JPH0666451A - Fan control method of warm-air heater - Google Patents

Abstract

PURPOSE:To prevent generation of noise by a method wherein fan motors are operated at low rotational speed by star-connection operation during low-output burning operation and residual heat recovery operation, and at high rotation speeds by delta connection operation during high-output burning operation. CONSTITUTION:The room temperature is detected by a room temperature sensor 2. When the room temperature drops, a high-combustion valve contact 26 is turned on to commence high-combustion operation, a contact 22b is turned off and a contact 22a is turned on to proceed to delta-connection operation. When the room temperature rises, the high combustion-valve contact 26 is turned off, the contact 22a is turned off and the contact 22b is turned on to return to star-connection operation. When the room temperature rises further up to the set temperature of a warm-air heater or higher, a low-combustion valve contact 25 is turned off to enter residual heat recovery operation. After that, a burner motor contact 23 and a fan on-off contact 21 are turned off to stop operation of the warm-air heater. Thereby, required air flow rates are given to the warm-air heater in time, so that noise generation can be restrained.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a blower control method for a hot air heater, and more particularly to a blower with a star delta connection in a high (Hi) / low state.
(Lo) Installed on a hot air machine equipped with a burner, high speed rotation large air volume by delta connection during burner high (high) combustion, and low
(Low) This relates to a method for reducing the low-speed rotation small air volume by star connection during combustion and residual heat recovery operation.

In a hot-air heater for a greenhouse for greenhouses,
In the one in which the electric motor of the blower is connected by star connection or delta connection to prevent noise, the burner combustion method is variable in the amount of fuel oil and the output is variable, and the relationship between the operation of the blower and the output is high combustion delta operation, This is a control method that controls the noise of the hot air blower and adjusts the air volume as a low combustion star operation.

[0003]

2. Description of the Related Art In a conventional warm air blower for greenhouses for facilities and gardening, rotation control of a blower is not performed. However, when the rotation control is indispensable, an inverter is used or the number of poles of the motor coil is converted, and in some cases, measures such as controlling the number of warm air blowers are taken.

[0004]

When rotation control is not performed, (a) design a motor with a blower capacity applied to both the 50 Hz region and the 60 Hz region where the power supply frequency is incorporated into the heater. If this is done, the design is complicated, and even if such a design is made, there is a problem that the air volume is insufficient in the 50-hertz area, while the air volume is large in the 60-hertz area and the noise is large. Therefore, (b) Covering the blower for the purpose of noise reduction increases the cost.

Therefore, when trying to control the rotation,
Ideally, (a) an inverter is used, but the inverter is expensive, and (b) pole number conversion of the motor is also expensive. Therefore, an object of the present invention is to provide a hot air blower using a high / low burner, which is 60 even in a 50 Hz region.
(EN) A motor control circuit that can be used even in the Hertz region and that can suppress noise and provide a necessary air volume.

In addition to the above problems, in a hot air heater equipped with a high / low burner, if the required amount at high output / low output is determined without rotation control, In the design, the air volume of the heater should match the value at high output. Therefore, when the output is low, the amount of air becomes larger than necessary, which causes problems of combustion failure due to supercooling of the can body of the heater and cold damage to the crop due to supply of cold air.

Further, there is a problem in noise countermeasures that the noise of the blower cannot be ignored when the air volume is set to a high output.

[0008]

