KR20050036147A - Apparatus for preventing overheating and method of preventing overheating of rotary heater - Google Patents

Abstract

The disclosed invention relates to an overheat prevention device and a method for preventing overheating of a rotary heater, and according to the present invention, disposed on an outer periphery of a burner and provided at an outer periphery of the burner separately from a frame rod for detecting incomplete combustion of a rotary heater. By having a temperature sensor for detecting the temperature of the burner, if the burner temperature of the burner through the temperature sensor after the rotary heater does not fall below the off-level despite the incomplete combustion, the burner temperature When the temperature is higher than a preset overheating reference temperature, the operation of the rotary heater is stopped to prevent burnout due to overheating of the rotary heater.

Description

Apparatus for preventing overheating and method of preventing overheating of rotary heater}

The present invention relates to an overheat prevention device and a method for preventing overheating of a rotary heater, and more particularly, even if the combustion is unstable during the combustion of the rotary heater, the voltage of the frame rod does not fall below an off level so that the operation of the rotary heater is not stopped. In the case, the overheat prevention device and overheat prevention method of the rotary heater to stop the operation of the rotary heater through a temperature sensor provided in the burner separately.

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

These rotary heaters come in many varieties, but most of them use a rotary atomization method to atomize the fuel and completely burn it.

That is, in the rotary heater having the rotary atomization method, a diffuser that rotates at a high speed by a combustion drive motor is provided in order to atomize fuel in the vaporizer, and fuel (petroleum) is provided inside the diffuser that rotates at a high speed. By being supplied, the fuel is injected by the centrifugal force into the fine gap formed in the diffuser, thereby undergoing the atomization process of the fuel.

1 is a cross-sectional view showing the configuration of a rotary heater having a conventional rotary atomization method. As shown, the rotary heater is composed of a burner part (B) for receiving fuel and burning, and a blower part (F) for sucking the combustion air necessary for combustion of the fuel and supplying it to the burner part (B). .

At this time, the burner part (B) is connected to the rotary drive shaft (12), the electric pump (not shown) and the fuel tank (not shown) that is connected to the drive motor 11 for combustion to supply fuel (13) ) And a nozzle 14, a diffuser 10 connected to the rotary shaft 12 to diffuse and atomize fuel supplied by the nozzle 14, and atomized fuel from the diffuser 10. And a vaporizer 15 for further atomizing or vaporizing, and a burner 16 for burning fuel vaporized in the vaporizer 15.

In addition, a vaporizer heater 17 is built around the diffuser 10 of the burner part B, and a burner head 18 in which fine salt holes are formed in the outer periphery is installed at the upper part of the vaporizer 15, and the burner The burner plate 21 in which the spark plug 19 and the frame rod 20 are provided at a predetermined distance on the flame hole side of the head 18 is provided.

In addition, the blowing unit (F) is blown in conjunction with the blowing motor (22) and the blower motor (22) mounted on the lower side of the burner (B), the rotary shaft 23 of the blowing motor (22) It consists of a fan 24.

Therefore, when the blower motor 22 starts to drive, the blower fan 24 interlocked with the blower fan 22 rotates to suck the combustion air through the air suction port 25 formed at one side of the rotary heater. The air is supplied to the burner part B through the air outlet 26.

In the conventional rotary heater configured as described above, when the user turns on the operation switch (not shown) of the operation panel (not shown) of the rotary heater, the carburetor heater 17 of the carburetor 15 is energized and the carburetor 15 is fixed. When the temperature of the vaporizer 15 reaches a predetermined temperature by the heating, the preheating of the vaporizer 15 is stopped, and the blower motor 22 and the combustion driving motor 11 are driven.

At this time, the liquid fuel stored in the fuel tank to the diffuser 10 rotated by the combustion drive motor 11 is supplied through the oil supply pipe 13 and the nozzle 14 by the electromagnetic pump.

Therefore, since the diffusion body 10 rotates at a high speed by the combustion driving motor 11, the liquid fuel supplied to the diffusion body 10 is atomized (atomized) instantaneously while being diffused by centrifugal force and burner head ( At the same time as being discharged into the salt hole of 18), the spark is ignited by the electric spark generated by the spark plug 19 fixed to the burner plate 21 to proceed with combustion in the burner 16.

On the other hand, during the combustion of the rotary heater, if the combustion is unstable due to the stop of the drive motor 11, the DC voltage of the frame rod 20 falls below the reference voltage for stopping the rotary heater, and transmits it to the microcomputer to the rotary Stop the operation of the heater.

