JPH0663636B2 - Oil combustor control circuit - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Field of Industrial Application The present invention stops the energization of the heater when it detects that the burner body is heated by the vaporization heater and reaches the vaporization temperature, and that the combustion heat The present invention relates to a control circuit for an oil combustor that vaporizes liquid fuel by heat back.

(B) Conventional technology In general, there is a technology for detecting the quality of combustion using a flame rod by utilizing the fact that a flame has a rectifying effect.
-14121, JP-A-57-14122 and the like.

(C) Problems to be Solved by the Invention However, when an abnormal situation occurs in the frame rod or the detection circuit including the rod, there is no method for determining whether or not the abnormality has occurred. Therefore, when an abnormal situation occurs, there is a drawback that the detection circuit may determine that the oxygen deficiency state is not the oxygen deficiency state, and an unexpected accident may occur.

(D) Means for Solving the Problems For this reason, the present invention, as described in detail in the embodiments,
When the vaporization heater (16) detects that the burner body (3) has reached the vaporization temperature by heating the burner body (3), the energization of the heater is stopped and an oil combustor that vaporizes liquid fuel by heat back of combustion heat during combustion is provided. Where the output is inverted when the temperature of the burner body (3) reaches a first predetermined temperature, and the inverted output is inverted when it reaches a second predetermined temperature lower than the first predetermined temperature. Comparators (23)
And when the temperature of the burner body (3) reaches a third predetermined temperature between the first and second predetermined temperatures, the output is inverted and a fourth predetermined temperature lower than the third predetermined temperature is reached. Then, the second comparator (28) that inverts the inverted output
A timer (34) for outputting a time-up signal a predetermined time after receiving the output of the second comparator (28) when the third predetermined temperature is reached, and a timer (34) The vaporization heater (1) is output by the time-up signal or the output from the first comparator (23) when the first predetermined temperature is reached.
Combustion is started based on the output from the NOR circuit (32) for stopping the energization of 6) and the second comparator (28) when the third predetermined temperature is reached, and the fourth predetermined temperature is reached. And a relay control circuit (39) for stopping combustion based on the output of the second comparator (28) at that time.

(E) Action When the flame becomes unstable as the oxygen concentration decreases, the amount of heat back to the burner body (3) due to the combustion flame decreases, and the temperature of the body (3) decreases. Then, when the temperature drops to the first predetermined temperature, the first comparator (23) outputs a low level output, but if the predetermined time has passed by the timer (34), the NOR circuit (32) Therefore, the vaporization heater (16) is not energized. When the temperature of the burner body (3) further decreases to the fourth predetermined temperature, the second comparator outputs a low level and the relay control circuit (39) stops the combustion.

(F) Embodiment One embodiment of the present invention will be described in detail below with reference to the drawings. (1)
Is a charge cylinder, and is fixed to a rotating shaft (5) which is rotated by a burner motor (4) described later in a burner body (3) which is supplied with air through an upper opening (2) of the charge cylinder (1). A cone-shaped rotary cone (6), a rotor plate (7) and a diffusion mixing plate (8) are arranged. (9) is a burner head in which flame openings (10) are formed on the peripheral side surface at a predetermined interval, and wire meshes (11) are fixed inside and outside the peripheral side surface. (1
2) is an electromagnetic pump which supplies kerosene onto the cone (6) through an oil supply pipe (13). Reference numeral (14) is a spark plug arranged to face the flame port (10), and reference numeral (15) is a flame rod for detecting an ion current of a flame formed in the burnad (9). (16) is a vaporization heater for heating the burner body (3), and (17) is a burner thermistor having a negative characteristic for detecting the temperature of the burner body (3) heated by the heater (16).

Reference numeral (18) is an operation switch operated by the user, and when the switch (18) is closed, DC power is supplied to the control circuit (21) by the transformer (19) and the constant voltage circuit (20).

Next, the control circuit (21) will be described in detail with reference to FIG. The resistor (22) has one end connected to the _VDD power source and the other end connected to the burner thermistor (17), and the connection point between the resistor (22) and the burner thermistor (17) is the first control means. 1 is connected to the inverting input terminal of the comparator (23). The non-inverting input terminal of the comparator (23) is connected to the connection point of the resistors (24) and (25), and the differential feedback resistor (26) is provided between the non-inverting input terminal and the output terminal.
Is provided. (27) is a pull-up resistor connected to the output terminal of the comparator (23). (28) is a second comparator which is a second control means, the inverting input terminal is connected to the connection point between the resistor (22) and the burner thermistor (17), and the non-inverting input terminal is the resistor (29). And (30) are connected to each other, and a differential feedback resistor (31) is provided between the non-inverting input terminal and the output terminal.

