KR100211016B1 - Fan heater ignition - Google Patents

Abstract

The present invention relates to a fan heater ignition device and a control method thereof. In the conventional fan heater ignition device, the ignition electrode and the flame detection electrode are separately used, thereby increasing the price of the product, There is a problem that the productivity drops.

Accordingly, the present invention has been made to solve the above problems, and it is an object of the present invention to provide an ignition device capable of performing both ignition operation and flame detection operation using one electrode, thereby lowering the price of the product, The present invention relates to a fan heater ignition device and a control method thereof.

Description

Fan heater ignition device and its control method

The present invention relates to a fan heater ignition apparatus and a control method thereof, and more particularly, to a fan heater ignition apparatus and a control method thereof that can perform both an ignition operation and a flame detection operation using one electrode.

1 and 2 illustrate a conventional fan heater ignition device in which a vaporizer 1 in which fuel is injected and a flame is ignited and a power source supplied from an ignition transformer cause a spark to be ignited in the vaporizer 1 (2) for detecting ignition of the flame, and a flame sensing electrode (3) for sensing whether or not the flame is ignited in the vaporizer (1) and supplying it to the flame sensing unit.

As shown in FIG. 2, the electrodes 2 and 3 include a wire 11 for supplying or discharging a voltage, a spark caused by a voltage supplied through the wire 11, And an insulator 13 for inspecting the electrode 12 and the electric wire 11. In the figure, reference numeral 4 is a spark plug.

When the user inputs a separate ignition switch to ignite the fan heater, the voltage generated in the ignition transformer is supplied to the ignition electrode 2 to be supplied to the ignition electrode 2 A spark is generated, and the fuel injected into the vaporizer 1 is ignited by the spark to generate a flame.

When the flame is generated in the vaporizer 1 by the ignition operation of the ignition electrode 2 as described above, the flame is sensed by the flame sensing electrode 3 and supplied to the flame sensing unit to complete the ignition operation of the fan heater will be.

The ignition electrode 2 and the spark sensing electrode 3 described in the above description of operation are constituted by an electric wire 11, an electrode 12 and an insulator 13 as shown in FIG. 2, 2) (3) are the same.

As described above, the conventional fan heater ignition device uses the ignition electrode having the same structure and the electrode for detecting the flame separately. This increases the price of the product and decreases the productivity due to the increase of the components.

Accordingly, the present invention has been made to solve the above problems, and it is an object of the present invention to provide an ignition device capable of performing both ignition operation and flame detection operation using one electrode, thereby lowering the price of the product, The present invention provides a fan heater ignition device and a control method therefor.

1 shows a conventional fan heater ignition device.

FIG. 2 is a partial perspective view showing an electrode applied to a conventional fan heater ignition device. FIG.

FIG. 3 is a block diagram showing a fan heater ignition apparatus of the present invention. FIG.

FIG. 4 is a flow chart showing a control process of the fan heater ignition apparatus of the present invention. FIG.

DESCRIPTION OF THE REFERENCE NUMERALS

21: temperature sensor 22:

23: driving part 24: ignition transformer

25: Switching unit 26: Electrode

27: Flame detection unit

According to another aspect of the present invention, there is provided a method of igniting a fan heater, comprising the steps of: preheating a vaporizer when power is applied; turning on a switching unit and an ignition transformer to ignite fuel injected from the vaporizer, And a second step of turning off the switching unit when the ignition is completed and turning on the flame sensing unit after a predetermined time delay while the switching unit is turned off to detect whether or not the flame is generated in the vaporizer, And then proceeds to the step of FIG.

According to another aspect of the present invention, there is provided a fan heater ignition device including a temperature sensor for sensing a temperature of a vaporizer, a preheating state of the vaporizer based on data input from the temperature sensor, A driving unit for driving the ignition coil to generate a high voltage for ignition under the control of the control unit; an ignition transformer for generating a high voltage for ignition under the control of the driving unit; A switching unit for supplying or disconnecting a high voltage generated in the ignition transformer to the electrode rod, and a switching unit for generating a spark for ignition at a high voltage input by the switching operation of the switching unit, And a control unit for controlling the on / Operates to detect whether generation of the flame vaporizer through the electrode is composed of a flame sensing and outputting to the control unit.

