KR0135502B1 - Preheater control melthod for vaporized petroleum - Google Patents

Abstract

The present invention is excessive to the preheating heater control method of the vaporized combustion device, in particular, by determining the external conditions such as the room temperature around the heater and by controlling the preheating operation of the heater by the determined conditions, it is possible to improve the accuracy of the ignition In addition, the present invention relates to a preheating heater control method of a vaporized combustion device in which a complete combustion rate of fuel is also improved as temperature characteristics are improved, and a disconnection determination temperature (tn) of the heater and a preheating conduction time of the heater ( Determining whether or not the data of Tn) is set. If data of disconnection determination temperature (tn) of the heater and preheating conduction time (Tn) of the heater are not set during the determining step, the current indoor temperature and power Detecting an external condition of the voltage, determining the external condition during the step, and according to the determined result, the disconnection determination temperature (tn) of the heater and preheating of the heater Setting the variable data of the liver (Tn), determining the present temperature of the heater according to the variable data set during the step, determining the preheating energization time, and controlling the preheating operation of the heater. will be.

Description

Preheating heater control method for vaporized petroleum combustion equipment

1 is a block diagram for explaining a combustion apparatus in which the present invention is realized.

2 is a flowchart of the present invention.

3 is a graph for explaining variable data in the present invention.

4 is a flowchart for explaining a bare method of a conventional combustion device.

5 is a graph illustrating a control method of a conventional combustion device.

* Explanation of symbols for main parts of the drawings

1: microcomputer 2: power supply voltage detection circuit

3: heater 4: heater driving circuit part

5: heater temperature sensing unit 6: room temperature sensing circuit

S: variable area

The present invention relates to a method of controlling a preheating heater of an opportunity type combustion device, and in particular, by determining external conditions such as room temperature around a heater and controlling the preheating operation of the heater under the determined conditions, thereby improving the accuracy of ignition. In addition, the present invention relates to a method of controlling a preheating heater of a vaporized combustion device in which a complete combustion rate of fuel is also improved as temperature characteristics are improved.

In the conventional control method of the vaporized combustion apparatus, the operating voltage is applied to the heater properly installed in the body of the burner to control the temperature of the optimum vaporization condition to be reached, wherein the temperature control of the heater is determined by two variables. Will be.

That is, as shown in FIG. 5, the heater is operated along a graph where t1 (heater disconnection determination temperature) and T1 (heater preheating conduction time) intersect. Here, T1 and t1 are set in advance by the internal program of the microcomputer.

Then, referring to FIG. 4, the operation of the conventional vaporized combustion apparatus as described above is applied to the first heater and then the heater is turned on. Then, it is determined whether the disconnection determination temperature t1 of the preset heater is reached, and when the disconnection determination temperature t1 of the heater is reached as a result of the determination, the operation of the heater is stopped by proceeding to the next step. However, if the determination result of the disconnection temperature of the heater is not reached, it is determined whether the preset preheating time T1 is reached. In addition, if the preheating time t1 is not reached as a result of the judgment, the loop returns to the first step and if the preheating time T1 is reached, the alarm is output to the outside by proceeding to the next step. As a result, the heater is recognized as disconnected. The process proceeds to the next step to stop the operation of the heater.

However, the control method of the conventional opportunity type combustor as described above is a method in which the disconnection determination temperature t1 of the heater and the preheating conduction time T1 are set in advance, so that the operating conditions of the heater change according to the operating voltage, thereby making the system unstable. .

For example, if the input power is in a low voltage condition, the operating voltage supplied to the heater is low, so the preheating time is long and an alarm signal is generated before the preheating time T1 is reached. If the temperature is low, the temperature of the burner itself is kept low, so the preheating time of the heater is longer than that of the normal room temperature.

Therefore, there is a problem that the preheating time of the heater is not achieved until the preheating energization time set by these external factors, so that a stable vaporization condition cannot be reached.

Accordingly, the present invention has been made to solve the above problems, by determining the external conditions such as the room temperature around the heater and by controlling the operation of the heater by the determined conditions, it is possible to improve the accuracy of the ignition Of course, the purpose of the present invention is to provide a preheating heater control method for a vaporized combustion device, in which the complete combustion rate of fuel is also improved as the misleading property is improved.

