KR20110065188A - Method for operating compressor of cold water ionizer - Google Patents

Abstract

PURPOSE: A operation method of condenser of cold ion water purifier is provided to keep the uniform temperature of cooling water by controling the amount of ice formed in the ice tub in the change of external temperature by setting operating condition of condenser differently according to the driving rate of condenser. CONSTITUTION: The operation method of condenser of cold ion water purifier includes the steps of: judging whether the water temperature exceeds the driving temperature of condenser by measuring the water temperature of the cooling water(S20); operating the condenser and measuring the driving rate of the condenser when the water temperature exceeds the driving temperature(S40); deciding the stop temperature of the condenser based on the operation factor of condenser(S50); measuring the water temperature of the cooling water and stopping the condenser when the water temperature is lower than the stop temperature(S70). The stop temperature of condenser is the value increased as the percentage of the operation factor by the deviation of 2°C from the reference temperature.

Description

METHOD FOR OPERATING COMPRESSOR OF COLD WATER IONIZER

The present invention relates to a method of operating a compressor of a cold water purifier, and more particularly, to a method of operating a compressor of a cold water purifier by setting a compressor operating condition differently according to a compressor operating rate when operating a compressor in a cold water purifier, The present invention relates to a method of operating a compressor of a cold water purifier.

As industrialization has progressed rapidly, people's lives have been convenient and enriched. On the other hand, environmental pollution has become serious every day. Due to the global warming phenomenon, there are various types of weather changes in various countries in the world. have.

In particular, water, which is the source of life, is becoming increasingly polluted due to the unrestricted discharge of various wastes and wastewater, and most households are boiling water because more and more chemicals are administered to purify polluted water .

In addition, a water purifier has been used at home. Such general water purifier filters the oxides, heavy metals, dust, and debris contained in water by using a filter having activated carbon, ion membrane, etc., .

In the earliest water purifier, activated carbon was stacked in a water tank and water was poured into the water tank to be purified. However, in such a system, if the inside of the water tank is not cleaned frequently, And thus the purified water is corrupted.

In recent years, a water purifier of reverse osmosis type has been widely used in which tap water is purified while moving through a plurality of filter members such as a plurality of pretreatment filters, pretreatment activated carbon filters, reverse osmosis membrane filters, and post-treatment activated carbon filters.

Recently, an ion water purifier has been proposed in which water filtered by a water purifier is re-electrolyzed by using an electrolytic cell, alkaline water is used as drinking water, and acid water is used as beauty water.

The above description refers to the background of the technical field to which the present invention belongs, and does not mean the prior art.

In the cold water purifier, the cold water and cold water are cooled instantly while the purified drinking water passes through the cold water tank along the cold water pipe.

In the cooling process in the cold water tank, the evaporator of the cooler is installed in the cold water tank filled with the cooling water so that the purified drinking water circulates in the cold water tank along the cold water pipe so that the cold water can be obtained.

In order to cool the cooling water in the cold water tank, the compressor of the cooler is operated according to the water temperature of the cooling water.

However, when the outside temperature of the cold water purifier becomes high, the operation time of the compressor becomes long, and the thickness of the ice generated around the evaporator becomes relatively thick.

However, although the water tank is provided with a stirrer to uniformize the temperature of the cooling water, if the thickness of the ice becomes thick, the operation of the stirrer becomes impossible and the water temperature of the cooling water can not be uniformly maintained.

The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a water purifier for a cold water purifier that operates by setting a driving condition of a compressor differently according to an operation rate of a compressor, The present invention provides a method for operating a compressor of a cold water purifier.

A method of operating a compressor of a cold water purifier according to an aspect of the present invention includes the steps of: determining whether a water temperature exceeds a compressor operating temperature by measuring a water temperature of the cooling water; Operating the compressor and measuring the operation rate of the compressor when the water temperature exceeds the operation temperature; Determining a stop temperature of the compressor based on an operation rate of the compressor; And stopping the compressor when the water temperature is below the stop temperature by measuring the water temperature of the cooling water.