The method of the present invention is a high
In the operation sequence of the hot-air heater (30) equipped with a row burner, low-speed combustion is performed by the star connection of the fan motor for low-power combustion and residual heat recovery, and high speed is achieved by the delta connection of the fan motor only for high-output combustion. Characterized by rotation, the room temperature sensor (2)
The room temperature is detected by, and when the temperature becomes lower than the set temperature of the warm air heater, combustion is started and the blower ON-OFF contact (21)
Turn on to connect the blower star operation electromagnetic switch (MCS) from the contact (22b) and start star operation. Burner motor contact (23), ignition transformer contact (24), low combustion valve contact (2
Turn on in the order of 5) to start ignition operation, if ignition is confirmed, turn off ignition transformer contact (24) and stop ignition transformer (IG), then start star operation, high combustion valve when room temperature falls Turn on the contact (26) to move to high combustion, contact (22b)
OFF and contact (22a) ON to shift to delta operation,
When the room temperature rises, the high combustion valve contact (26) is turned off, the contact (22a) is turned off, and the contact (22b) is turned on to return to star operation, and the room temperature rises further and becomes higher than the set temperature of the warm air heater. Then, the low combustion valve contact (25) is turned off to start the residual heat recovery operation, and then the burner motor contact (23) and the blower ON-OFF contact (21) are turned off to stop the operation of the warm air heater. Characterize.

[0009]

That is, in the present invention, in the control sequence of the hot air heater equipped with the high / low burner, the low speed rotation by the star connection is performed during the low power combustion and the residual heat recovery, and the delta connection is performed during the high power combustion. By performing high-speed rotation, the amount of air required at each time is given to the warm air heater to suppress noise generation.

[0010]

EXAMPLES The present applicant manufactures and sells the hot air heater used for heating the greenhouse for greenhouses shown in FIG. Fig. 3 (A) is a front sectional view of the hot air heater, and Fig. 3 (B) is the same figure.
In the side sectional view of (A), the reference numeral 30 with an arrow in the figure indicates an oil-fired hot air heater, 31 is a burner, 32 is a control panel, 33
Is a combustion chamber, 34 is a flame, 35 is a smoke pipe, 36 is a screw plate, 37 is a smoke chamber, 38 is a smoke chamber lid, 39 is a flue elbow, 40 is a chimney, 41 is a blower, 42 is an air intake port, 43 is Hot air outlet, 44
Is a current plate and 45 is a heat shield plate.

In the use of the warm air heater 30 shown in FIG. 3, the burner 31 mixes the spray of oil and the air and ejects the mixture to ignite the mixture to produce the flame 34. Combustion gas is smoke pipe 35, smoke chamber 37, chimney 40
While being discharged to the outside of the greenhouse as indicated by the white arrow I, the air in the greenhouse is taken into the warm air heater from the air suction port 42 by the rotation of the blower 41 as shown by the arrow II and burned. The warm air heated around the chamber 33 and the smoke pipe 35 is the hot air outlet 43.
Is supplied to the greenhouse in the direction of arrow III.

[0012] The applicant of the present invention has a high
We have developed a technology to install a rovers. FIG. 4 is a diagram for explaining the principle of the high / low burner, in which 3 is a CPU and 0.
1 is a low combustion signal outlet, 02 is a high combustion signal outlet, 10 is an air flow controller for adjusting the amount of combustion air, 11 is a burner fan, 12 is a fuel pump, and 13 is a nozzle.

The fuel pump 12 controls the amount of fuel supplied to the nozzle 13 according to whether the CPU 3 outputs a low combustion signal or a high combustion signal, and the air flow rate controller 10 controls the amount of combustion air (air flow rate). Is controlled and the burner fan 11 supplies it toward the nozzle 13. By controlling the amount of fuel and combustion air,
High (high) combustion and low (low) combustion are obtained.

A mechanism for outputting the high and low combustion signals is shown in FIG. 5, in which 1 is a temperature setting volume, 2 is a room temperature sensor, 3 is the CPU shown in FIG. 4, 4 is A / D 1, 5 Is A
/ D-2, 01 and 02 are the low combustion signal outlet and the high combustion signal outlet shown in FIG. 4, respectively, 6 is a low (low) combustion output relay, 7 is a row burner, 8 is a high (high) combustion output relay,
Reference numeral 9 is a high burner, and 6a and 8a are contact points of the low burner 7 and the high burner 9, respectively.