The comparator (23) outputs a high level output when the temperature of the burner body (3) rises to a first predetermined temperature, and a low level output when the temperature falls to a second predetermined temperature lower than the first predetermined temperature. Output the output. Further, the second comparator (28) outputs a high level output when the temperature of the burner body (3) rises to a third predetermined temperature between the first and second predetermined temperatures,
When the temperature drops to a fourth predetermined temperature lower than the third predetermined temperature and lower than the second predetermined temperature, a low level output is output.

(32) is a NOR circuit, one input terminal is connected to the first comparator (23) through a resistor (33), the other input terminal is connected to a timer (34) described later, The output terminal is connected to the base of the transistor (36) through the resistor (35). The emitter of the transistor (36) is grounded, and the collector is connected to the V _DD power supply via the first relay (37). When the relay (37) is excited, its switch (37A) is closed to energize the vaporization heater (16).

The output terminal of the second comparator (28) is connected to the _VDD power source through the resistor (38), and is also connected to the timer (34) and the relay control circuit (39). The timer (34) outputs a high level time-up signal to the NOR circuit (32) when counting the high level output of the comparator (28) from the input and when a predetermined time, for example, 20 minutes has elapsed. When the relay control circuit (39) receives the high level output of the second comparator (28), it excites the second relay (40) and closes the switch (40A) of the burner motor (4) and the temperature blowing fan. The motor (41) is operated and air is sent into the burner body (3) to start prepurge. Then, this control circuit (39) turns on the third circuit about 10 seconds after receiving the high level output.
Energize the relay (42) to close the switch (42A), energize the electromagnetic pump (12) and spark plug (14),
Ignition operation is started.

(43) is an OR circuit, and one input terminal is the resistor (33)
The other input terminal is connected to the output terminal of the first comparator (23) through the inverter (44) and the connection point between the timer (34) and the input terminal of the NOR circuit (32). (45)
Is a warning light for urging ventilation, one end of which is an output terminal of the OR circuit (43) and the other end of which is connected to V via a resistor (46).
Connected to _DD power supply.

(47) is a combustion stop circuit, which sends a reset signal to the timer (34) and the relay control circuit (39) when a predetermined signal is received from the room temperature detection circuit (48) or other abnormality detection circuit (49). . When the relay control circuit (39) receives this reset signal, it immediately demagnetizes the third relay (42) and opens its switch (42A), the electromagnetic pump (12) stops operating, and the post-purge operation is continued for about 1 minute. After that, the second relay (40) is demagnetized and its switch (40A) is opened to stop the operation of the hot air blowing fan motor (41) and the burner motor (4). The room temperature detection circuit (48),
When the room temperature is detected and the room temperature reaches a set temperature arbitrarily set by the user, a predetermined signal is output. The other abnormality detection circuit (49) is configured to send a predetermined signal to the combustion stop circuit (47) as described above when, for example, the amount of kerosene is exhausted or water is mixed in kerosene. .

The operation will be described below with the above configuration.

First, when the user closes the operation switch (18), the transformer (19) and the constant voltage circuit (20) cause the control circuit (21) to switch to DC.
Power is supplied. Therefore, since the temperature of the burner body (3) is low, the resistance value of the burner thermistor (17) is large,
Both comparators (23) and (28) output low level outputs, and the timer (34) also outputs low level. Therefore, the NOR circuit (3
Since 2) is low level for both inputs, it outputs high level to make the transistor (36) conductive and the first relay (37)
Is excited to close the switch (37A), and the vaporization heater (16) is energized. Therefore, the burner body (3) is heated and its temperature rises, and this temperature rise causes the thermistor (1
When the resistance value of 7) decreases and reaches the third predetermined temperature as shown in FIG. 4, the second comparator (28) inverts its output and outputs a high level. Therefore, the relay control circuit (3
9) energizes the second relay (40) and switches it (40A)
Is closed, the burner motor (4) and the hot air blowing fan motor (41) are operated, and air is sent to the burner body (3) to start pre-purge. Then, when about 10 seconds have passed from this time, the relay control circuit (39) excites the third relay (42) to close the switch (42A), so that the electromagnetic pump (12) and the spark plug (14) are closed. Is energized to start the ignition operation. That is, kerosene drips onto the rotary cone (6) through the oil supply pipe (13), and the mixture of vaporized gas and combustion air is mixed by the rotary plate (7) and the diffusion mixing plate (8) in the burner body (3). Is produced, and this is ejected from the flame port (10) and ignited by the ignition plug (14) to start combustion.

On the other hand, the high-level output of the second comparator (28) causes the timer (34) to start operating over time, but the timer (34) outputs a low level until 20 minutes have elapsed, so the inverter (44) The OR circuit (43) outputs a high level and the warning lamp (45) is not turned on.

