JP2542626B2 - Combustion device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Field of Industrial Application) The present invention relates to a combustion apparatus provided with a dust detection sensor.

(Prior Art) Some combustion devices, such as fan heaters that use gas or kerosene as fuel, have a dust detection sensor that detects abnormal combustion caused by dust adhering inside and outside the device body case due to an abnormal temperature rise in the case. There are things that are equipped.

A semiconductor thermistor or thermostat is used as the dust detection sensor. Conventionally, for example, the temperature inside the air duct is detected by the thermistor, and an alarm is displayed when the detected temperature reaches an abnormal value (constant temperature). It has become.

However, the conventional combustor of this type has the following problems. That is, the detection temperature at which the dust detection sensor operates is constant, and is set to a relatively high temperature in order to prevent malfunction during high combustion. Therefore, even if the sensor once operates due to a temperature increase in the air duct during combustion, the sensor operation stops when the combustion amount decreases due to room temperature conditions and the temperature in the air duct decreases,
The alarm display disappears. Moreover, since the temperature in the air duct does not rise so much during low combustion, the sensor may not operate even if a large amount of dust is attached.

(Problems to be Solved by the Invention) As described above, in the conventional combustion device of this type, since the detection temperature at which the dust detection sensor operates is constant, a large amount of dust or the like may adhere depending on the combustion amount. However, the sensor did not work even if the temperature was abnormal, and the abnormal temperature rise in the main body case due to abnormal combustion could not be detected. Therefore, the abnormal combustion operation may be continued, which may lead to a failure or an accident.

Therefore, an object of the present invention is to provide a combustion device that can reliably detect abnormal combustion due to dust adhesion by making the dust detection temperature of the dust detection sensor variable according to the amount of combustion and improve safety. .

[Structure of the Invention] (Means for Solving Problems) The combustion apparatus of the present invention is provided with a dust detection sensor for detecting dust adhesion by temperature detection, and the dust detection temperature of this sensor is set according to the amount of combustion. The detection temperature setting means and the operation stopping means for stopping the combustion operation when the dust detection sensor detects a temperature equal to or higher than the dust detection temperature corresponding to the combustion amount set by the setting means.

(Operation) In the case of a combustion device that takes such means, the dust detection temperature of the dust detection sensor is set to a high temperature during high combustion, and set to a low temperature during low combustion. Therefore, since the dust detection temperature changes with the change of the combustion state, the sensor operates reliably, and the combustion operation is stopped by the operation of the sensor, and the abnormal operation is not continued.

(Embodiment) An embodiment in which the present invention is applied to a fan heater using kerosene as a fuel will be described below with reference to the drawings.

FIG. 1 is a structural diagram of the fan heater of this embodiment,
An outlet louver 3 is fixed to the front plate 2 of the main body case 1 by means such as a claw stopper, and a display / operation unit 4 is provided above the louver 3. The display / operation unit 4 is provided with an operation switch, a dust detection warning lamp, and the like. A convection blower 6 is attached to the back plate 5 of the main body case 1 by means such as screwing. A combustion chamber 7 is formed in the main body case 1, and a combustion mechanism such as a carburetor 8, a burner 9 and an electromagnetic pump 10 is arranged below the combustion chamber 7. A ventilation duct 11 is attached above the combustion chamber 7, and a dust detection sensor 12 including a semiconductor thermistor or the like is provided on the upper surface of the ventilation duct 11.

FIG. 2 is a circuit configuration diagram of the combustion device. Vaporizer 8
A carburetor heater 21 for heating is connected to an AC power source via a contact 22. An electromagnetic pump 10 for pressure-feeding the fuel to the vaporizer 8, a convection blower 6, an ignition transformer 23 for igniting the vaporized gas vaporized by the vaporizer 8 and ejected from the nozzle on the burner 9, and opening / closing of the nozzle. The solenoid valve 24 to be operated is connected to an AC power source via a contact 25. 26 is a thermal fuse.

