KR930004608Y1 - Gas boiler controller - Google Patents

Abstract

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Description

Freeze Control System of Gas Boiler

1 is a detailed circuit diagram of the freeze protection device of the present invention.

Figure 2 is an operating state showing the operating state of the circulation pump of the present invention freeze protection control device.

3 is a flowchart according to the present invention operation.

* Explanation of symbols for main parts of the drawings

1: temperature sensing means 2: microcomputer

3: circulating pump relay drive unit Th: thermistor

R1, R2: Resistance Pump: Circulation Pump

RY1: Relay G: Gas supply part

FAN: Fan

The present invention relates to a freeze protection control device for a gas boiler, and more particularly, to a freeze control device for a gas boiler that can protect the gas boiler from the risk of freezing by quickly and accurately detecting and controlling the temperature change of a heating pipe with a microcomputer using a thermistor. It's about.

In general, the gas boiler's freeze protection device detects the temperature change in the heating pipe when the boiler is not used for a long time in a cold or winter period when the temperature drops rapidly (4 ℃). By operating the circulation pump to circulate the boiler heating water of a relatively high temperature to prevent the freezing of the heating pipe, as described above to detect the temperature of the heating pipe in order to prevent the freezing of the heating pipe as described above. The thermostat low limiter, which uses the temperature difference between metals in the heating pipe, that is, turns on when the detected temperature is below a predetermined temperature, and turns off when the temperature is over, is a simple mechanical control method that detects the temperature by installing a kind of metallic bimetal. Not quickly acting, and the bimetal also Bush deformation as well, since the mounting is exposed to the outside leading to the deformation of corrosion due to contact with the outside air (gas) had been a problem that the temperature sensing does not correctly done.

It is an object of the present invention to provide a freeze protection control device that can quickly and accurately detect the temperature change of a heating pipe and protect the boiler from the risk of copper plate during a sudden temperature drop during cold weather or winter. To this end, the present invention provides a temperature sensing means for sensing a temperature of a heating pipe, a microcomputer for controlling according to a state sensed by the temperature sensing means, and a circulating pump relay for controlling on and off a circulation pump according to a control signal of the microcomputer. It is characterized by comprising a drive unit.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a detailed circuit diagram of the present invention freeze protection control device, the temperature sensing means 1 is installed on a heating pipe (not shown), the thermistor (Th) and the voltage dividing resistance ( R2), the proportional voltage with respect to the temperature sensed by the thermistor Th and the divided voltage value by the resistor R2 are input to the microcomputer 2.

The microcomputer 2 is configured to control an input data signal with a predetermined program and to output a controlled signal, and A / V having a voltage value corresponding to a sensing temperature input from the temperature sensing means 1 in itself. Through the A / D port of a D converter (not shown), the A / D converter converts the digital data signal and determines whether the converted data signal is a predetermined freeze protection reference temperature to circulate the controlled signal. It is output to the pump relay drive part (3).

The circulation pump relay driver 3 is configured to receive a control drive signal from the microcomputer 2 and drive control the circulation pump while driving the relay RY1 on and off.

In the figure, reference numeral gas supply unit (G), fan (FAN), three-way valve (3V) is driven by a separate relay driver not shown in the microcomputer 2, M / S is a micro switch, R1 Is a bias resistor, F is a fuse, and T / S is a bimetal temperature sensor.

Referring to the effect of the present invention configured as described above are as follows.

The temperature of the heating pipe through the thermistor (Th) and the voltage dividing resistance (R2) of the temperature sensing means (1) when the boiler is operated while the temperature is suddenly dropped in a cold or winter season with the power applied to the boiler. Then, the proportional voltage with respect to the sensed temperature is input to the microcomputer 2 through the A / D port.

At this time, the microcomputer 2 converts the input analog signal into a digital data signal through an A / D converter, and determines whether or not the converted signal is a predetermined freeze protection signal as shown in FIG. 2A. When the prevention signal, i.e., the freezing prevention reference temperature, the microcomputer 2 sends a control signal to the circulation pump relay driver 3 to turn on the relay RY1 to drive the circulation pump as shown in FIG. By circulating the heating water through the heating pipe to prevent freezing, the temperature of the heating pipe rises and the temperature is increased by the temperature sensing means 1 as shown in FIG. The control signal is sent to the circulation pump relay driver 3 through (2) to turn off the relay RY1 and to stop the driving of the circulation pump as shown in FIG. 2B.According to the flowchart in detail as follows.

The data value sensed by the temperature sensing means 1 is read through the step 100 of reading the data value and at the same time it is determined whether the current circulating pump is in operation in step 200. At this time, if the circulation pump is in operation, it is determined whether the current pipe temperature is the release temperature as step 300. If the pipe temperature is the release temperature, the flow goes to step 400 and the circulation pump relay driving unit 3 is connected to the circulation pump relay driving unit 3. Pump) to stop the circulating pump, and if the pipe temperature is not the release temperature in step 300, go to step 600 to automatically operate the circulating pump, and at the same time go back to step 300 the pipe temperature is If the pipe temperature is determined to be the release temperature is determined to go to step 400 to stop the circulation pump.

On the other hand, if the circulation pump is not in operation in step 200, go to step 500 to determine whether the pipe temperature is below the freezing prevention temperature, and if the freezing prevention temperature is less than the go to step 600 to automatically drive the pump, If it is not below the prevention temperature, go to step 400 to automatically stop the circulation pump.

As described above, the present invention is a temperature sensing means using a thermistor for the temperature of the heating pipe to prevent freezing that may occur when the boiler is operated for a long time when the temperature suddenly increases during cold or winter. By controlling the circulation pump quickly and accurately by using and microcomputer, it can provide the effect to protect the boiler from the risk of freezing.

Claims (1)

In the conventional freezing apparatus of the gas boiler, the temperature sensing means (1) for detecting the temperature of the heating pipe by thermistor (Th) and the voltage dividing resistance (R2), and the signal sensed and input by the temperature sensing means (1) The microcomputer 2 for outputting the controlled signal by determining and controlling the freezing prevention reference temperature and the control signal output from the microcomputer 2, and the circulation for turning on and off the relay RY1 of the circulating pump. A freezing prevention device for a gas boiler, characterized in that the pump relay drive unit (3).