JP6044273B2 - Oil combustion machine with automatic small combustion mechanism - Google Patents

Description

  The present invention relates to a mechanism for automatically dropping thermal power at a constant room temperature rise during use of a core up-down type oil combustor.

  The core up-down type oil combustor manually operates the core up-and-down shaft by a dial or an operating lever to raise the core to a combustion position, and when the igniter is energized, the core is ignited and burns. Also, when the room temperature desired by the user is reached during combustion, the wick upper and lower shafts can be manually operated to lower the wick within the adjustment range of the combustion amount to adjust the combustion amount, and further lower the wick to the fire extinguishing position. It can be extinguished.

The core up-and-down type oil combustor uses a dry battery as a power source for an ignition device and does not use a home AC power source. Recently, some core up-and-down type oil combustors powered by dry batteries have a combustion amount adjustment mechanism that can automatically change the combustion amount according to the room temperature, and it burns using a thermistor that detects the room temperature, and a solenoid or motor. A quantity adjustment mechanism is configured, and when the thermistor detects the set temperature, the solenoid and motor are actuated to rotate the core vertical axis and lower the core to automatically reduce the combustion amount (patent) References 1 and 2).
Japanese Patent Laid-Open No. 7-19414 JP-A-1-266421

  In the configuration of the above-mentioned patent document 1, when the solenoid is operated, the reset plate drives the operation lever by the force of the spring to rotate the core vertical axis and lower the core from the large combustion position to the small combustion position. When driven by this force, the vertical axis of the core may rotate by inertia and lower the core more than necessary. In addition, when tar adheres to the core and the hardness and thickness of the core increase, a strong force is required when the core is operated up and down, and it may not be possible to lower the core only with the force of the spring. There was a risk that the effect could not be obtained.

  On the other hand, Patent Document 2 is such that the motor drives the vertical axis of the core to move the core up and down, and even when tar is attached to the core and the hardness or thickness of the core is increased by using a motor with a large torque. The core vertical axis can be rotated to lower the core to the small combustion position. However, if the motor torque is increased, the power consumption increases and the consumption of the dry battery becomes severe. Therefore, it may be necessary to replace the dry battery several times during one season. Further, when the capacity of the dry battery is reduced, even if ignition by the igniter can be performed, the torque of the motor is reduced due to insufficient voltage, and the vertical axis of the core cannot be rotated, and the core cannot be lowered.

The present invention solves the above-described problem, and includes a core vertical shaft 1 for performing a core vertical operation and a thermistor 2 for detecting room temperature, and the core 3 moves up and down by the rotation of the core vertical shaft 1. The core height can be changed between the maximum and minimum combustion ranges, and the core height is adjusted by rotating the core vertical axis 1 in the core lowering direction based on the signal that the thermistor 2 detects a predetermined temperature or more. In the oil combustor provided with the combustion amount adjusting mechanism 4 for changing to the minimum combustion position, the combustion amount adjusting mechanism 4 includes a drive plate 5 provided so as to be rotatable about the core vertical shaft 1, and the drive plate 5. A motor 6 having a forward / reverse rotation function for driving the shaft, a locking portion 7 for transmitting the rotation operation of the core vertical shaft 1 to the drive plate 5 during the centering operation, and the core vertical shaft 1 rotating to the minimum combustion position. And a switch 8 that operates when
The driving plate 5 is pushed up by the locking portion 7 during the centering operation of the core vertical shaft 1 and stops at the initial setting position A of the combustion amount adjusting mechanism 4, and by the signal that the thermistor 2 detects a predetermined temperature or more. A rotation signal is output to the motor 6 to drive the drive plate 5, and the drive plate 5 rotates the core vertical shaft 1 in the core lowering direction via a locking portion 7, and an operation signal of the switch 8. To output an energization stop signal to the motor 6 to stop the core vertical shaft 1 at the minimum combustion position,
When an operation signal of the switch 8 is not detected within a predetermined time from the start of energization of the motor 6, a reverse rotation signal is output to the motor 6 and the drive plate 5 is rotated to the initial setting position A; A lock detecting means 9 for outputting a rotation signal to the motor 6 again is provided.

  The combustion amount adjusting mechanism 4 includes a counter unit 10 that counts and adds when the lock detecting unit 9 detects the stop of the motor 6 and the drive plate 5 is returned to the initial setting position A. Since the abnormality notifying means 11 is provided that operates when the count number of the counter means 10 reaches the specified number and outputs an alarm, it notifies the user that a failure has occurred in the vertical movement of the lead 3. is there.