Analog signals from the temperature setting volume 1 and the room temperature sensor 2 are input to the CPU via the A / Ds 1 and 2, and the CPU 3 sets the room temperature detected by the room temperature sensor 2 and the input to the temperature setting volume. Depending on the difference with the temperature, a low combustion signal or a high combustion signal is output 01 or 0, respectively.
2 to the low combustion output relay 6 or the high combustion output relay 8. When the low (high) combustion output signal is output, the contact 6a (8a) is closed and the low burner 7 or the high burner 9 starts low or high combustion.

In the combustion of the high and low burners described above, the motor of the warm air heater makes a high speed rotation in the delta connection, and the above-mentioned problems occur accordingly.

A circuit used for carrying out the method of the present invention is shown in FIG. 1, and FIGS. 1A and 1B are diagrams of a control circuit and a power circuit, respectively, in which 2 is the room temperature shown in FIG. Sensor, 20 is a control circuit, 21 is a blower ON-OFF contact, 22a and 22b are star-delta switching contacts, 23 is a burner motor contact, 24 is an ignition transformer contact, 25 is a low combustion valve contact, 26 is a high combustion valve contact, and MCS is MCS. Is an electromagnetic switch for blower star operation, MCD
Is an electromagnetic switch for Delta operation of blower, BM is a burner motor, IG is an ignition transformer, OV1 is a low combustion valve, O
V2 is a high combustion valve, FM is a blower motor, ThD,
ThS is thermal, R, S, R1, S1, T1, U1,
V1, W1, X1, Y1, and Z1 are three-phase AC wires, and RS
The AC voltage between them was set to 200V.

FM is a blower motor, MCD is a blower delta connection operation electromagnetic switch, ThD is a thermal electric overcurrent relay (OCRD) thermal of MCD, MCS is a blower star connection operation electromagnetic switch, and ThS is an MCS. Thermal for thermal electric overcurrent relay (OCRS). In operation, the room temperature is detected by the room temperature sensor 2, and when the room temperature becomes equal to or lower than the set temperature of the heater, combustion starts. Contact 21 is turned on
From 22b, it connects to the blower star operation electromagnetic switch MCS and starts star operation.

When the MCS shown in FIG. 1 (A) operates, M in the figure
The contact of CS is closed, R1, S1, T1 of the three-phase AC power supply
Passes through ThD, enters the FM via U1, V1, and W1 terminals, is closed by MCS via ThS via the X1, Y1, and Z1 terminals, and the FM coil is star-connected.

When the MCD of FIG. 1 (A) operates, the contact of the MCD in the figure is closed, and R1 of the three-phase AC power supply is Th.
It is connected to the Y1 terminal via D and MCD. Similarly, S1 is connected to Z1 and T1 is connected to X1, and the coils of the FM are delta connected.

Burner motor contact 23, ignition transformer contact 2
4. Turn on the low combustion valve contact 25 in order to start the ignition operation. When ignition is confirmed, the ignition transformer contact 24 turns off.
Then, the ignition transformer stops and low combustion continues thereafter. At this time, continue star driving.

When the room temperature falls and the heating load becomes heavy as the outside air temperature decreases, the control circuit 20 turns on the high combustion valve contact 26.
And move to high combustion. At the same time, the contact 22b is turned off,
The contact 22a is turned on to shift to delta operation. As the combustion output increases, the airflow also increases and the heating capacity increases.

When the room temperature rises, the high combustion valve contact is turned off.
When the FF is turned on, the contact 22a is turned off and the contact 22b is turned on, the delta operation is changed to the star operation, and when the room temperature rises and becomes higher than the set temperature of the heater, the low combustion valve contact is turned off.
Set to F and start residual heat recovery operation. After that, the burner motor contact 23 and the blower ON-OFF contact are turned off to stop the operation.

Referring to the flow chart of FIG. 2, it is confirmed that the thermostat is turned on after the start of operation. If it is OFF, check that the thermostat is ON again. If it is ON, (i) Combustion start preliminary operation (prepurge) and fan star connection operation will start.