In the present invention, the stop temperature of the compressor is a value raised by a percentage of the operation rate with respect to the deviation of 2 DEG C from the reference temperature.

In the present invention, the stopping temperature of the compressor is characterized by setting an operation rate of 15% as an offset.

As described above, according to the present invention, when the compressor is operated in the cold water purifier, the driving conditions of the compressor are set differently according to the operation rate of the compressor, so that the amount of ice formed in the cold water tank is controlled, Lt; / RTI >

Hereinafter, a method of cleaning a cold water tank of a cold water purifier according to the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

1 is a configuration diagram illustrating a water flow of a cold water purifier according to an embodiment of the present invention.

As shown in FIG. 1, the cold water purifier according to the embodiment of the present invention operates the water dispenser cock 20 to consume a purified water, thereby operating the water supply valve 10 to filter the raw water by the filter unit 12 After the purification, the cold water valve 14 and the cold water valve 16 are discharged from the water purification valve 18 to the water outflow cock 20.

When cold water is to be consumed, the cold water is passed through the cold water tank 28 from the cold water valve 16, and then exits to the water outflow cock 20 through the water purification valve 18.

When the ionic water outlet cock 26 is operated to drink the ionized water, the raw water is purified by the filter unit 12 by operating the water supply valve 10 and then the cold water valve 14, the cold water valve 16, Is electrolyzed in the electrolytic bath 22 through the electrolytic bath 18 and then exits to the ionic water outlet cock 26 through the ionic water valve 24.

When drinking hot water is desired to be consumed, the water is passed through the cold water tank 28 from the cold water valve 16, is electrolyzed in the electrolytic tank 22 via the water purification valve 18, And exits to the cock 26.

At this time, in order to replenish the cooling water to the cold water tank 28, the raw water is supplied through the water supply valve 10 and is refilled in the filter unit 12 and then replenished from the cold water valve 14 to the cold water tank 28.

Accordingly, when the cooler 32 is operated, the cooling water is cooled by the evaporator 33 that is immersed in the cooling water, and the purified water is supplied to the cold water pipe 17 circulating the cold water tank 28, .

The cold water tank 28 is provided with a stirrer 34 for stirring the cooling water by rotating the fan 35 so that the water temperature of the cooling water is uniform.

Meanwhile, in order to drain the cooling water accumulated in the cold water tank 28, the cold water tank drainage valve 30 may be operated to drain the cooling water through the cold water tank drainage pipe 31. If overflow occurs in the cold water tank 28 And is drained through the cold water tank water pipe (31).

The acidic ionized water electrolyzed in the electrolytic tank 22 is drained through the drain pipe 23, and drained to the drain pipe 23 through the ion water valve 24 when drained.

2 is a block diagram specifically illustrating a cooler of a cold water purifier according to an embodiment of the present invention.

2, the cooler of the cold water purifier includes a compressor 42 for compressing the refrigerant to a high temperature and a high pressure, a condenser 44 for releasing and liquefying the heat contained in the refrigerant compressed by the compressor 42, A pressure reducing device 46 for reducing the pressure of the refrigerant sent from the condenser 44 to a low pressure state which is likely to be evaporated; And a water temperature sensor 50 for measuring the water temperature of the cooling water is installed in the cold water tank 28. [

At this time, the installation position of the water temperature sensor (50) may be any place for measuring the water temperature of the cooling water, and the reference temperature for driving the compressor may be changed according to the installed position.

The cold water tank 28 is provided with a stirrer 34 for stirring the cooling water by rotating the fan 35 so that the water temperature of the cooling water is uniform.

Accordingly, the controller 42 operates the compressor 42 to drive the cooler 32 according to the water temperature measured through the water temperature sensor 50 in the control unit 40. Further, the stirrer 34 is operated to stir the water temperature of the cooling water so as to be uniform.