Further, wherein the combustion amount adjusting mechanism 4, the integrating means 12 to count the energization time to the motor 6, the abnormality notification to count time of the integrating means 12 outputs an alarm activated when it reaches the specified time By providing the means 11 , the user is informed that a failure has occurred in the vertical movement of the lead 3.

  In the combustion amount adjusting mechanism 4 of the present invention, when the core vertical shaft 1 is rotated during the centering operation, the drive plate 5 is driven through the engaging portion 7 and is set to the initial setting position A, and the oil combustor is in use. When the thermistor 2 for detecting the room temperature detects a predetermined temperature or more, a rotation signal is output to the motor 6 and the drive plate 5 is driven to rotate the core vertical shaft 1 in the core lowering direction via the locking portion 7. When the switch is turned to the minimum combustion position, the switch 8 is actuated to stop the motor 6 and the lead 3 is changed to the minimum combustion position, so that the amount of combustion can be automatically reduced to prevent overheating.

  Further, if the resistance when the core 3 moves up and down increases due to tar adhering to the core 3, the motor 6 is loaded and stopped, and the rotation of the core vertical shaft 1 may stop midway. is there. In this invention, when the rotation of the core vertical shaft 1 stops in the middle and the operation signal of the switch 8 is not detected within a predetermined time from the start of energization of the motor 6, the reverse rotation signal is output to the motor 6 and driven. After the plate 5 is driven in the reverse direction and returned to the initial setting position A, the rotation signal is output again to the motor 6 to drive the drive plate 5. When the drive plate 5 hits the locking portion 7, the motor 6 is rotating and generating a maximum torque, so that the core 3 can be pushed down by applying a striking force to the core vertical shaft 1 and rotated, and this operation is performed until an operation signal of the switch 8 is detected. By repeating the above, the core can be lowered reliably. Furthermore, a motor 6 having a small torque can be used, and the life of the dry battery can be expected to be extended while suppressing power consumption.

  Further, the lock detecting means 9 detects the stop of the motor 6 and the counter means 10 counts the number of times the drive plate 5 is returned to the initial setting position A. The lock detecting means 9 repeatedly stops the motor 6. When the count number of the counter means 10 is detected and reaches the specified number of times, the abnormality notifying means 11 outputs an alarm so that the user can be informed of the abnormality, and when the vertical movement of the lead 3 has failed. As a result, the cause can be removed by the user and wasteful consumption of the dry battery can be prevented.

  Further, the energizing time to the motor 6 is counted by the integrating means 12, and the abnormality notifying means 11 when the lock detecting means 9 repeatedly detects the stop of the motor 6 and the energizing time to the motor 6 reaches the specified time. In this method, the user can be informed that a failure has occurred in the vertical movement of the core 3, so that the user can remove the cause of the problem and useless dry batteries. You can now prevent exhaustion.

It is a principal part front view of the oil combustor which shows the state set to the initial setting position of the combustion quantity adjustment mechanism 4 of the Example of this invention. It is a principal part front view of the oil combustor which shows the state changed into the minimum combustion position of the combustion quantity adjustment mechanism 4 of the Example of this invention. It is a principal part top view of the oil combustor which shows the Example of this invention. It is a block diagram which shows the Example of this invention. It is a flowchart which shows the Example of this invention. It is a flowchart which shows the other Example of this invention. It is a flowchart which shows the other Example of this invention.

  The present invention will be described with reference to a dial-type oil combustor shown in the figure. Reference numeral 13 denotes an oil tank, reference numeral 14 denotes a core housing cylinder erected from the oil tank 13, and reference numeral 3 denotes a core inserted through the core housing cylinder 14 so as to be movable up and down. Yes, the fuel in the oil tank 13 is sucked up at the lower end of the lead 3 and supplied to the upper end of the lead 3.

  Reference numeral 1 denotes a core up / down shaft for performing a core up / down operation, and 15 denotes a combustion section disposed above the core housing cylinder 14. The core top / down axis 1 is rotated in the center raising direction so that the upper end of the core 3 is positioned below the combustion section 15. When the wick 3 is ignited by an ignition device such as an ignition heater, the fuel in the oil tank 13 sucked up at the lower end of the wick 3 starts burning at the upper end of the wick 3, and the generated combustion flame and combustion gas are Combustion is completed by receiving the supply of air at the combustion section 15.