Next, the combustion start confirmation is entered. If No, the procedure returns to prepurge again, but if Yes, combustion operation is started.
At that time, confirm whether it is a low combustion condition or a high combustion condition.
If Yes, low combustion operation is started and the fan is star connected operation. Also, if the high combustion condition is Yes, the high combustion operation is performed, and the blower is in the delta connection operation.

Next, the process goes to the confirmation of the ON state of the thermostat, and if it is ON, the process returns to the confirmation of the low combustion condition again. If the thermostat is turned off, the fire is extinguished, the residual heat is recovered, and the blower operates in star connection. Thus, the driving ends. In this way, the blower is operated in delta connection only when the combustion condition is high combustion, and the star connection operation is performed during pre-purge, low combustion, and residual heat recovery.

The point is that in the control sequence of the warm air heater, low speed rotation is performed by star connection during low power combustion and residual heat recovery, and high speed operation is performed by delta connection only during high power combustion. The power circuit for the fan star delta operation described above is shown in the circuit diagram of FIG. 1 (B). In the figure, thermal ThS and ThD are safety devices for overcurrent detection of motors in star operation and delta operation, respectively.

[0028]

EFFECTS OF THE INVENTION Comparing the method of the present invention with the use of a conventional hot air heater equipped with a delta connection motor blower having a high / low burner, (1) except for high combustion, star connection operation is performed and the amount of blown air is appropriate. In addition, the generation of cold air is suppressed, the operating noise is reduced, and the noise of the blower is reduced. (2) During high combustion, Delta connection operation provides a large air volume and proper heating is performed. 3) During the entire combustion time, high speed rotation, which causes noise, can be suppressed to about 20%.

[Brief description of drawings]

FIG. 1 is a diagram of a circuit used to carry out the method of the present invention.
(A) is a diagram of a control circuit, and (B) is a power circuit diagram.

FIG. 2 is a flowchart showing the sequence of the method of the present invention.

FIG. 3 is a view of a warm air heater in which the method of the present invention is carried out, FIG. 3 (A) is a front sectional view, and FIG. 3 (B) is a side sectional view.

FIG. 4 is a block diagram showing the principle of a high / low burner.

FIG. 5 is a diagram using a partial block showing a circuit for a high / low burner.

[Explanation of symbols]

1 Temperature setting volume 2 Room temperature sensor 3 CPU 4 A / D ・ 1 5 A / D ・ 2 6 Low combustion output relay 6a Row burner contact 7 Row burner 8 High combustion output relay 8a High burner contact 9 High burner 01 Low combustion Signal outlet 02 High combustion signal outlet 10 Air flow controller 11 Burner fan 12 Fuel pump 13 Nozzle 20 Control circuit 21 Blower ON-OFF contact 22a, 22b Blower star delta switching contact 23 Burner motor contact 24 Ignition transformer contact 25 Low combustion valve contact 26 High combustion valve contact 30 Hot air heater 31 Burner 32 Control panel 33 Combustion chamber 34 Flame 35 Smoke tube 36 Screw plate 37 Smoke chamber 38 Smoke chamber lid 39 Flue elbow 40 Chimney 41 Blower 42 Air inlet 43 Warm air outlet 44 Straightening plate 45 Heat shield OCRD, OCRS Thermal electric overcurrent relay R, S, R1, S1, T1, U1, V1, W1, X1, Y
1, Z1 three-phase AC power supply MCS blower star connection operation electromagnetic switch MCD blower delta connection operation electromagnetic switch BM burner motor IG ignition transformer OV1 low combustion valve OV2 high combustion valve FM blower motor (motor) ThD, ThS thermal

─────────────────────────────────────────────────── ───

[Procedure amendment]

[Submission date] October 5, 1992

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction content]

[Document name] Statement

Patent application title: Blower control method for hot air heater

[Claims]

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a blower control method for a hot air heater, and more particularly to a blower with a star delta connection in a high (Hi) / low state.
(Lo) Installed on a hot air machine equipped with a burner, high speed rotation large air volume by delta connection during burner high (high) combustion, and low
(Low) This relates to a method for reducing the low-speed rotation small air volume by star connection during combustion and residual heat recovery operation.