However, since the injection amount of fuel is large and combustion is unstable, the voltage of the frame rod 20 does not drop below the OFF LEVEL, which is a reference voltage for stopping the operation of the rotary heater. Even if Micom detects instability of combustion through instability of, the rotary heater is operated only when it is judged that the heater is overheated by the existing temperature sensor installed around the burner and cannot stop the operation of the rotary heater immediately. As a result, the burner overheats, causing the rotary heater to burn out.

In addition, the temperature sensor provided in the burner 16 of the conventional rotary heater simply has a function of detecting the temperature of the burner 16 in real time, so that the heater due to instability of combustion due to the stop of the driving motor 16, etc. There is a problem that can not detect overheating.

The present invention has been made in view of the above-described problems, and an object of the present invention is that combustion is unstable due to the stop of the drive motor during the combustion of the rotary heater, so that the frame rod does not fall below the off-level, but the microcomputer is incomplete combustion. When detecting, by detecting the burner temperature of the burner through a separate temperature sensor provided in the burner and comparing it with a preset overheating reference temperature, if the burner temperature is higher than the overheating reference temperature, the rotary heater to stop the operation of the rotary heater To provide overheating prevention device and overheating prevention method.

An object of the present invention as described above, in the rotary heater having a frame rod for detecting incomplete combustion on the outer periphery of the burner, provided on the outer periphery of the burner, even if the rotary heater is incomplete combustion If it does not fall below the off-level, it can be achieved by the overheat prevention device of the rotary heater having a temperature sensor for detecting the burner temperature of the burner.

In addition, an object of the present invention, in the rotary heater having a frame rod disposed on the outer periphery of the burner for detecting incomplete combustion of the rotary heater and a temperature sensor provided on the outer periphery of the burner for sensing the temperature of the burner Detecting, by the frame rod, incomplete combustion of the rotary heater; Detecting burner temperature of the burner through the temperature sensor when the frame rod does not fall below an off level even when the rotary heater is incomplete combustion; And stopping the operation of the rotary heater when the burner temperature is higher than a preset overheating reference temperature.

The overheat prevention method of the rotary heater may further include operating the blower motor for a predetermined time when the burner temperature is higher than the overheat reference temperature.

In addition, the method of preventing overheating of the rotary heater may further include a warning sound or a warning display on the control panel when the burner temperature is higher than the overheat reference temperature.

Hereinafter, the overheat prevention apparatus and overheat prevention method of a rotary heater according to the present invention will be described with reference to the accompanying drawings. Figure 2 is a schematic view showing the overheating prevention device of the rotary heater according to the present invention, a cross-sectional view showing a state in which the temperature sensor is attached to the outer periphery of the burner, Figure 3 is a method for preventing overheating of the rotary heater according to the invention This is a block diagram showing the sequence.

First, as shown in FIG. 2, the microcomputer 5 connected to the blower motor 22 and the driving motor 11 is provided at a lower end or side surface of the burner part B. The microcomputer 5 is connected to the frame rod 20, the carburetor heater 17, etc. in addition to the blower motor 22 and the driving motor 11, but not illustrated.

The overheat prevention apparatus of the rotary heater according to the present invention includes a temperature sensor (3) mounted on the outer periphery of the burner (16) to sense the temperature of the burner (16). This temperature sensor 3 is connected to the microcomputer 5.

On the other hand, the microcomputer 5 is connected to a control panel (not shown) of the rotary heater, to drive or stop the rotary heater according to the operation of the user's control panel, and to control the temperature of the rotary heater. do.

Hereinafter, the overheat prevention apparatus of the rotary heater according to the present invention.

When the frame rod 20 detects a flame of a burner in real time and transmits a change in voltage to the microcomputer 5, the microcomputer 5 analyzes the received voltage.

In this case, when the combustion is unstable and the voltage of the frame rod 20 falls below the off level for stopping the rotary heater, the microcomputer stops the operation of the rotary heater according to a preset program, but the off-level despite the incomplete combustion. If it does not fall below, the microcomputer 5 starts to detect the burner temperature of the burner 16 through the temperature sensor 3 provided separately on the outer periphery of the burner. Here, although the temperature sensor 3 is provided on the outer periphery of the burner 16, if the temperature of the burner 16 can be detected, the position provided is not limited.

In this case, when the burner temperature is higher than the preset superheat reference temperature, the microcomputer 5 stops the operation of the rotary heater. Here, the superheat reference temperature is set to a temperature lower than the superheat reference temperature in the normal rotary heater, but may be set differently according to the type of the rotary heater.

Therefore, by providing a separate temperature sensor on the outer periphery of the burner, even if the voltage of the frame rod does not fall below the off-level through the sensed burner temperature, the combustion of the rotary heater can be stopped to prevent burning of the rotary heater.