  Reference numeral 16 denotes a rotary plate constituted by a gear which is loosely fitted to the core vertical axis 1 and rotates around the core vertical axis 1, 1 a is a locking piece provided on the core vertical axis 1, and 16 a is provided on the rotary plate 16. Since the locking piece 1a pushes the protrusion 16a of the rotating plate 16 when the core vertical shaft 1 is rotated in the direction of raising the core, the core vertical shaft 1 and the rotating plate 16 rotate together. To do.

  In FIG. 3, 17 is a return spring attached between the rotating plate 16 and the core accommodating cylinder 14, 18 is a stopper that engages with the rotating plate 16 when rotating in the center raising direction, and 16 b is the rotating plate 16. The rotating plate 16 winds up the return spring 17 during the centering operation, and the engaging plate 16 of the rotating plate 16 engages with the stopper 18 when the rotating plate 16 is engaged with the stopper 18. The rotational force in the core lowering direction by the return spring 17 is maintained.

  Reference numeral 19 denotes a vibration sensor that works in conjunction with the stopper 18, and when the vibration sensor 19 detects vibration, the stopper 18 is moved to disengage the engaging portion 16b from the stopper 18, and the rotating plate from which the stopper 18 has been removed. 16 is rotated in the core lowering direction by the return spring 17, and the protrusion 16 a of the rotating plate 16 presses the locking piece 1 a, so that the core vertical axis 1 rotates in the core lowering direction together with the rotating plate 16, The core 3 is rapidly lowered into the core accommodating cylinder 14 to extinguish the fire.

  Further, when the pivot plate 16 and the stopper 18 are engaged with each other, the core vertical shaft 1 can be independently rotated in the core lowering direction by the operation of the core vertical shaft 1 so that the locking piece 1a is separated from the protrusion 16a. During combustion, the amount of combustion is adjusted by changing the core height by operating the core vertical axis 1 between the maximum combustion and minimum combustion positions, and the core vertical axis 1 is manually rotated to the fire extinguishing position. Then, the lead 3 descends into the lead containing cylinder 14 and extinguishes fire.

  It is effective as an automatic fire extinguishing device in an emergency because the core 3 descends rapidly and extinguishes fire in a short time when the vibration sensor is activated. There is. For this reason, the core lowering position when the core vertical shaft 1 is manually turned to extinguish the fire is set higher than the emergency fire extinguishing position, and the normal fire extinguishing time is caused by slowly extinguishing the fire while burning unburned gas. Fire extinguishing that does not occur.

  The present invention is provided with a combustion amount adjusting mechanism for maintaining a comfortable temperature by automatically reducing the combustion amount when the indoor temperature rises to prevent overheating of the room. Thermistor 4 detects a combustion amount adjusting mechanism that operates based on room temperature data detected by the thermistor 2, 20 is a control device that inputs the signal of the thermistor 2 and controls the driving of the combustion amount adjusting mechanism 4, and 21 is a core. An operation switch that outputs operation / stop to the control device 20 in conjunction with the up / down operation, 1b is an operation plate attached to the core up / down shaft 1 that moves the operation switch 21 to switch the contact, and the core up / down shaft 1 is in the fire extinguishing position. The operation switch 21 is OFF when When the core up-and-down shaft 1 is rotated from the fire extinguishing position to the core raising direction and exceeds the normal fire extinguishing position, the operation plate 1b moves the operation switch 21, and the contact of the operation switch 21 is switched to the ON side to the control device 20. Energized, the control device 20 operates the thermistor 2 to start detecting the room temperature, and room temperature data is output to the control device 20. Further, when the core vertical shaft 1 is rotated in the core lowering direction, the operation plate 1b moves the operation switch 21 before the normal fire extinguishing position, and the contact of the operation switch 21 is switched to the OFF side so that the control device 20 is energized. Stops.

  When the room temperature rises during combustion and the thermistor 2 detects a predetermined temperature or more, the control device 20 outputs an operation signal to the combustion amount adjusting mechanism 4, and the combustion amount adjusting mechanism 4 moves the core vertical shaft 1 in the core lowering direction. By rotating and changing to the minimum combustion position, by reducing the amount of combustion, the temperature rise in the room can be suppressed and it can be used at a comfortable temperature.