The control unit 27 driven by application of an alternating current is formed of a microcomputer or the like, and specifically has the configuration shown in FIG. That is, the operation switch 28 is connected to the input terminal I ₀ , and ON / OFF is read. Output terminal O ₀
A relay 30 is connected to the relay via a transistor 29 as a buffer, and the relay 30 controls ON / OFF of the contact 22. Similarly, a relay 32 is connected to the output terminal O ₁ via the transistor 31 as a buffer, and the relay 32 controls ON / OFF of the contact 25. The diodes 33 and 34 connected to both output terminals O ₀ and O ₁ are clamp diodes. A dust detection warning lamp 35 is connected to the output terminal O ₂ via a resistor, and a buzzer 36 is connected to the output terminal O ₃ . Further, a photocoupler 38 is connected to the output terminal O ₄ via a resistor 37 and sends a thermal power signal to the electromagnetic pump 10. This combustion power signal is a weak combustion signal (L signal), a medium combustion signal (M signal), a strong combustion signal (H).
Signal) and can be switched depending on room temperature conditions.

The reference power source formed by the Zener diode 39 and the resistor 40 is input to the input terminal I ₁ . Further, a series circuit of a resistor 41 and a dust detection sensor 12 is connected to both ends of the Zener diode 39, and a connection point of the resistor 41 and the dust detection sensor 12 is connected to an input terminal I ₂ . Therefore, the temperature of the dust detection sensor 12 can be detected by changing the voltage of the input terminal I ₂ according to the value of the thermistor forming the dust detection sensor 12.

The control unit 27 has an output terminal as shown in FIG.
A table is provided for setting the dust detection temperatures T1, T2, T3 (T1≤T2≤T3) of the dust detection sensor 12 corresponding to the thermal power signals L, M, N output from O ₄ .

Thus, the control unit 27 is configured to execute the flow chart shown in FIG. Non-combustion ie relay 32
When is not energized, the process proceeds to "NO" by the judgment of ST1 and exits this flow. If burning (relay 32 is energized), the process proceeds to “YES” in ST1 and recognizes the thermal power signal output from output terminal O _{4 in} ST2. Then, in the case of the H signal (strong combustion state), it is determined in ST3 whether the temperature detected by the dust detection sensor 12 is the dust detection temperature T3 or higher set in the table shown in FIG. 4, and the temperature T3 is reached. If not, go to “NO” to exit this flow, and if T3 or above, “YE
Proceed to S "to control lighting of the dust detection warning lamp 35 and buzzer 36 at ST4, and deenergize the relays 30 and 32 at ST5 to stop the combustion operation.

If the M signal (medium combustion state) in ST2, it is determined in ST6 whether the temperature detected by the dust detection sensor 12 is the dust detection temperature T2 or higher. If it does not reach the temperature T2, this flow is exited, and T2 or higher. If so, the lighting of the dust detection warning lamp 35 and the ringing of the buzzer 36 are controlled, the energization of the relays 30, 32 is released, and the combustion operation is stopped.

In ST2, if the L signal (weak combustion state), in ST7 it is judged whether the temperature detected by the dust detection sensor 12 is the dust detection temperature T1 or higher, and if it does not reach the temperature T1, this flow is exited and T1 or higher. In that case, the lighting of the dust detection warning lamp 35 and the ringing of the buzzer 36 are controlled, the energization of the relays 30, 32 is released, and the combustion motion is stopped.

