KR0154149B1 - Flame automatic adjusting system of rotary heater - Google Patents

Abstract

The present invention relates to an automatic flame control device for a rotary heater that automatically realizes the adjustment of a damper so that the optimum combustion state (flame) can be maintained according to the heat quantity of the product upon shipment of the rotary heater. The automatic flame control switch is provided with an automatic flame control key input unit for inputting an automatic flame control command when a key of the automatic flame control switch is pressed, and a pressure detection unit that detects the blowing pressure by using a pressure sensor installed in the ventilation path in the combustion cylinder. And, the servo motor drive unit for driving the servo motor to open automatically in multiple stages of the opening angle of the damper, and for the pressure compensation so that the salt voltage according to the weak combustion can be maintained during low combustion when the key input of the automatic flame control switch The damper opening command is output to the server motor driving unit based on the value input through the pressure detecting unit. So that the voltage can be maintained by having a microcomputer for outputting to the damper open command to the servo motor drive unit for pressure compensation.

Description

Rotary Heater Flame Automatic Control Device

1 is a control block diagram according to the present invention.

2 is a detailed circuit diagram of the main part of FIG.

3 is a schematic configuration diagram of a damper automatic adjustment device according to the present invention.

4 is a control flowchart according to the present invention.

* Explanation of symbols for main parts of the drawings

10: microcomputer 15: room temperature detection unit

16: flame detection unit 26: pressure detection unit

27: automatic flame control key input unit 28: servo motor drive unit

SM: Servo Motor

The present invention relates to an automatic flame control device for a rotary heater, and more particularly, to an automatic flame control device for a rotary heater that automatically realizes adjustment of a damper so that an optimum combustion state (flame) can be maintained according to heat quantity at the time of product shipment. will be.

Conventionally, in mass production of rotary heaters, the pressure generated from the burners is measured, and when the flame condition is bad, the damper is artificially opened to compensate for pressure, and the flame state of the burner upper portion has been inspected and shipped only in good condition.

However, this method has been difficult to find the correct setting by direct pressure compensation by hand (opening the damper manually), which often results in a significant change in the state of the flame. Workers are required, which not only wastes manpower, but also lowers productivity.

The present invention has been made in order to solve the above problems, a rotary heater that can be achieved by the pressure compensation in accordance with the flame state by installing a pressure sensor in the combustion cylinder and automatically opening and closing the damper by the operation of the servo motor An object of the present invention to provide an automatic flame control device of.

In order to achieve the above object, the present invention is a conventional rotary heater, comprising a flame automatic control switch and a flame automatic control key input unit for inputting a flame automatic control command at the time of key input of the flame automatic control switch, Pressure detection unit for detecting blowing pressure by using pressure sensor installed in the air passage, servo motor driving unit for driving the servo motor to open automatically by multi-step opening angle of damper, and weak combustion during key input of the automatic flame control switch In order to maintain the salt voltage according to the combustion, the damper opening command is output to the server motor driving unit based on the value input through the pressure detector for pressure compensation, and the salt voltage according to the steel combustion can be maintained during the combustion. It is equipped with a microcomputer that outputs a damper open command to the server motor drive unit for pressure compensation.

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

1 shows a control block diagram according to the present invention, in which a one-chip microcomputer 10 serving as a central signal processing source of rotary heater control and a power supply unit 11 for supplying predetermined operating power to the microcomputer 10 and its peripheral circuits. And a blower fan driving unit 12 for driving the blower fan, a power frequency input unit 13 for generating a pulse signal corresponding to a power frequency and inputting the same to the microcomputer 10, and a blower motor for driving the blower fan. Blowing motor RPM input unit 14 to detect the RPM to enable the speed control of the blowing fan, an indoor temperature sensing unit 15 for detecting the temperature of the room, and a flame rod (FLAME ROD) installed on the burner The flame detection unit 16 detects the state of the flame and detects the ignition during ignition, and detects the abnormal combustion state (LIFTING, backfire, sulfur salt) during combustion, and the temperature sensing element installed in the vaporizer. Detects the temperature of the carburetor through The carburetor temperature detection unit 17, a heater driving unit 18 for driving a heater embedded in the carburetor to increase the temperature of the carburetor, a thermal power setting unit 19 for setting the thermal power, and the micom 10 The reset unit 20 for resetting, the display unit 21 for displaying various states of the rotary heater to the outside, and switches such as operation (combustion) start and operation (fire extinguishing), etc. A switch input unit 22 for inputting the input to the microcomputer 10, a diffusion motor driver 23 for driving a diffusion motor, and an electronic pump driver for forcibly transferring fuel in a fuel tank to a burner by starting an electronic pump ( 24) and an igniter drive unit 25 which drives the igniter to perform ignition during ignition, the present invention provides a pressure sensor for detecting a blowing pressure through a pressure sensor installed at a predetermined portion of a ventilation path inside a combustion cylinder. A force detection unit 26, an automatic flame control key input unit 27 for inputting a predetermined key command to automatically control the flame to the microcomputer 10, and a servo motor driving unit for driving the servo motor for controlling the opening of the damper. (28).