As a specific configuration of the combustion amount adjusting mechanism 4, 5 is a drive plate formed in an arc shape arranged at a predetermined interval along the outer peripheral edge of the rotating plate 16, and 22 is a base for mounting the drive plate 5. A concave groove is formed on the back surface of the drive plate 5 facing the base 22. Reference numeral 22a denotes a guide rail provided on the base 22 so as to be fitted to the groove portion of the drive plate 5, and the drive plate 5 moves along the guide rail 22a.
5a is a drive gear provided on the outer peripheral edge of the drive plate 5, 6 is a motor rotating forward and reverse to drive the drive plate 5, 6a is a motor gear provided on the motor shaft, and 23 is a drive gear 5a and a motor gear 6a of the drive plate 5. This is a reduction mechanism that engages and drives the motor 6 and the drive plate 5 together. When the motor 6 is driven, the torque of the motor 6 is amplified and transmitted to the drive plate 5. Move on the circumference.

  Reference numeral 7 denotes a locking portion for interlocking the core vertical shaft 1 and the drive plate 5, and 5 b denotes a protrusion extending from the drive plate 5 toward the rotation center of the core vertical shaft 1. A locking portion 7 is configured by extending the tip of 1a and bringing the protrusion 5b of the drive plate 5 into contact with the locking piece 1a of the core vertical shaft 1.

  The protrusion 5b of the drive plate 5 is set so as to come into contact with the locking piece 1a when the core vertical shaft 1 rotates in the range from the maximum combustion position to the minimum combustion position, and extinguishes the core vertical shaft 1 When rotating from the position to the center raising direction and rotating to the minimum combustion position, the locking piece 1a of the core vertical shaft 1 collides with the protrusion 5b of the drive plate 5, and together with the core vertical shaft 1 rotating in the core lifting direction. The drive plate 5 is driven. When the core vertical shaft 1 is rotated to the maximum combustion position and the core vertical operation is stopped, the drive plate 5 is also stopped and the drive plate 5 is set to the initial setting position A.

  Then, when the core 3 is ignited by an ignition device (not shown), combustion starts. During the combustion, temperature data output from the thermistor 2 is input to the control device 20, the room temperature rises and the thermistor 2 exceeds a predetermined temperature. When detected, a rotation signal is output from the control device 20 to the motor 6. When the motor 6 rotates, the drive plate 5 is driven via the speed reduction mechanism 23, and the protrusion 5b of the drive plate 5 pushes the locking piece 1a of the core vertical shaft 1 so that the core vertical shaft 1 rotates in the core downward direction.

  Reference numeral 8 denotes a switch that is switched in contact with and away from the end portion 5c of the drive plate 5. When the drive plate 5 rotates the core vertical axis 1 in the core lowering direction and the end portion 5c of the drive plate 5 contacts the switch 8, the switch When the operation signal of the switch 8 is output, the control device 20 outputs a stop signal to the motor 6. When the motor 6 stops, the drive plate 5 stops and the rotation of the core vertical shaft 1 also stops. . Since the stop position of the drive plate 5 is set to the minimum combustion position, the core 3 is lowered to the minimum combustion position, and the combustion amount can be automatically reduced.

  If the combustion is continued at the maximum combustion, the room temperature may rise. However, in the present invention, the combustion amount is automatically reduced when the indoor temperature reaches a predetermined temperature, so that the indoor temperature is prevented from being overheated and a comfortable temperature can be maintained. Further, since the height of the lead 3 can be automatically lowered to the minimum combustion position, there is no problem that the lead 3 is lowered too much and the combustion state is deteriorated as when the lead vertical shaft 1 is manually operated. Can be used with confidence.

By the way, in the oil combustor, tar adheres to the tip of the core 3 as the service period elapses, and the thickness of the core 3 increases, making it difficult for the core 3 to be housed in the gap of the core housing cylinder 14 and making the core up / down operation heavy. May be. When the thickness of the core 3 is increased and the resistance is increased, even if a rotation signal is output to the motor 6 and the drive plate 5 is driven, the rotation of the core vertical shaft 1 stops midway, and the core height is reduced. I am worried that I cannot change it.
Although this problem may be solved by using a motor 6 having a large torque, increasing the torque of the motor 6 increases the power consumption and shortens the life of the dry battery. Further, when the core up-and-down shaft 1 is manually rotated to perform the centering operation, another problem arises that when the drive plate 5 rotates together, the resistance by the motor 6 increases and the operability deteriorates.