This is because when the driving motor 11 suddenly stops during the combustion of the rotary heater, a large amount of fuel flows into the burner 16 through the nozzle 14 of the oil feed pipe 13, and thus, the frame rod 20 as described above. It is more effective when the voltage of) does not fall below the off level.

Hereinafter, a method for preventing overheating of a rotary heater according to the present invention will be described with reference to the block diagram shown in FIG.

First, the rotary heater starts to operate through the user's control panel. At this time, as described above, the drive motor 11, the blower motor 22 and the like start to operate, and fuel is injected through the nozzle 14, so that the burner 16 starts to heat (step S0). .

Next, the voltage of the frame rod 20 in the rotary heater varies with the flame of the burner 16 (step S1). This change in voltage is transmitted to the microcomputer 5 in real time.

Subsequently, when the microcomputer 5 determines that the rotary heater is incomplete combustion due to a sudden stop of the driving motor 11 (step S2), the rotary motor is changed through a change in the voltage received from the frame rod 20. It is determined whether the voltage of the frame rod 20 falls below an off level which is a reference voltage for stopping the heater (step S3).

Next, even though the microcomputer 5 is incomplete combustion, if the voltage of the frame rod 20 does not fall below the off level, the burner temperature of the burner is sensed through a separate temperature sensor 3 provided at an outer periphery of the burner. (Step S4). Of course, when the voltage of the frame rod 20 falls below the off level, the microcomputer 5 stops the operation of the rotary heater according to a preset program.

Next, the burner temperature sensed by the temperature sensor 3 is compared with the preset overheat reference temperature (step S5).

As a result, if the burner temperature is higher than the overheat reference temperature, the microcomputer 5 stops the operation of the rotary heater (step S6).

Through the above method, the method of preventing overheating of the rotary heater according to the present invention does not drop the voltage of the frame rod below the off-level even when combustion is unstable due to sudden stop of the drive motor during combustion, in particular during combustion. By sensing the temperature of the burner, it is possible to prevent burnout due to overheating of the rotary heater.

In this case, when the burner temperature is higher than the overheat reference temperature, the operation of the rotary heater is stopped and the blower motor 22 is driven for a predetermined time, preferably about 30 minutes, thereby causing the burner 16 to be overheated. Can be cooled quickly.

In addition, if the burner temperature is higher than the overheat reference temperature, a step of displaying a warning or an alarm sound according to overheating on the control panel may be added to the step S6.

As described above, the overheat prevention apparatus and overheat prevention method of the rotary heater according to the present invention does not drop the voltage of the frame rod even if the incomplete combustion occurs due to sudden stop of the driving motor during the combustion. By detecting the temperature of the burner through a separate temperature sensor, the operation of the rotary heater can be stopped to prevent burnout due to overheating.

In addition, by separately driving the blower motor with the stop operation of the rotary heater, it is possible to quickly cool the overheated burner, and to alert the user by displaying a warning or sounding a warning on the control panel.

1 is a cross-sectional view showing a rotary heater,

Figure 2 is a cross-sectional view showing an overheating prevention device of a rotary heater according to the present invention, and

Figure 3 is a block diagram showing a method for preventing overheating of a rotary heater according to the present invention.

<Description of the symbols for the main parts of the drawings>

3: temperature sensor 5: microcomputer

10: Diffusion body 11: Drive motor

12: rotary shaft 13: oil pipe

14: Nozzle 15: Carburetor

16: Burner 18: Burner head

19: Ignition plug 20: Frame load

21: burner plate 22: air blowing motor

23: rotating shaft 24: blowing fan

25: air intake 26: air exhaust

F: Blower part B: Burner part

Claims (4)

In a rotary heater equipped with a frame rod for detecting incomplete combustion around the burner, Is provided on the outer periphery of the burner, the rotary heater overheat prevention device having a temperature sensor for detecting the burner temperature of the burner when the frame rod does not fall below the off-level even if the rotary heater is incomplete combustion. In the rotary heater having a frame rod disposed on the outer periphery of the burner for detecting incomplete combustion of the rotary heater and a temperature sensor provided on the outer periphery of the burner for sensing the temperature of the burner, Detecting, by the frame rod, incomplete combustion of the rotary heater; Detecting burner temperature of the burner through the temperature sensor when the frame rod does not fall below an off level even when the rotary heater is incomplete combustion; And And stopping the operation of the rotary heater when the burner temperature is higher than a preset overheating reference temperature. The method of claim 2, further comprising: operating the blower motor for a predetermined time when the burner temperature is higher than the overheat reference temperature. The overheat prevention method of claim 2, further comprising: when the burner temperature is higher than the overheat reference temperature, generating a warning sound or displaying a warning message on an overheating control panel.