In a hot-air heater for a greenhouse for greenhouses,
The blower's electric motor is star-connected or delta-connected to prevent noise, and the burner's combustion method is high-low delta connection operation with variable output without switching the fuel oil amount. It is a control method that controls the noise of the hot air blower and adjusts the air volume as a low combustion star connection operation.

[0003]

2. Description of the Related Art In a conventional warm air blower for greenhouses for facilities and gardening, rotation control of a blower is not performed. However, when the rotation control is indispensable, an inverter is used or the number of poles of the motor coil is converted, and in some cases, measures such as controlling the number of warm air blowers are taken.

[0004]

When rotation control is not performed, (a) design a motor with a blower capacity applied to both the 50 Hz region and the 60 Hz region where the power supply frequency is incorporated into the heater. If this is done, the design is complicated, and even if such a design is made, there is a problem that the air volume is insufficient in the 50-hertz area, while the air volume is large in the 60-hertz area and the noise is large. Therefore, (b) Covering the blower for the purpose of noise reduction increases the cost.

Therefore, when trying to control the rotation,
Ideally, (a) an inverter is used, but the inverter is expensive, and (b) pole number conversion of the motor is also expensive. Therefore, an object of the present invention is to provide a hot air blower using a high / low burner, which is 60 even in a 50 Hz region.
(EN) A motor control circuit that can be used even in the Hertz region and that can suppress noise and provide a necessary air volume.

In addition to the above problems, in a hot air heater equipped with a high / low burner, if the required amount at high output / low output is determined without rotation control, In the design, the air volume of the heater should match the value at high output. Therefore, when the output is low, the amount of air becomes larger than necessary, which causes problems of combustion failure due to supercooling of the can body of the heater and cold damage to the crop due to supply of cold air.

Further, there is a problem in noise countermeasures that the noise of the blower cannot be ignored when the air volume is set to a high output.

[0008]

The method of the present invention is a high
In the operation sequence of the hot-air heater (30) equipped with a row burner, low-speed combustion is performed by star connection operation of the fan motor for low-power combustion and residual heat recovery, and delta-connection operation of the fan motor is performed only for high-power combustion. The room temperature sensor (2) detects the room temperature, starts combustion when the temperature is lower than the set temperature of the warm air heater, and turns the blower ON-OFF.
Turn on the contact (21) and connect the blower star connection operation electromagnetic switch (MCS) from the contact (22b) to start the star connection operation. Burner motor contact (23), ignition transformer contact (24), low combustion valve When the contacts (25) are turned on in order to start the ignition operation, and when ignition is confirmed, the ignition transformer contact (24) is turned off and the ignition transformer (IG) is stopped. After that, star connection operation is performed and the room temperature drops. The high combustion valve contact (26) is turned on to move to high combustion, the contact (22b) is turned off, the contact (22a) is turned on to shift to delta connection operation, and when the room temperature rises, the high combustion valve contact (26) is turned on. Turn off the contact (22a), turn off the contact (2a)
2b) is turned on to return to the star connection operation, and when the room temperature further rises and becomes higher than the set temperature of the hot air heater, the low combustion valve contact (25) is turned off and the residual heat recovery operation is started, after which the burner motor contact is contacted. (23), blower ON-OFF contact
(21) is turned off to stop the operation of the warm air heater.

[0009]

That is, in the present invention, in the control sequence of the hot air heater equipped with the high / low burner, the low speed rotation is performed by the star connection operation during the low power combustion and the residual heat recovery, and the delta connection is performed during the high power combustion. By performing high-speed rotation during operation, the amount of air required at each time is given to the warm air heater to suppress noise generation.