3 is a flowchart illustrating a method of operating a compressor of a cold water purifier according to an embodiment of the present invention.

First, the water temperature of the cooling water is measured through a water temperature sensor installed in the cold water tank (S10).

The control unit receives the measured water temperature and compares it with the operating temperature of the compressor (S20).

At this time, if the water temperature exceeds the operation temperature of the compressor, the compressor is operated (S30).

Then, after the operation rate of the compressor is measured, the stop temperature of the compressor is determined based on the measured operation rate of the compressor (S40) (S50).

In the embodiment of the present invention, when the operating temperature of the compressor and the reference temperature of the stop temperature are set to 1.5 ° C. and -1.5 ° C., and the outside temperature is 25 ° C., when the water temperature exceeds the operating temperature of the compressor, And stops the compressor when it falls below -1.5 ° C.

However, as the external temperature changes, the rate at which the water temperature changes varies with the operating rate of the compressor. As a result, the ice thickness varies with the ice speed. That is, when the external temperature is high, the ice is slowly frozen and the thickness of the ice becomes thick, and when the external temperature is low, the ice is quickly frozen and the thickness of the ice is also thinned.

When the outside temperature rises, the water temperature of the cooling water is slowly lowered, so that the operation speed of the compressor is increased and the ice is thickened. When the compressor is stopped according to the water temperature measured by the water temperature sensor, the stirrer is not operated due to the ice thickness .

Accordingly, the stop temperature for stopping the compressor is compensated for and operated according to the operation rate of the compressor.

In the embodiment of the present invention, the stop temperature is calculated as the reference temperature + ((operation rate -15%) / 100%) * 2 DEG C, the stop temperature is determined, and the compressor is operated.

For example, if the external temperature is 25 ° C, the compressor operation rate is about 15%, the operation rate at 40 ° C is 40%, and the compressor operation rate when continuous operation is 70% The operating rate of the compressor is 15%, the compensation value is 0 ° C, and the stop temperature of the compressor is determined by the reference temperature.

However, when the external temperature is 40 ° C and the operation rate of the compressor is 40%, the compensation value calculated in the above manner becomes 0.5 ° C, and when it is compensated, -1 ° C is determined as the stop temperature of the compressor.

Therefore, the compressor stops the compressor when the water temperature is lower than -1 DEG C (S60) (S70).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand. Accordingly, the technical scope of the present invention should be defined by the following claims.

1 is a configuration diagram illustrating a water flow of a cold water purifier according to an embodiment of the present invention.

2 is a block diagram specifically illustrating a cooler of a cold water purifier according to an embodiment of the present invention.

3 is a flowchart illustrating a method of operating a compressor of a cold water purifier according to an embodiment of the present invention.

   Description of the Related Art [0002]

10: Water supply valve 12: Filter section

14: Cold water valve 16: Cold water valve

17: cold water pipe 18: water purifying valve

20: Watering cock 22: Electrolyzer

23: drain pipe 24: ion water valve

26: Ion export Sukoc 28: Cold water tank

30: cold water tank drain valve 31: cold water tank water pipe

32: cooler 33: evaporator

34: stirrer 35: fan

40: control unit 42: compressor

44: condenser 46: decompression device

48: condensing fan 50: water temperature sensor

Claims (3)

Determining whether the water temperature exceeds the operating temperature of the compressor by measuring the water temperature of the cooling water; Operating the compressor and measuring the operation rate of the compressor when the water temperature exceeds the operation temperature; Determining a stop temperature of the compressor based on an operation rate of the compressor; And And measuring the water temperature of the cooling water and stopping the compressor when the water temperature is equal to or lower than the stop temperature. 2. The method of claim 1, wherein the stop temperature of the compressor is a value raised by a percentage of the operation rate with respect to a deviation of 2 DEG C from the reference temperature. The method of operating a compressor of a cold water purifier according to claim 1, wherein the stop temperature of the compressor is set to an operation rate of 15%.

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