  9 is a lock detecting means for detecting the operating state of the combustion amount adjusting mechanism 4, 9 a is a timer provided in the lock detecting means 9, and the lock detecting means 9 is provided when a rotation signal is output from the control device 20 to the motor 6. The timer 9a starts counting, and when the operation signal of the switch 8 is output, the timer 9a finishes counting and stops operating. The lock detection means 9 measures the time from when the rotation signal is output to the motor 6 until the operation signal of the switch 8 is output, and before the timer 9a counts the predetermined time T, the operation signal of the switch 8 is When output, the control device 20 is stopped, the motor 6 is stopped, and the lock detecting means 9 is stopped.

  On the other hand, when the rotation of the core vertical shaft 1 stops in the middle and the timer 9a counts the predetermined time T without outputting the operation signal of the switch 8, the lock detecting means 9 detects the lock of the motor 6, and the control device When a reverse rotation signal is output from the motor 20 to the motor 6 and the motor 6 rotates reversely, the drive plate 5 is moved away from the core vertical shaft 1 and driven in the core raising direction. The control device 20 is preset with a time for outputting the reverse rotation signal to the motor 6, and the drive plate 5 returns to the initial setting position A within the set time. Then, after outputting a preset time reverse rotation signal to the motor 6, the rotation signal is output to the motor 6 again.

  When the rotation signal is output to the motor 6, the drive plate 5 is returned to the initial setting position A, and the drive plate 5 is driven again from the initial setting position A in the core lowering direction, and the position where the previous vertical axis 1 stopped. Thus, the protrusion 5b of the drive plate 5 corresponds to the locking piece 1a of the core vertical shaft 1, but before the protrusion 5b of the drive plate 5 contacts the locking piece 1a of the core vertical shaft 1, the motor 6 is rotating and the maximum torque is obtained. The core 3 can be lowered by applying a striking force to the core vertical shaft 1 so that the core vertical shaft 1 is rotated in the core lowering direction from the position where the core was previously stopped.

  The lock detection means 9 starts counting of the timer 9a when a rotation signal is output to the motor 6, and the core vertical shaft 1 rotates in the core lowering direction as it is, and the timer 9a counts the predetermined time T. When the operation signal of the switch 8 is output before the control, the control device 20 stops the motor 6 and the lock detecting means 9 stops. On the other hand, when the rotation of the core vertical shaft 1 stops halfway again and the timer 9a counts the predetermined time T without outputting the stop signal of the motor 6, the lock detecting means 9 determines again that the motor 6 is locked and the motor 6 is locked. 6 to output a reverse rotation signal to return the drive plate 5 to the initial setting position A and output the rotation signal to the motor 6 again. By repeating this operation until the operation signal of the switch 8 is output, The lead 3 can be reliably lowered to the minimum combustion position.

  The load applied to the motor 6 when the drive plate 5 continues to be driven while the protrusion 5b of the drive plate 5 is in contact with the locking piece 1a of the core vertical shaft 1 after the rotation of the core vertical shaft 1 stops halfway. Although the torque generated by the motor 6 will eventually become insufficient, the configuration of the present invention can be used with sufficient torque obtained when the motor 6 is re-rotated. Can be used. By using the motor 6 with a small torque, it is possible to reduce the power consumption and suppress the consumption of the dry battery. Also, when the drive plate 5 and the motor 6 are rotated together during the centering operation, the core vertical shaft 1 is light. It was possible to operate with force and without any deterioration in operability.

  Further, if the amount of tar adhering to the core 3 increases and the thickness of the core further increases, the flame may not increase even when ignited, or the core may not be lowered during fire extinguishing, and the fire may not disappear. Although it is desirable to remove the tar by baking the core 3 before such a state is reached, it is difficult for the user to know the timing for performing the baking of the core 3. Further, if the wick 3 cannot be lowered to the minimum combustion position when the combustion amount adjusting mechanism 4 is operated, the combustion amount adjusting mechanism 4 continues to operate forever, and the dry battery is wasted. End up.

Reference numeral 10 denotes counter means for detecting the number of operations of the lock detecting means 9, and the counter means 10 counts up when the lock detecting means 9 detects the lock of the motor 6 and the drive plate 5 is returned to the initial setting position A. Then, the control device 20 checks whether the count number has reached the specified number of times, and if it is less than the specified number of times, a rotation signal is output to the motor 6. When the operation signal of the switch 8 is output before the counter means 10 reaches the specified number of times, the control device 20 stops the motor 6 and the lock detecting means 9 stops, and the count number of the counter means 10 is reset. .
Reference numeral 11 denotes an abnormality notification means constituted by a warning lamp and an alarm buzzer. When the count number of the counter means 10 reaches a predetermined number, it is determined that a failure has occurred in the vertical movement of the core 3, and the motor 6 is energized. The operation of the lock detection means 9 is stopped and the operation signal of the abnormality notification means 11 is output.