In the combustion apparatus of the present embodiment configured in this way, when the motion switch 28 is turned on while AC power is being supplied, the relay 30 is energized to close the contact 22 and drive the carburetor heater 21. Then, the vaporizer 8 is heated. When the preheating of the carburetor 8 is completed, the relay 32 is energized to close the contact 25, and the electromagnetic pump 10, the convection blower 6, the ignition transformer 23 and the solenoid valve 24 are driven to drive the burner 9
Above, the vaporized gas is ignited and the combustion operation is started. The combustion gas burned on the burner 9 rises in the combustion chamber 7 and is discharged from the upper opening. The combustion gas is mixed with warm air sent from the convection blower 6 and discharged from the louver 3. When the combustion operation is performed, the temperature inside the main body case 1 rises due to the combustion heat, and the inside temperature of the case is constantly monitored by the dust detection sensor 12. Further, the combustion state is automatically adjusted to three states of strong combustion, medium combustion, and weak combustion according to conditions such as indoor temperature, and the control unit 27 determines the main body case 1 based on the combustion state and the temperature detected by the dust detection sensor 12. It is determined whether or not abnormal combustion occurs due to dust adhering to the inside and outside. That is, if the temperature detected by the dust detection sensor 12 is T3 ° C. or higher in the strong combustion state,
It is determined that the combustion is abnormal due to dust adhesion, etc., the dust detection warning lamp 35 lights up and the buzzer 36 sounds to warn the user, the relays 30 and 32 are de-energized, and combustion operation is stopped. To be done. In addition, the temperature detected by the dust detection sensor 12 is T2 (≤T
3) If the temperature is above ° C, it is determined that the combustion is abnormal due to dust adhesion, the dust detection warning lamp 35 lights up, and the buzzer 36 sounds to warn the user and the relays 30 and 32 are energized. Is released and the combustion operation is stopped. In addition, a dust detection sensor can be used in weak combustion conditions.
If the detected temperature of 12 is T1 (≦ T2) ° C or higher, it is determined that the combustion is abnormal due to dust adhesion, and the user is warned by turning on the dust detection warning lamp 35 and ringing the buzzer 36. The energization state to the relays 30 and 32 is released, and the combustion operation is stopped.

Thus, according to this embodiment, the dust detection sensor 12
Since the dust detection temperature is variable according to the combustion state,
The following effects are achieved as compared with the conventional case which has not changed. That is, conventionally, even if the sensor 12 once operates due to a temperature increase in the main body case 1 during combustion, if the combustion amount decreases due to room temperature conditions and the temperature inside the case decreases, the operation of the sensor 12 stops and an alarm is issued. The display sometimes disappeared,
According to the present embodiment, since the dust detection temperature also decreases with the deterioration of the combustion state, there is no possibility that the operation of the sensor 12 will stop, and since the combustion operation is stopped by the abnormality detection, the abnormal combustion operation is continued. There is no risk of breakdown or accident. Further, in the past, the sensor 12 may not operate even if a large amount of dust adheres during low combustion, but according to the present embodiment, since the dust detection temperature during low combustion is low, it is possible to reliably and quickly. It can be detected and a warning and shutdown will be given.

Although the dust detection sensor 12 is provided on the blower duct 11 in the above-described embodiment, it may be provided, for example, in a suspended manner in the blower duct 11. Also,
Although the case where the warning of lamp lighting and buzzer sounding is given by the operation of the dust detection sensor 12 is shown, safety can be sufficiently improved even if the warning is omitted and only the operation is stopped.

[Effects of the Invention] As described in detail above, according to the present invention, by making the dust detection temperature of the dust detection sensor variable according to the amount of combustion, abnormal combustion due to dust adhesion can be reliably detected,
A combustion device that can improve safety can be provided.

[Brief description of drawings]

1 to 5 are views showing an embodiment of the present invention. FIG. 1 is a structural diagram of the present device, FIG. 2 is a circuit configuration diagram of the present device, and FIG. FIG. 4 is a diagram showing a general configuration, FIG. 4 is a diagram showing a relationship between dust detection temperatures corresponding to thermal power signals, and FIG. 5 is a flow chart showing a main operation of a control unit. 1 …… Main body case, 10 …… Electromagnetic pump, 11 …… Blower duct, 12 …… Dust detection sensor, 27 …… Control section, 30,32…
… Relay, 35 …… Dust detection warning lamp, 36 …… Buzzer.

Claims (1)

(57) [Claims] 1. A dust detection sensor for detecting the adhesion of dust by temperature detection, a detection temperature setting means for setting the dust detection temperature of this sensor according to the combustion amount, and the combustion amount set by the setting means. A combustion device, comprising: a motion stopping means for stopping the combustion operation when the dust detection sensor detects a temperature equal to or higher than the corresponding dust detection temperature.