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

FIG. 3 illustrates a fan heater ignition apparatus according to an embodiment of the present invention. The apparatus includes a temperature sensor 21 for sensing the temperature of the vaporizer, a temperature sensor 21 for detecting the preheating state of the vaporizer, A control unit 22 for controlling the ignition operation of the fan heater to be performed when the vaporizer is sufficiently preheated, a driving unit 23 for driving the ignition high voltage in accordance with the control of the control unit 22, A high voltage generated in the ignition transformer 24 is supplied to or blocked from the electrode rod 26 by switching operation in accordance with the switching signal of the controller 22, A spark for ignition is generated at a high voltage input by the switching operation of the switching unit 25, and when a high voltage is not input, An electrode rod 26 and a flame detection unit 27 for on / off operation under the control of the control unit 22 to detect whether a flame has occurred in the vaporizer through the electrode 26 and to output it to the control unit 22 .

4 is a flow chart showing a control process of the fan heater ignition apparatus of the present invention. FIG. 4 is a flow chart showing a control process of the fan heater ignition apparatus of the present invention. A second step of turning on the ignition switch so that the fuel injected from the carburetor is ignited; a second step of turning off the switching unit 25 when the ignition is completed, 27) is turned on to detect whether or not a flame is generated in the carburetor, and the ignition operation is terminated when the flame is sensed.

If the flame is not detected in the third step, the second step and the third step are repeatedly performed so that the flame is ignited on the fuel injected from the carburetor.

The operation of the fan heater ignition apparatus of the present invention will be described below.

When the user turns on the fan heater (S1) to ignite the fan heater, the control unit 22 turns on the vaporizer heater (S2) so that the vaporizer is preheated.

At this time, the temperature sensor 21 senses the temperature of the vaporizer and outputs it to the control unit 22. The control unit 22 determines the temperature of the vaporizer using the data input from the temperature sensor 21, It is judged whether or not it is sufficiently warmed up (S3).

If it is determined that the vaporizer has been sufficiently preheated, the control unit 22 turns on the switching unit 25 to perform the ignition operation and outputs the control signal for driving the ignition transformer 24.

The driving unit 23 operates to drive the ignition transformer 24 and the ignition transformer 24 operates to generate the high voltage for ignition and the electrode 26 is connected to the switching unit 25, And the electrode rod 26 generates a spark at an input high voltage so that the spark is ignited on the fuel injected from the vaporizer.

When the flame is ignited (S6) in the fuel injected from the vaporizer as described above, the control unit 22 waits for a predetermined time to pass after turning off the switching unit 25 (S7). The reason why the switching unit 25 is turned off after the flame is ignited is to prevent the high voltage generated in the ignition transformer 24 from affecting the flame sensing operation thereafter.

The control unit 22 turns on the flame detection unit 27 at step S8 and the flame detection unit 27 detects the flame detection unit 27 via the electrode 26, (S9), and outputs the detected flame to the controller (22).

The control unit 22 determines whether or not a flame is generated in the vaporizer based on the data input from the flame detection unit 27. As a result of the determination, it is determined that the flame is generated in the vaporizer, and the control unit 22 ends the ignition operation.

If it is determined that the flame is not generated in the carburetor, the control unit 22 turns on the switching unit 24 and the switching unit 25 to perform the ignition operation. After the ignition operation, Off and the flame detection unit 27 are turned on so that the flame is ignited in the carburetor.

The present invention can perform both an ignition operation and a flame sensing operation by using one electrode, thereby reducing the price of the product, improving the productivity due to the reduction of components, and improving the reliability of the product performance do.

Claims (2)

And a controller for controlling the operation of the fan heater based on the preheating state of the evaporator and the preheating state of the evaporator based on the data input from the temperature sensor, A fan heater comprising: an ignition transformer for generating a high voltage for ignition based on a control signal of the control section; a switching section for switching the high voltage generated in the ignition transformer based on a control signal of the control section to be supplied or blocked to the electrode rod; An electrode for generating a spark for ignition through a high voltage input in response to a switching operation of the switching unit and sensing a vaporizer flame when a high voltage is not inputted; and an on / off operation based on a control signal of the control unit, And a flame detection unit for detecting whether or not the flame of the carburetor is generated through the flame detection unit, When the preheating of the carburetor is completed, the control unit sets the switching unit to the ON state and then operates the ignition transformer to control the injected fuel to be output to the electrode. When the ignition is completed, the control unit turns off the switching unit OFF state, and after a lapse of a predetermined time, the flame detection unit is turned ON to control the vaporizer to detect flame. A preheating step of preheating the vaporizer when power is applied; and an ignition step of turning on the switching unit when the preheating of the vaporizer is completed in the preheating step and controlling the ignition transformer to output the fuel injected from the carburetor to the electrode, A flame sensing step for sensing whether a flame is detected in the carburetor through an electrode when the ignition is completed, operating the flame sensing unit after a predetermined time delay, and terminating the ignition operation when a flame is sensed; And a re-ignition step of repeatedly performing the ignition step and the flame sensing step until a predetermined time elapses when the flame is not detected in the step of detecting the flame.