KR0149556B1 - Idle method using temperature sensor of cold and hot water purifier - Google Patents

Abstract

The present invention relates to a no-load discrimination method using a temperature sensor of a cold and hot water purifier, and more particularly, to a no-load discrimination method using a temperature sensor. In particular, when the temperature reaches a target temperature set by a microcomputer capable of temperature control, It is about controlling and detecting whether the temperature rise curve is inside to prevent the risk of fire due to temperature rise.

Hot water tank GT with a heating body G is installed so that the hot water or cold water is supplied to the purified water tank T having the water detection sensor H detecting the water from raw water D, and the cooling body L. A control board (CP) comprising an input unit (I) capable of inputting temperature, a control unit (C) for controlling input and output, and a microcomputer unit (M) for detecting a temperature increase. When the microcomputer starts the on / off command process of the control unit 10, the power source 20 is supplied to the heating element G and the cooling element L. The Y value 40 obtained by subtracting the temperature is obtained. If the predetermined time has not elapsed, it is asked again whether the power of the heating body (G) and the cooling body (L) is turned on, and if the Y value (40), which is added to or subtracted from the initial temperature at the initial temperature, is larger than the predetermined temperature (50), After the predetermined time has elapsed, the heater 60 supplies power to the heating body G and the cooling body L. If the Y value is smaller than the predetermined temperature, the current temperature becomes the target temperature 70 and the power supply 80 is turned off. If the present temperature is not equal to the target temperature 70, power is applied to the heating body G and the cooling body L. Therefore, the presence or absence of water is determined by using the temperature rise and fall characteristics of the hot water and cold water parts, which are controlled according to the state to prevent ashes due to sudden temperature rise and to remove the unnecessary energy so that it is properly controlled only when there is water. It is an invention provided with the effect.

Description

No-load discrimination method using temperature sensor of cold and hot water purifier

Figure 1 is a block diagram of the main disease

2 is a flow chart of the presence or absence of the present invention

3 is a graph of temperature rise and fall curves

* Explanation of symbols for main parts of the drawings

1: singular detection unit 2: water purification unit

3: water level sensor 4: water heater

5,9: temperature sensor 6: heating material

7: cold water part 8: coolant

10: electronic controller a: steep curve

b: reference change curve

The present invention relates to a no-load discrimination method using a temperature sensor of a cold and warm water purifier, and more particularly, when the temperature reaches a target temperature set by a microcomputer capable of temperature control, the control controls the discrimination control and the temperature rise curve is internally. Detects the presence of water and prevents fire hazards from rising temperatures.

Conventionally, the hot water tank and the cold water tank to supply hot water or cold water from the purified water tank supplied from the raw water is composed of a water supply unit for supplying water to the user.

The conventional cold / hot water purifier configured as described above provides the hot water tank and the cold water tank with water from the water purifier tank, respectively, to receive hot water and cold water according to the user's choice.

The conventional cold / hot water purifier that acts as described above cannot detect the presence or absence of water in the cold / hot water storage tank, and adjusts the temperature, thereby causing a rapid temperature increase when the temperature transfer characteristic of the sensor is slow.

In addition, the water storage order is filled with hot water and cold water at the same time, the room temperature water is cold.

Therefore, it is difficult to determine the water level of the hot and cold water tank with only the temperature of the normal temperature water, and there is a considerable production cost and technical problem to provide the water level sensor in the hot and cold water respectively. If the hot water or cold water does not come out, bringing inconvenience to the user, if the power is unconditionally applied regardless of the presence or absence of water, it causes a problem of providing a cause of fire by a sudden temperature rise.

The purpose of the present invention for solving the conventional problems is to determine the presence or absence of water by using the temperature rising and falling characteristics of the hot water and cold water in the hot and cold water purifier, so that the fire due to the rapid temperature rise is not equipped with a control method according to the state. To prevent or reduce unnecessary energy.

Hereinafter, the technical configuration of the present invention with reference to the accompanying drawings in detail.

The present invention relates to a method for controlling the supply of appropriate water by judging the presence or absence of water level from the temperature change of the cold and hot water parts, as shown in FIG. The water output unit 3 having a water level detection sensor capable of temporarily filling a large amount of water supply and outputting the water level of the filled water supply as an electrical signal is connected to an output end of the water detection unit having a sensor.

The water purification unit 2 is configured to supply water to the hot water unit 4 or the cold water unit 7 connected to the output terminal while opening and closing a valve unit (not shown) installed at the lower end from the signal output from the electronic controller 10.

The hot water unit 4 connected to the output terminal of the water purifying unit 2 and receiving water is provided with a heating material 6 that generates heat by receiving power to heat the internal water supply, and senses the temperature of the internal water supply to supply electricity. Connect the temperature sensor (5) that outputs a typical signal.

In addition, the cold water unit 7 connected to the output terminal of the water purifying unit 2 and receiving water is provided with a coolant 8 which is supplied with power to cool the internal water supply, and detects the temperature of the internal water supply to output an electrical signal. Connect the temperature sensor (9).

The electronic controller 10, which inputs the output signals of the temperature sensor 5 of the hot water unit 4 and the temperature sensor 9 of the cold water unit 7, determines the level of water from the internal memory to determine the level of water level. 6) and the coolant (8) is connected to output a control signal.

