KR100187068B1 - Method for controlling the blower motor of a rotary heater - Google Patents

Abstract

The present invention relates to a method of controlling a blower motor of a rotary heater, and in particular, when a user turns off the operation switch 70 to stop combustion of the rotary heater, the controller 90 stops driving of the electronic pump 100 to supply fuel to the vaporizer 25. In the first step (101) (102) to stop the supply, and then turn off the carburetor heater (H) to stop the preheater of the vaporizer 25, in the first step the control unit (90) is the electronic pump 100 and the vaporizer After the driving of the heater H is stopped, all remaining fuel discharged by the flame holes of the burner head 27 is burned, and then the rotation speed of the blower motor 43 is controlled to the maximum to cool the vaporizer 25 and the ambient temperature. And a second step (103 to 105) for determining whether the temperature of the vaporizer 25 reaches a predetermined constant temperature (about 153 ℃ or less), if the temperature of the vaporizer 25 in the second step is a constant temperature control unit 90, the third stage for stopping the driving of the diffusion motor 21 and the blowing motor 43 It is equipped with 106 to control the rotation speed (RPM) of the blower motor to the maximum until the carburetor and the ambient temperature is lowered to a predetermined constant temperature, and then complete the fire extinguishing stroke to lower the carburetor and the ambient temperature in a short time. Can be.

Description

Blowing motor control method of rotary heater

The present invention relates to a blower motor control method of a rotary heater, and in particular, by controlling the maximum number of revolutions (RPM) of the blower motor inflowing external air during the fire extinguishing stroke of the rotary heater to lower the carburetor and ambient temperature within a short time It relates to a blowing motor control method of a rotary heater.

In general, a rotary heater is a heating device that ignites by using electricity and burns by using petroleum or kerosene, and does not need to install an exhaust pipe separately.

3 is a view showing the configuration of the carburetor assembly of the rotary heater used as described above, each of the upper air duct 53 and the lower air duct 54 in which the air rise hole 52 for combustion is drilled in the partition 51. And an air duct 50 which is formed so as to coincide with the combustion air rising holes 52 of the partition walls 51 and wound around the outer periphery with aluminum tape 60 and formed integrally with the center of the partition walls 51. The oil supply pipe 23 is provided with a diffusion body 22 which is interlocked with the diffusion motor 21 fixed to it, and is connected to the electromagnetic pump to supply fuel to the diffusion body 22.

In addition, a vaporizer 25 having a vaporizer heater H built therein and an inlet 24 of combustion air installed therein is fixed to the upper air duct 53 around the diffuser 22. The burner head 27 having a salt hole drilled through the outer circumference is mounted on the upper portion of the 25, and the spark plug 28 and the frame rod 32 have a burner plate at a predetermined distance on the flame hole side of the burner head 27. It is fixed to 30).

The lower air duct 54 of the air duct 50 is fixed to one side of the blower 40, but the blower 40 has an air inlet 41 and an air outlet 42 and a blower motor. A blower fan 44 interlocked with the 43 is provided.

In the conventional rotary heater configured as described above, when the user turns on the operation switch of the operation panel of the rotary heater, the carburetor heater H of the carburetor 25 is energized to heat the carburetor 25. The blower motor 43 and the diffusion motor 21 are driven at the same time as the temperature of the vaporizer 25 reaches a predetermined temperature, and is stored in the fuel tank in the diffuser 22 rotating in the diffusion motor 21. The liquid fuel is supplied to the diffuser 22 via an oil supply pipe 23 by an electronic pump.

Therefore, since the diffuser 22 is rotated at high speed by the diffusion motor 21, the liquid fuel supplied to the diffuser 22 is instantaneously atomized and discharged into the salt hole of the burner head 27 and burner plate ( The combustion is ignited by the electric spark generated by the spark plug 28 fixed to 30).

When the user turns off the operation switch to stop the combustion of the rotary heater after raising the indoor temperature according to the combustion as described above, the blower motor 43 and the diffusion motor 21 are stopped, and then the driving of the electronic pump is stopped. Stopped.

On the other hand, when a predetermined time (about 15 seconds) elapses after the driving of the electronic pump is stopped, the blower motor 43 is driven to introduce external air by the blower fan 44 interlocked with the blower motor 43, After cooling the vaporizer 25 and the ambient temperature for a time (about 90 seconds), the fire extinguishing stroke is completed by stopping the driving of the blower motor 43.

However, when a predetermined time (approximately 15 seconds) elapses after the driving of the electronic heater is stopped during the fire stroke of the rotary heater, the blower motor 43 is automatically driven for a predetermined time (about 90 seconds). After stopping the air supply in the state where the vaporizer 25 and the ambient temperature is not completely cooled, there was a problem that the cooling time of the vaporizer 25 and the ambient temperature is long.