FIG. 2 shows a detailed circuit diagram of the main part of FIG. 1, wherein the room temperature sensing unit 15 is composed of a thermistor (TH), a resistor (R1) (R2), and a capacitor (C1). The resistance of the thermistor TH is input to the input port PI1 of the microcomputer 10 as a voltage distribution signal with the resistor R1 so that the microcomputer 10 can recognize the indoor temperature.

In addition, the pressure detection unit 26 is composed of a pressure sensor SE, resistors R8, R9, and condenser C3 so that the resistance of the pressure sensor SE, which is variable according to the blowing pressure, is measured with the voltage of the resistor R8. The input signal PI2 of the microcomputer 10 is used as the distribution signal so that the microcomputer 10 can recognize the pressure of the air blowing amount.

In addition, the flame detection unit 16 is connected to one end of the frame rod FR such that a constant DC voltage 12V is applied by the divided voltage 10V by the resistor R3 and the resistor R4, and the flame rod FR ) Is connected to the input port PI3 of the microcomputer 10 through the resistors R5 to R7 and the capacitor C2, and a salt current flows when a flame is present in the flame rod FR. This salt current has a certain difference depending on the size of the flame. At this time, the salt current is converted into a voltage value by the resistor R5 and the resistor R6, and the predetermined voltage (0V to 5V) is input to the input port PI3 of the microcomputer 10 through the resistor R7 and the capacitor C2. Is entered.

Therefore, the microcomputer 10 reads the value input to the input port PI3 to recognize the state of the flame.

In addition, the automatic flame control key input unit 27 is composed of the automatic flame control switch (SW), the resistance (R10) (R11), by inputting the automatic flame control command to the input port (PI14) of the microcomputer 10 give.

On the other hand, the servo motor detecting unit 28 composed of the resistors R12 to R19, the transistors Q1 to Q4 and the servo motor SM is damped by the operation of the gears 104 and 103 as shown in FIG. The damper 101 of the device 100 is rotated about the damper shaft 102 to open, and the microcomputer 10 sends a high signal to the output ports PO1 and PO3 and a low to the output ports PO2 and PO4. When the signal is output, the transistors Q1 and Q3 are turned on, the transistors Q2 and Q4 are turned off, and the servo motor SM is rotated in one direction (for example, turned to the right), and the microcomputer 10 outputs the output port ( When a low signal is output to PO1 (PO3) and a high signal is output to output port PO2 (PO4), transistors Q1 and Q3 are turned off, and transistors Q2 and Q4 are turned on to turn on servo motor SM. ) Rotates in the other direction (eg left turn).

Therefore, the opening angle of the damper 101 can be reduced by adjusting the output time of the microcomputer 10 to the output ports PO1 to PO4.

Effects of the present invention configured as described above will be described with reference to the flowchart of FIG.

First, power is supplied through the power supply unit 11, key input of the operation switch is detected through the switch input unit 22 (step 100), and the automatic flame control switch SW is activated through the automatic flame control key input unit 27. Is turned on (step 101), the microcomputer 10 starts a preheating operation (step 102), and attempts an ignition operation (step 103).

Accordingly, when the ignition is completed, the combustion operation is performed (step 104), and the pressure and the flame state of the burner are detected through the pressure detector 26 and the flame detector 27 (step 105).

If the salt voltage is not detected to be greater than 2.8V due to weak combustion (step 106), the servo motor driver 28 outputs a 1-click open signal of the motor SM to open the damper 101 to compensate the pressure. Step 107). When the salt voltage due to weak combustion is detected through the pressure compensation operation as described above, combustion proceeds to the steel combustion operation (step 108).

In this case, if the salt voltage is not detected to be 4.0 V or higher due to the high combustion (step 109), the servo motor driver 28 outputs a 1-click open signal of the motor SM to open the damper 101 to compensate for the pressure. Step 110). When the salt voltage by the combustion combustion is detected through the pressure compensation operation, the process proceeds to the next step (111), and the automatic flame control is completed.

As described above, the present invention eliminates the need for the operator to directly check the pressure by installing a pressure sensor inside the combustion cylinder, and it is a useful invention to reduce the labor and reduce errors by automatically opening the damper by a microcomputer. .

Claims (1)

In a typical rotary heater, an automatic flame control key input unit is provided with an automatic flame control switch and inputs an automatic flame control command when a key of the automatic flame control switch is pressed, and a pressure sensor installed in a ventilation path in a combustion cylinder. Pressure detection unit for detecting the blowing pressure, servo motor drive unit for driving the servo motor to open automatically in multiple stages of the opening angle of the damper, and salt voltage according to the weak combustion is maintained during the low combustion key input of the automatic flame control switch It outputs a damper opening command to the server motor drive unit based on the value input through the pressure detector for pressure compensation, and to the server motor drive unit for pressure compensation so that the salt voltage according to the steel combustion can be maintained during the combustion. Automatic flame control device for rotary heaters characterized in that the microcomputer is provided with a damper opening command output