[0010]

EXAMPLES The present applicant manufactures and sells the hot air heater used for heating the greenhouse for greenhouses shown in FIG. Fig. 3 (A) is a front sectional view of the hot air heater, and Fig. 3 (B) is the same figure.
In the side sectional view of (A), the reference numeral 30 with an arrow in the figure indicates an oil-fired hot air heater, 31 is a burner, 32 is a control panel, 33
Is a combustion chamber, 34 is a flame, 35 is a smoke pipe, 36 is a screw plate, 37 is a smoke chamber, 38 is a smoke chamber lid, 39 is a flue elbow, 40 is a chimney, 41 is a blower, 42 is an air intake port, 43 is Hot air outlet, 44
Is a current plate and 45 is a heat shield plate.

In the use of the warm air heater 30 shown in FIG. 3, the burner 31 mixes the spray of oil and the air and ejects the mixture to ignite the mixture to produce the flame 34. Combustion gas is smoke pipe 35, smoke chamber 37, chimney 40
While being discharged to the outside of the greenhouse as indicated by the white arrow I, the air in the greenhouse is taken into the warm air heater from the air suction port 42 by the rotation of the blower 41 as shown by the arrow II and burned. The warm air heated around the chamber 33 and the smoke pipe 35 is the hot air outlet 43.
Is supplied to the greenhouse in the direction of arrow III.

[0012] The applicant of the present invention has a high
We have developed a technology to install a rovers. FIG. 4 is a diagram for explaining the principle of the high / low burner, in which 3 is a CPU and 0.
1 is a low combustion signal outlet, 02 is a high combustion signal outlet, 10 is an air flow controller for adjusting the amount of combustion air, 11 is a burner fan, 12 is a fuel pump, and 13 is a nozzle.

The fuel pump 12 controls the amount of fuel supplied to the nozzle 13 according to whether the CPU 3 outputs a low combustion signal or a high combustion signal, and the air flow rate controller 10 controls the amount of combustion air (air flow rate). Is controlled and the burner fan 11 supplies it toward the nozzle 13. By controlling the amount of fuel and combustion air,
High (high) combustion and low (low) combustion are obtained.

A mechanism for outputting the high and low combustion signals is shown in FIG. 5, in which 1 is a temperature setting volume, 2 is a room temperature sensor, 3 is the CPU shown in FIG. 4, 4 is A / D 1, 5 Is A
/ D-2, 01 and 02 are the low combustion signal outlet and the high combustion signal outlet shown in FIG. 4, respectively, 6 is a low (low) combustion output relay, 7 is a row burner, 8 is a high (high) combustion output relay,
Reference numeral 9 is a high burner, and 6a and 8a are contact points of the low burner 7 and the high burner 9, respectively.

Analog signals from the temperature setting volume 1 and the room temperature sensor 2 are input to the CPU via the A / Ds 1 and 2, and the CPU 3 sets the room temperature detected by the room temperature sensor 2 and the input to the temperature setting volume. Depending on the difference with the temperature, a low combustion signal or a high combustion signal is output 01 or 0, respectively.
2 to the low combustion output relay 6 or the high combustion output relay 8. When the low (high) combustion output signal is output, the contact 6a (8a) is closed and the low burner 7 or the high burner 9 starts low or high combustion.

In the combustion of the high and low burners described above, the motor of the warm air heater makes a high speed rotation in the delta connection, and the above-mentioned problems occur accordingly.

A circuit used for carrying out the method of the present invention is shown in FIG. 1, and FIGS. 1A and 1B are diagrams of a control circuit and a power circuit, respectively, in which 2 is the room temperature shown in FIG. Sensor, 20 is a control circuit, 21 is a blower ON-OFF contact, 22a and 22b are star-delta switching contacts, 23 is a burner motor contact, 24 is an ignition transformer contact, 25 is a low combustion valve contact, 26 is a high combustion valve contact, and MCS is MCS. Is an electromagnetic switch for blower star connection operation, M
CD is an electromagnetic switch for blower delta connection operation, BM is a burner motor, IG is an ignition transformer, OV1 is a low combustion valve, OV2 is a high combustion valve, FM is a blower motor, T
hD and ThS are thermal, R, S, R1, S1, T1,
U1, V1, W1, X1, Y1, and Z1 are three-phase AC wires, and the AC voltage between RS is set to 200V.