The present invention for achieving the above object, the step of breaking whether the data of the disconnection determination temperature (tn) and the preheating conduction time (Tn) of the heater is set after the heater is operated, during the determining step If the disconnection determination temperature (tn) of the heater and the preheating conduction time (Tn) of the heater are not set, detecting an external condition of the current room temperature and power supply voltage, and determining the external condition during the above step. Setting data of the disconnection determination temperature (tn) of the heater and the preheating conduction time (Tn) of the heater according to the determined result; determining the current temperature of the heater according to the data set during the step and determining the preheating conduction time. And controlling the preheating operation of the heater.

Hereinafter, the annular combustor in which the control method of the present invention is realized includes a microcomputer (1) configured to collectively control the combustor system as shown in FIG. 1, and data of the power supply voltage sensed by the microcomputer (1). By sensing the temperature of the power supply voltage detection circuit unit 2 and the heater driving circuit unit 4 and the heater 3 to drive the heater 3 by the operation control signal of the microcomputer 1 Heater Kuo Hiro part 4 to be transmitted to the microcomputer (1), the heater temperature detection unit (5) to detect the temperature of the heater (3) and transmits to the microcomputer (1), and senses the temperature of the room An indoor temperature sensing circuit unit 6 for transmitting to (1) is provided.

Next, a control method of the present invention realized in a combustion device having the above configuration will be described.

In the control method of the present invention, as shown in FIG. 2, when the user turns on the power switch, the power supply voltage is applied to the heater 3 so that the heater 3 is operated to preheat the burner.

In the next step, the microcomputer 1 determines whether data of the disconnection determination temperature tn of the heater and the preheating conduction time Tn of the heater are set, and if the data are set, the current of the heater is determined. Proceed to the step of determining the temperature.

However, if the data are not set, the microcomputer 1 proceeds to the room temperature sensing step, checks the current room temperature through the room temperature sensing arc passage 6, and then proceeds to the next step.

In the next step, the power supply voltage sensing circuit unit 2 senses the power supply voltage currently input to the microcomputer 1 and then proceeds to the variable data setting step.

On the other hand, in the variable data setting step, the microcomputer 1 judges the external conditions of the currently input indoor temperature and power voltage according to the built-in program, and according to the determination result, the disconnection determination temperature (tn) of the heater and the preheating of the heater are performed. (Tn) will be set.

That is, as shown in FIG. 3, the variable area S is set.

Then, the microcomputer 1 proceeds to the next step to determine whether the current temperature of the heater 3 is greater than the disconnection temperature tn of the set heater, and as a result of the determination, when the microcomputer 1 is larger than the disconnection temperature tn of the heater, 3) Since it is determined that there is a disconnection of its own or that there is an abnormality of the heater temperature sensing circuit unit 5, the operation of the heater 3 is stopped by turning off the power of the heater.

In the heater temperature determination step, when the current temperature of the heater is smaller than the set heater disconnection temperature tn, the process proceeds to the next step to determine whether the current preheating time has reached the preset preheating time (Tn).

As a result of the determination, when the current preheating time is smaller than the set preheating time Tn, the heater 3 is continuously operated. As a result of the determination, the current preheating time has reached the set preheating time Tn. If it is determined that the preheating of the heater is completed, the operation of the heater 3 is stopped.

As described above, the present invention is to determine the external condition of the room temperature around the heater and to control the operation of the heater according to the determined condition, thereby improving the accuracy of ignition as well as improving the temperature characteristics. There is an effect to improve the complete burn rate of the fuel.

Claims (2)

Determining whether data of the disconnection determination temperature (tn) of the heater and the preheating conduction time (Tn) of the heater are set after the heater is operated, and the disconnection determination temperature (tn) of the heater and the preheating of the heater during the determining If the data of the energization time (Tn) is not set, detecting the external condition of the current room temperature and the power supply voltage, determining the external condition during the step, and then determining the disconnection temperature (tn) of the heater according to the determined result. ) And setting the variable data of the preheating energizing time (Tn) of the heater, determining the current temperature of the heater according to the variable data set during the step, and also determining the preheating energizing time and controlling the preheating operation of the heater. Control method of the preheat heater of the vaporized petroleum combustion device, characterized in that consisting of. The method of claim 1, wherein the variable data is set as the variable data is set during the setting of the variable data, and the preheating operation of the heater is performed by the formed variable region S. Control method of the preheating heater of the vaporized petroleum combustion device.