Further, in another embodiment shown in FIG. 7, reference numeral 12 denotes an integration means for counting the energization time of the motor 6, and the integration means 12 detects that the thermistor 2 detects a predetermined temperature and outputs a rotation signal to the motor 6. Therefore, the operation is performed until the operation signal of the switch 8 is output. In the embodiment, the count time of the timer 9a of the lock detecting means 9 is accumulated and stored.
When the operation signal of the switch 8 is output before the integration time of the integration means 12 reaches the specified time, the control device 20 stops the motor 6 and the lock detection means 9 stops, and the data stored in the integration means 12 is stored. Reset. On the other hand, when the operation signal of the switch 8 is not output, the lock detection means 9 detects the lock of the motor 6 and the rotation signal and the reverse rotation signal are repeatedly output to the motor 6, but the operation signal of the switch 8 is output. If the integration time of the integration means 12 reaches the specified time (Tx) before being activated, it is determined that a failure has occurred in the vertical movement of the lead 3, and the energization of the motor 6 and the operation of the lock detection means 9 are stopped. At the same time, an operation signal of the abnormality notifying means 11 is output.

  As described above, when the vertical movement of the wick 3 occurs and the wick 3 cannot be lowered to the minimum combustion position, the motor 6 does not repeat the operation indefinitely, and the energization to the motor 6 is stopped. It is possible to suppress the consumption of the battery. In addition, when the abnormality notifying means 11 is activated, the user can be notified that a trouble has occurred in the vertical movement of the lead, and can take measures to eliminate the cause of the trouble, such as emptying the lead or replacing the lead. It is no longer necessary to cause serious troubles such as failure to ignite or extinguish the core and the fire cannot be extinguished.

1 core vertical axis 2 thermistor 3 core 4 combustion amount adjusting mechanism 5 drive plate 6 motor 7 locking part 8 switch 9 lock detecting means 10 counter means 11 abnormality notifying means 12 integrating means

Claims (3)

A core vertical axis (1) for performing the vertical axis operation and a thermistor (2) for detecting the room temperature are provided, and the core (3) moves up and down by the rotation of the vertical axis (1), and maximum and minimum combustion The core height can be changed between the ranges,
A combustion amount adjusting mechanism (4) for changing the core height to the minimum combustion position by rotating the core vertical axis (1) in the core lowering direction based on a signal detected by the thermistor (2) above a predetermined temperature. In the oil combustor,
The combustion amount adjusting mechanism (4) includes a drive plate (5) provided rotatably about the core vertical axis (1), and a motor having a forward / reverse rotation function for driving the drive plate (5). (6), a locking part (7) for transmitting the rotation operation of the core vertical axis (1) to the drive plate (5) during the core raising operation, and the core vertical axis (1) rotated to the minimum combustion position. A switch (8) that sometimes operates,
The drive plate (5) is pushed up by the locking portion (7) during the centering operation of the core vertical axis (1) and stopped at the initial setting position A of the combustion amount adjusting mechanism (4).
The drive plate (5) is driven by outputting a rotation signal to the motor (6) in response to a signal that the thermistor (2) detects a predetermined temperature or more, and the drive plate (5) pushes the locking portion (7). Through which the core vertical axis (1) is rotated in the direction of lowering the core,
An energization stop signal is output to the motor (6) in response to an operation signal of the switch (8), the core vertical shaft (1) is stopped at the minimum combustion position,
When an operation signal of the switch (8) is not detected within a predetermined time from the start of energization of the motor (6), a reverse rotation signal is output to the motor (6) to set the drive plate (5) to the initial setting. An oil combustor with an automatic small combustion mechanism, comprising lock detecting means (9) for outputting a rotation signal to the motor (6) again after rotating to a position A.   The combustion amount adjusting mechanism (4) counts up when the lock detecting means (9) detects the stop of the motor (6) and the drive plate (5) is returned to the initial setting position A. The counter means (10) and an abnormality notifying means (11) for operating and outputting an alarm when the count number of the counter means (10) reaches a specified number are provided. Oil burner with automatic small combustion mechanism described. Wherein the combustion rate adjusting mechanism (4), the motor count integrating means energization time of the (6) (12), operating when the count time of the integrating means (12) has reached the specified time oil burner with automatic small combustion mechanism according to claim 1, characterized in that a and abnormality notification unit for outputting an alarm (11).

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