Even when the combustion is started, the vaporization heater (16) is still energized, and the combustion flame further heats the burner body (3) to raise the temperature by this heat back. At this time, when the temperature reaches the first predetermined temperature, the resistance value of the thermistor (17) decreases and the first comparator (23) outputs a high level. Therefore, the transistor (36) becomes non-conductive, the first relay (37) is demagnetized, the switch (37A) is opened, and the vaporization heater (16) becomes non-conductive. About 20 minutes after the second comparator (28) outputs a high level, a high-level time-up signal is output from the timer (34) to set the output of the NOR circuit (32) to a low level. Thus, the vaporization heater (16) is kept in the non-energized state. This 20 minutes takes into consideration the time until the temperature of the burner body (3) stabilizes. Furthermore, the flame sensor (15) detects an abnormal condition due to an oxygen deficiency state after the start of combustion. This is because the vaporization heater (16) is de-energized before the operation.

When the combustion is performed in this way and the oxygen concentration is reduced, the resistance between the flame rod (15) and the flame is increased, and the flame current is reduced. This is because a decrease in oxygen concentration causes a red fire and a flame lifting state.
Due to some accident, the flame rod (15) will contact the burner head (9) and the wire mesh (11), and soot will be generated by red fire, and more flame current will be detected than the actual flame condition. Thus, even if the oxygen concentration decreases, the flame current does not decrease, and the frame rod (15) cannot detect such an abnormal state.

However, if the flame becomes unstable as the oxygen concentration decreases, the amount of heat back to the burner body (3) due to the combustion flame decreases, and the temperature of the burner body (3) decreases. At this time, since the room temperature detection circuit (48) does not output the predetermined signal before the room temperature reaches the set temperature, the combustion stop circuit (47) outputs the reset signal to the timer (34) and the relay control circuit. Combustion is not stopped because it is not sent to (39). When the temperature of the burner body (3) eventually drops to the second predetermined temperature as shown in FIG. 3, the first comparator (23) inverts to a low level output. Therefore, since the high level output of the timer (34) is inverted by the inverter (44), both inputs of the OR circuit (43) are low level, so the warning lamp (45) is turned on and the user is informed. Ventilation is encouraged because abnormal combustion is occurring. Also, at this time,
Since the input from the timer (34) is at a high level, the NOR circuit (32) does not energize the transistor (36) and does not energize the first relay (37) so that the vaporization heater (16) is not energized. Then, when the temperature of the burner body (3) further decreases to the fourth predetermined temperature, the output of the second comparator (28) is inverted and becomes low level, so the timer (34) is reset. At the same time, the relay control circuit (39) demagnetizes the third relay (42) to stop the operation of the electromagnetic pump (12), and after the post-purging, the second relay (4)
0) is demagnetized to stop the operation of the warm air blowing fan motor (41) and the burner motor (4).

(G) Effect of the Invention As described above, according to the present invention, when the amount of heat back due to a combustion flame decreases due to lack of oxygen during combustion, combustion can be stopped before reaching a dangerous state. It is safe because it can prevent accidents due to missing parts. Therefore, particularly in a combustor having a combustion state detecting device that detects the quality of the combustion state by using a flame rod or the like, particularly when such a detecting device fails, a particularly remarkable effect is exhibited.

[Brief description of drawings]

FIG. 1 is a control circuit diagram showing an embodiment of the present invention, FIG. 2 is a control circuit diagram relating to combustion control, FIG. 3 is a longitudinal sectional view showing a burner portion, and FIG. 4 is a diagram showing combustion and burner body temperature. FIG. (3) …… Burner body, (16) …… Evaporation heater, (1
7) …… Burner thermistor, (21) …… Control circuit, (2
3) …… First comparator, (28) …… Second comparator, (3
2) …… Noah circuit, (34) …… Timer, (39) …… Relay control circuit.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Takeshi Osawa Inventor Takeshi Osawa 180 Sakata, Odaizumi-cho, Ora-gun, Gunma Higashi Kyoyo Electric Co., Ltd. (56) Reference JP-A-57-55321 (JP, A)

Claims (1)

[Claims] 1. An oil combustor for heating a burner body by a vaporization heater to stop the energization of the heater when it detects that the vaporization temperature has been reached, and vaporizes a liquid fuel by heat-back of combustion heat during combustion. And a first control means for inverting the output when the temperature of the burner body reaches a first predetermined temperature, and inverting the inverted output when reaching a second predetermined temperature lower than the first predetermined temperature. , When the temperature of the burner body reaches a third predetermined temperature between the first and second predetermined temperatures, the output is inverted, and when it reaches a fourth predetermined temperature lower than the third predetermined temperature, the output is inverted. Second control means for inverting the output, a timer for outputting a time-up signal after a predetermined time has elapsed after receiving the output of the second control means when the temperature reaches the third predetermined temperature, and a timer from the timer. time Circuit or a circuit for stopping the energization of the vaporization heater by the output from the first control means when the first predetermined temperature is reached, and the second control means when the third predetermined temperature is reached. A control circuit for the petroleum combustor, which starts combustion based on the output from the control unit and stops the combustion based on the output of the second control unit when the fourth predetermined temperature is reached.