The electronic controller 10 outputs the temperature from the temperature sensors 5 and 9 of the hot water unit 4 and the cold water unit 7 to determine the water level from the internal memory. The control signal is connected to the ash 6 and the coolant 8 so as to output a control signal.

The electronic controller 10 inputs an electrical signal output from the temperature sensors 5 and 9 of the hot water unit 4 and the cold water unit 7 and compares it with an internal memory, but determines a control signal for temperature. Is connected to the heating material (6) and the cooling material (8).

Referring to the effects of the present invention configured as described above in detail.

The present invention relates to a method for controlling the supply of appropriate water by judging the presence or absence of water level from the temperature change of the cold and hot water unit, as shown in FIG. 1, filling the water supply unit 2 with the hot water unit 4 and the cold water The water supply to the part 7 is provided.

At this time, the hot water unit 4 and the cold water unit 7 output the temperature detected from the temperature sensors 5 and 8 installed therein to the electronic controller 10 and the electronic controller 10 according to the input temperature. The water level is determined from the magnitude of the temperature which rises and falls differently as time increases so that the water purification unit 2 can provide water to the hot water unit 4 and the cold water unit 7.

The water supplied from the water purifying unit 2 to the hot water unit 4 and the cold water unit 7 is opened by the water level detecting unit 2 by the control signal determined by the electronic controller 10, and the water supply is supplied to the water purifying unit 2. When the water supplied to the water purification unit 2 is filled in an appropriate amount, the water is supplied to the hot water unit 4 and the cold water unit 7 as necessary.

As a control method for receiving water from the water purification unit 2 according to the temperature change of the cold and hot water units 7 and 4, as shown in FIG. This completes the program to cool and heat the feedwater.

As the operation starts, the electronic controller 10 applies power to the coolant 8 and the heating material 6 of each of the cold and hot water parts 7 and 4 to operate.

At this time, after a certain time elapses, as shown in FIG. 3, the temperature range of the temperature drop of the temperature drop inputted from the temperature sensors 9 and 5 of the cold water unit 7 and the hot water unit 4 is the reference temperature. When the steepness curve (a) that falls sharply up and down relative to the width (b), the electronic controller 10 determines that the water supply of the cold / hot water parts (7) and (4) is insufficient, and the coolant (8) and the heating After the power supply to the ash (6) is cut off, water is supplied from the water purification unit (2).

The electronic controller 10 is an operation for determining the water level of the cold and hot water parts 7 and 4, and the temperature change when the water is heated or cooled according to the amount of water is added to the reference change curve b. In contrast, if the curve goes up and down due to a steep slope, it is judged as a low water level, and when the temperature change curve reaches a gentle slope, a program is built to judge a high water level.

On the contrary, when the temperature change of the cold / hot water parts 7 and 4 is similar to or slightly inclined to the reference change curve a, the electronic controller 10 causes the coolant 8 and the heating material 6 to supply water. The power is continuously supplied to maintain the temperature, and the operation of the heating material 6 and the cooling material 8 is temporarily stopped when the temperature value input from the temperature sensors 5 and 8 reaches the target temperature. do.

In addition, the water supply of the cold and hot water parts 7 and 4 that reaches the target temperature causes the electronic controller 10 to read the current temperature value detected by the temperature sensors 9 and 5 after a certain time. If the temperature is the same as the reference value compared to the set target temperature, it is normal and there is a delay for a certain time to reduce unnecessary energy, and when the current temperature is input below the set target temperature, the heating material 6 and the cooling material 8 are restarted. Do it.

According to the present invention, the electronic controller judges the low water level when the temperature change of the cold / hot water part is severe, and on the contrary, the electronic controller judges the high water level when the temperature change of the cold / hot water part slowly changes, so that the water level is automatically detected without the water level sensor. It reduces the burden of installation that requires installation of expensive water level sensor, and it controls the temperature and water supply of cold and hot water at the same time and reduces the fire and energy waste caused by rapid temperature drop.

Claims (3)

The cold and hot water supply unit supplies water to the purified water from the water level detecting unit, and the hot and cold water unit receiving the water supply through the water purification unit operates an internal heating material and a coolant to control the temperature from the electronic controller from the output signal of each temperature sensor installed therein. In the case of the electronic controller for inputting the temperature value of the water supply from the temperature sensor of the cold and hot water section, if the reference temperature change value and the current input temperature change value stored in the internal memory suddenly goes up and down, it is determined that the water level of the cold and hot water part is low water level No-load discrimination method using the temperature sensor of the cold and hot water purifier, characterized in that it includes a method for supplying water to the cold and hot water part The temperature of the cold / hot water purifier of claim 1, wherein the electronic controller further comprises a method of continuously supplying and operating power of the heating material and the cooling material until the current temperature of the cold / hot water part reaches a target temperature. No-load discrimination method using sensor. According to claim 2, wherein the electronic controller is a heating material when the target temperature of the cold and hot water is reached, the power supplied to the heating material and the cooling material is cut off and the temperature determined by re-entering the temperature after a predetermined time elapses is less than the set target temperature And no-load discrimination method using a temperature sensor of the cold and hot water purifier, further comprising a method of reaching the target temperature by re-supplying the power that was shut off to the coolant.