FM is a blower motor, MCD is a blower delta connection operation electromagnetic switch, ThD is a thermal electric overcurrent relay (OCRD) thermal of MCD, MCS is a blower star connection operation electromagnetic switch, and ThS is an MCS. Thermal for thermal electric overcurrent relay (OCRS). In operation, the room temperature is detected by the room temperature sensor 2, and when the room temperature becomes equal to or lower than the set temperature of the heater, combustion starts. Contact 21 is turned on
22b connects to the blower star connection operation electromagnetic switch MCS and starts star connection operation.

When the MCS shown in FIG. 1 (A) operates, M in the figure
The contact of CS is closed, R1, S1, T1 of the three-phase AC power supply
Passes through ThD, enters the FM via U1, V1, and W1 terminals, is closed by MCS via ThS via the X1, Y1, and Z1 terminals, and the FM coil is star-connected.

When the MCD of FIG. 1 (A) operates, the contact of the MCD in the figure is closed, and R1 of the three-phase AC power supply is Th.
It is connected to the Y1 terminal via D and MCD. Similarly, S1 is connected to Z1 and T1 is connected to X1, and the coils of the FM are delta connected.

Burner motor contact 23, ignition transformer contact 2
4. Turn on the low combustion valve contact 25 in order to start the ignition operation. When ignition is confirmed, the ignition transformer contact 24 turns off.
Then, the ignition transformer stops and low combustion continues thereafter. At this time, continue star connection operation.

When the room temperature falls and the heating load becomes heavy as the outside air temperature decreases, the control circuit 20 turns on the high combustion valve contact 26.
And move to high combustion. At the same time, the contact 22b is turned off,
Turns on the contact 22a to shift to delta connection operation. As the combustion output increases, the airflow also increases and the heating capacity increases.

When the room temperature rises, the high combustion valve contact is turned off.
FF, contact 22a is turned off, contact 22b is turned on, delta connection operation → star connection operation, and when the room temperature rises above the set temperature of the heater, the low combustion valve contact is turned off and the residual heat Enter recovery operation. After that, the burner motor contact 23 and the blower ON-OFF contact are turned off to stop the operation.

Referring to the flow chart of FIG. 2, it is confirmed that the thermostat is turned on after the start of operation. If it is OFF, check that the thermostat is ON again. If it is ON, (i) Combustion start preliminary operation (prepurge) and fan star connection operation will start.

Next, the combustion start confirmation is entered. If No, the procedure returns to prepurge again, but if Yes, combustion operation is started.
At that time, confirm whether it is a low combustion condition or a high combustion condition.
If Yes, low combustion operation is started and the fan is star connected operation. Also, if the high combustion condition is Yes, the high combustion operation is performed, and the blower is in the delta connection operation.

Next, the process goes to the confirmation of the ON state of the thermostat, and if it is ON, the process returns to the confirmation of the low combustion condition again. If the thermostat is turned off, the fire is extinguished, the residual heat is recovered, and the blower operates in star connection. Thus, the driving ends. In this way, the blower is operated in delta connection only when the combustion condition is high combustion, and the star connection operation is performed during pre-purge, low combustion, and residual heat recovery.

The point is that in the control sequence of the warm air heater, low speed rotation is performed by star connection during low power combustion and residual heat recovery, and high speed operation is performed by delta connection only during high power combustion. The power circuit for the fan star connection operation and the delta connection operation described above is shown in the circuit diagram of FIG. 1 (B). In the figure, thermal ThS and ThD are safety devices for overcurrent detection of motors for star connection operation and delta connection operation, respectively.

