through which the alkali room temperature water and the room temperature purified water and the alkaline cold water are transferred.

 In addition, a control unit (not shown) for transmitting a signal of the pressure switch 970 to the solenoid valve is provided.

The pressure switch 970 is preferably a low pressure cutoff switch. For the specific operation mechanism of the low pressure cut-off switch, refer to the publication of Korea Utility Model Registration No. 20-0294986 and detailed description thereof will be omitted.

The low pressure shutoff switch switches using the low pressure of the liquid, and more specifically, the low pressure shutoff switch by using the pressure of the flowing liquid installed in the middle of the liquid flow and controlling the flow-related device such as the solenoid valve by operating the switch. It automatically adjusts the flow of liquid according to the pressure set in.

When the user presses a button of the desired number of functions, the control unit waits for on / off of the solenoid valve concerned.

At this time, when the coke 620 is opened and the pressure in the pipe is lowered, a signal is input to the pressure switch 970 and the signal is transmitted to the related solenoid in the standby, and the function water is discharged while opening the solenoid.

On the other hand, when the coke 620 is closed and a high pressure is sensed and the signal of the pressure switch 970 is cut off, the related solenoid valve which is open is closed and supply of the functional water is stopped.

As such, the water purifier opens and closes the solenoid valve associated with each functional water as the coke 620 is opened and closed, so that the functional water is immediately generated and discharged when necessary.

Hereinafter, the agitator control method of this embodiment which has the above-mentioned structure is demonstrated.

2 is a flow chart illustrating a stirrer control method of a refrigerant tank type water purifier according to a preferred embodiment of the present invention.

As shown in FIG. 2, the stirrer control method of the refrigerant tank type water purifier of the present embodiment first determines whether the compressor operates.

(I) operating the agitator of the refrigerant tank 501 when the compressor is operated; If the compressor does not operate (N), it is determined whether the accumulated time from that point exceeds the set time (for example, 60 minutes).

If the set time is not exceeded (iii), operating the agitator; If the set time is exceeded (N), it is determined whether the cold water export mode is used.

In the cold water extraction mode (iii), operating the agitator; If it is not the cold water export mode (N), it is determined whether the accumulated time from the time after the cold water export stops exceeds the operation holding time.

When the operation holding time is not exceeded (iii), operating the agitator; When the operation holding time is exceeded (N), the stirrer is stopped for at least a certain time.

Thus, by controlling the stirrer by determining whether the compressor is operated, comparing the cumulative time from the time of opening the compressor, whether the cold water is out, or comparing the cumulative time from the time after the cold water is stopped, the temperature of the water and the ice state are controlled. It not only keeps constant but also prevents the water temperature from changing suddenly, so the change of input value received from microcomputer is slow and easy to control.

On the other hand, the above-mentioned stirrer control method of the refrigerant tank water purifier, the step of determining whether the compressor operation; When the compressor is operating can be implemented by operating the stirrer of the coolant tank, if the operation does not operate for at least a certain time stop the stirrer.

In addition, the stirrer control method of the refrigerant tank type water purifier, the step of determining whether the compressor operation; Operating the stirrer of the refrigerant tank when the compressor is in operation, and determining whether the accumulated time from the time point exceeds the set time when the compressor is not in operation; The stirrer may be operated when the set time is not exceeded, and the stirrer may be stopped at least a predetermined time when the set time is exceeded.

On the other hand, the stirrer control method of the refrigerant tank type water purifier includes the steps of determining whether the cold water extraction mode; In the cold water extraction mode, the stirrer of the coolant tank may be operated, and if not, the stirrer may be stopped for at least a predetermined time.

In addition, the stirrer control method of the refrigerant tank type water purifier includes the steps of: determining whether the cold water extraction mode; Operating the stirrer of the coolant tank in the cold water discharge mode, and determining whether the accumulated time exceeds the operation holding time after the cold water discharge stops; When the operation holding time does not exceed, the stirrer may be operated, and when exceeding, the stirrer may be stopped for at least a predetermined time.

Another stirrer control method of the refrigerant tank type water purifier includes the steps of: determining whether the compressor is operating and whether the cold water is out; When the compressor is operated or in the cold water extraction mode, the agitator of the refrigerant tank may be operated. Otherwise, the agitator may be stopped for at least a predetermined time.

The stirrer control method of the refrigerant tank type water purifier of the present invention is not limited to the above-described embodiments, and may be variously modified within the range permitted by the technical idea of the present invention.

According to the stirrer control method of the refrigerant tank type water purifier of the present invention as described above, whether or not the compressor is operated, the comparison of the accumulated time from the time of opening the compressor, whether or not the cold water export mode, the cumulative time from the time after the cold water stop By controlling the stirrer through comparison and judgment, it not only helps the user to drink water at a certain temperature by keeping the water temperature or ice state constant, but also prevents the water temperature from changing suddenly. The effect is that the change in value is slow and easy to control.

Claims (6)

Determining whether the compressor is in operation; Operating the stirrer of the refrigerant tank when the compressor is in operation, and stopping the stirrer for at least a predetermined time when the compressor is not in operation; Stirrer control method of the refrigerant tank type water purifier comprising a. Determining whether the compressor is in operation; Operating the stirrer of the refrigerant tank when the compressor is in operation, and determining whether the accumulated time from the time point exceeds the set time when the compressor is not in operation; Operating the stirrer when the set time is not exceeded, and stopping the stirrer for at least a predetermined time when the set time is exceeded; Stirrer control method of the refrigerant tank type water purifier comprising a. Determining whether the cold water export mode; Operating the stirrer of the coolant tank in the cold water export mode, and if not, stopping the stirrer for at least a predetermined time; Stirrer control method of the refrigerant tank type water purifier comprising a. Determining whether the cold water export mode; Operating the stirrer of the coolant tank in the cold water discharge mode, and determining whether the accumulated time exceeds the operation holding time after the cold water discharge stops; Operating the stirrer when the operation holding time is not exceeded, and stopping the stirrer for at least a predetermined time when the operation holding time is exceeded; Stirrer control method of the refrigerant tank type water purifier comprising a. Determining whether the compressor is in operation and whether the cold water is out; Operating the stirrer of the coolant tank when the compressor is in operation or in the cold water extraction mode; otherwise, stopping the stirrer for at least some time; Stirrer control method of the refrigerant tank type water purifier comprising a. Determining whether the compressor is in operation; Operating the stirrer of the refrigerant tank when the compressor is in operation, and determining whether the accumulated time from the time point exceeds the set time when the compressor is not in operation; Operating the stirrer if the set time is not exceeded, and determining whether the cold water export mode is exceeded; Operating the stirrer in the cold water extraction mode; otherwise determining whether the accumulated time exceeds the operation holding time after the cold water export stops; Operating the stirrer when the operation holding time is not exceeded, and stopping the stirrer for at least a predetermined time when the operation holding time is exceeded; Stirrer control method of the refrigerant tank type water purifier comprising a.

Images