The present invention is to solve the problems as described above, the carburetor and the ambient temperature by controlling the maximum rotational speed (RPM) of the blower motor flowing in the outside air after the operation of the electronic pump is stopped during the fire stroke of the rotary heater It is an object of the present invention to provide a blower motor control method for a rotary heater which allows the carburetor and the ambient temperature to be lowered in a short time by blowing until the temperature is lowered to a predetermined constant temperature (about 153 ° C. or lower).

According to the present invention, in the blowing motor control method of the rotary heater, when the user turns off the operation switch to stop the combustion of the rotary heater, the control unit stops the driving of the electronic pump to stop the fuel supply to the carburetor, and then turn off the carburetor heater In the first step of stopping the preheating of the carburetor, in the first step, the control unit stops the driving of the electronic pump and the carburetor heater, and then burns all remaining fuel discharged by the flame holes of the burner head, and then rotates the number of revolutions of the blower motor. The second stage of determining whether the temperature of the vaporizer reaches a predetermined constant temperature (about 153 ℃ or less) by controlling the maximum, and if the temperature of the vaporizer in the second step is a constant temperature, the control unit And a third step of stopping the driving of the diffusion motor and the blower motor.

1 is a block diagram showing a schematic configuration of a rotary heater according to the present invention;

2 is a flowchart illustrating a blowing motor control method of a rotary heater according to the present invention;

3 is a view showing a vaporizer assembly of a conventional rotary heater;

* Explanation of symbols for the main parts of the drawings

21: diffusion motor 25: carburetor

27: burner head 70: operation switch

80: carburetor thermistor 90: control unit

100: electronic pump H: vaporizer heater

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

Figure 1 is a block diagram showing a schematic configuration of a rotary heater according to the present invention, the operation switch 70 for turning on or off the power of the rotary heater and the carburetor thermistor 80 for detecting the temperature of the vaporizer 25, respectively It is connected to the control part 90.

On the other hand, the carburetor heater (H) for preheating the carburetor (25), the blower motor (43) for introducing external air required for combustion through the air inlet hole (41), and the fuel in the oil tank to pump the carburetor (25) The electronic pump 100 to be supplied is configured to be controlled by the controller 90.

The operation and effect of the present invention configured as described above will be described in detail with reference to the flowchart of FIG.

When the user turns off the operation switch 70 to stop the combustion stroke of the rotary heater in combustion (101), the control unit 90 stops the driving of the electronic pump 100 for supplying fuel in the fuel tank to the vaporizer 25 The fuel supply to the furnace is stopped, and then the carburetor heater H is turned off to stop preheating of the carburetor 25 (102).

In addition, the control unit 90 stops the driving of the electronic pump 100 and the vaporizer heater (H) and burns all remaining fuel atomized through the vaporizer 25 and discharged into the salt holes of the burner head 27 ( 103), and then the carburettor 25 as external air into which the blower fan 44 interlocked with the blower motor 43 is rotated to the maximum while being driven by controlling the rotation speed (RPM) of the blower motor 43 to the maximum. And cooling the ambient temperature (104).

On the other hand, the control unit 90 is a constant temperature in which the detection temperature of the carburetor 25 applied from the carburetor thermistor 80 to detect the temperature of the carburetor 25 while driving the blower motor 43 is preset in the control unit 90 (105) or less, and if the temperature of the vaporizer 25 detected by the vaporizer thermistor 80 is a constant temperature, the controller 90 controls the diffusion motor 21 and the blower motor. The operation of 43 is stopped to complete the digestion administration (106).

As described above, the present invention controls the maximum number of revolutions (RPM) of the blower motor inflowing external air after stopping the operation of the electronic pump during the fire stroke of the rotary heater when the vaporizer and the ambient temperature is lowered to a predetermined constant temperature. After the air is blown up, the fire extinguisher and the surrounding temperature can be lowered quickly by completing the fire extinguishing stroke.

Claims (1)

In the blower motor control method of the rotary heater, when the user turns off the operation switch 70 to stop the combustion of the rotary heater, the controller 90 stops the driving of the electronic pump 100 to supply fuel to the vaporizer 25. In the first step (101) 102 to stop the preheating of the vaporizer 25 by turning off the carburetor heater (H), in the first step the control unit 90 is the electronic pump 100 and the vaporizer heater ( After the driving of H) is stopped, all the remaining fuel discharged by the flame holes of the burner head 27 is burned, and then the rotation speed of the blower motor 43 is controlled to the maximum to cool the vaporizer 25 and the ambient temperature, The second step (103 to 105) to determine whether the temperature of the vaporizer 25 has reached a predetermined predetermined temperature (about 153 ℃ or less), if the temperature of the vaporizer 25 in the second step is a constant temperature control unit 90 ) Is a third step 106 of stopping the driving of the diffusion motor 21 and the blowing motor 43. Blowing motor control method of the rotary heater, characterized in that the rain.

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