[0028]

EFFECTS OF THE INVENTION Comparing the method of the present invention with the use of a conventional hot air heater equipped with a delta connection motor blower having a high / low burner, (1) except for high combustion, star connection operation is performed and the amount of blown air is appropriate. In addition, the generation of cold air is suppressed, the operating noise is reduced, and the noise of the blower is reduced. (2) During high combustion, Delta connection operation provides a large air volume and proper heating is performed. 3) During the entire combustion time, high speed rotation, which causes noise, can be suppressed to about 20%.

[Brief description of drawings]

FIG. 1 is a diagram of a circuit used to carry out the method of the present invention.
(A) is a diagram of a control circuit, and (B) is a power circuit diagram.

FIG. 2 is a flowchart showing the sequence of the method of the present invention.

FIG. 3 is a view of a warm air heater in which the method of the present invention is carried out, FIG. 3 (A) is a front sectional view, and FIG. 3 (B) is a side sectional view.

FIG. 4 is a block diagram showing the principle of a high / low burner.

FIG. 5 is a diagram using a partial block showing a circuit for a high / low burner.

[Explanation of symbols] 1 Temperature setting volume 2 Room temperature sensor 3 CPU 4 A / D ・ 1 5 A / D ・ 2 6 Low combustion output relay 6a Row burner contact 7 Row burner 8 High combustion output relay 8a High burner contact 9 High burner 01 Low combustion signal outlet 02 High combustion signal outlet 10 Air flow controller 11 Burner fan 12 Fuel pump 13 Nozzle 20 Control circuit 21 Blower ON-OFF contact 22a, 22b Blower star-delta switching contact 23 Burner motor contact 24 Ignition transformer contact 25 Low combustion valve contact 26 High combustion valve contact 30 Hot air heater 31 Burner 32 Control panel 33 Combustion chamber 34 Flame 35 Smoke pipe 36 Screw plate 37 Smoke chamber 38 Smoke chamber lid 39 Flue elbow 40 Chimney 41 Blower 42 Air intake 43 Temperature Wind outlet 44 Straightening plate 45 Heat shield OCRD, OCRS Thermal electric overcurrent relay R, S, R1, S1, T1, U1, V1, W1, X1, Y
1, Z1 three-phase AC power supply MCS blower star connection operation electromagnetic switch MCD blower delta connection operation electromagnetic switch BM burner motor IG ignition transformer OV1 low combustion valve OV2 high combustion valve FM blower motor (motor) ThD, ThS thermal

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Shuichi Harada 411 Kamikosawa, Atsugi City, Kanagawa Pref. Atsugi Plant

Claims (2)

[Claims] 1. A hot air heater equipped with a high / low burner.
In the operation sequence of (30), low-speed combustion and residual heat recovery perform low-speed rotation by the star connection of the blower motor, and high-speed combustion performs high-speed rotation by the delta connection of the blower motor only. Blower control method for hot air heater. 2. The room temperature is detected by the room temperature sensor (2), combustion is started when the temperature becomes lower than the set temperature of the warm air heater, and the blower ON-OFF contact (21) is turned on to start from the contact (22b). Start the star operation by connecting it to the blower star operation electromagnetic switch (MCS), and turn on the burner motor contact (23), ignition transformer contact (24), and low combustion valve contact (25) in this order to start the ignition operation and ignition. When it is confirmed, the ignition transformer contact (24) is turned off, the ignition transformer (IG) is stopped, and after that, star operation is performed, and when the room temperature falls, the high combustion valve contact (26) is turned on and high combustion is started, The contact (22b) is turned off, the contact (22a) is turned on, and the delta operation is started. When the room temperature rises, the high combustion valve contact (26) is turned off, the contact (22a) is turned off, and the contact (22b) is turned on. Back to star operation, the room temperature rises further and becomes higher than the set temperature of the warm air heater. Then, the low combustion valve contact (25) is turned off and the residual heat recovery operation is started, and then the burner motor contact (23) and the blower ON-OFF
A blower control method for a warm air heater, comprising: turning off a contact (21) to stop the operation of the warm air heater.