JP2560584B2 - Combustion device fan speed automatic switching device - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic rotation speed switching device for a combustion air fan in a combustion device.

[0002]

2. Description of the Related Art A conventional method for automatically switching the number of revolutions of a combustion air fan in a conventional combustion apparatus is disclosed in Japanese Patent Laid-Open No. 2084/1990.
There is an example of Japanese Patent No. 14 publication. In this example, the fan is operated at a preset test operation speed, the drive voltage output from the fan drive circuit is compared with the appropriate voltage at the test operation speed, and the appropriate value is calculated in the rotation speed calculation unit. Two types of rotation speed characteristics were selected according to the magnitude relationship, and the target rotation speed was calculated according to the fuel gas amount and output was performed alternatively.

[0003]

However, in the conventional fan rotation speed automatic switching device, the target rotation speed is controlled according to the amount of fuel gas. However, the fan rotation speed characteristic is set to two types, Hi and Low. Due to the limitation, when the length of the air supply / exhaust pipe of the equipment differs depending on the installation site, the fan rotation speed characteristic has a drawback that it cannot meet all the conditions of the air supply / exhaust pipe. For this reason, an appropriate amount of air cannot be obtained especially when the gas combustion appliance is ignited, which causes ignition delay. In view of this, the present invention aims to provide an automatic fan rotation speed switching device for a combustion device that can handle all supply / exhaust cylinder conditions, and particularly to prevent ignition delay.

[0004]

In order to solve the above-mentioned problems, the present invention is a combustion apparatus equipped with a fan for combustion air and a fan motor for driving the fan, and a proper fan for the combustion apparatus. A calculation unit for calculating the rotation speed and the fan motor drive voltage, a correction unit for correcting the fan rotation speed and the fan motor drive voltage calculated by the calculation unit, and a fan rotation speed corrected by the correction unit are set. A fan rotation speed setting unit, a fan motor drive voltage setting unit that sets the fan motor drive voltage corrected by the correction unit, a fan motor drive voltage detection unit that detects the fan motor drive voltage, and a fan rotation speed. And a fan drive voltage in two consecutive stable periods of the fan rotation speed after combustion ignition, and the fan rotation speed during combustion ignition and It is characterized in that a correction unit for correcting the § emission driving voltage.

[0005]

The corrector is provided to correct the fan rotation speed and the fan drive voltage at the time of combustion ignition by the fan rotation speed and the fan drive voltage in two consecutive stable periods of the fan rotation speed after combustion ignition. The fan rotation speed and the fan drive voltage are obtained, and an appropriate air volume can be obtained when the combustion device is ignited, ignition delay can be prevented, and proper combustion ignition can be obtained under all supply / exhaust cylinder conditions.

[0006]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A combustion apparatus 1 to which the automatic fan rotation speed switching method of the present invention shown in FIG.
A heat exchanger 3 is arranged inside and a burner 4 is arranged below, a fan box 5 is connected to the lower part of the combustion chamber 2, and a fan 6 and a DC fan motor 7 are installed in the fan box 5. The intake side of the fan box 5 is connected to a supply cylinder 9 of a double supply / exhaust cylinder via an air supply duct 8, and an exhaust cylinder 10 of the double supply / exhaust cylinder is connected to the upper end of the combustion chamber 2.

FIG. 2 is a block diagram of the sequence controller. The detection signal from the remote control unit 29 such as a remote controller is fed back to the sequence controller 21 and is passed through the fan motor drive circuit 30 to the fan motor 7.
The detection signal is sent to the fan motor 7 to turn it on.
It controls OFF, and the ON-OFF signal of the fan motor 7 is fed back to the sequence controller 21.
The rotation speed of the fan motor 7 is detected by the fan rotation speed detection unit 28 and fed back to the sequence controller 21. The drive voltage of the fan motor 7 is detected by the fan motor drive voltage detector 27 and fed back to the sequence controller 21. The fan motor drive voltage and the fan speed obtained in 27 and 28 are
If the fan drive voltage and the fan rotation speed according to the supply / exhaust cylinder conditions are set for the first time, they are transmitted to the first time setting unit 22, and the fan rotation speed and the fan driving voltage set by the first time setting unit 22 are set. 25 and fan mode
The fan motor 7 is transmitted to the motor drive voltage setting unit 26 and fed back to the sequence controller 21 to drive the fan motor 7 at a preset fan rotation speed and fan drive voltage.

Further, the fan motor drive voltage and the fan rotation speed obtained by the fan motor drive voltage detection unit 27 and the fan rotation speed detection unit 28 are the fan drive voltage and the fan rotation speed according to the supply / exhaust cylinder conditions. If the setting is not the first time, it is transmitted to the calculation unit 23 to calculate an appropriate fan rotation speed and fan drive voltage, and based on the result obtained by the calculation unit 23, the correction unit 24 calculates an appropriate fan rotation speed and The fan drive voltage is corrected, and the corrected fan rotation speed and fan drive voltage are sent to the fan rotation speed setting unit 25 and the fan motor drive voltage setting unit 26, and are sent to the sequence controller 21.
The fan motor 7 is driven back with the corrected fan rotation speed and fan drive voltage.

FIG. 3 shows the relationship between the number of revolutions (rpm) of the fan motor 7 and the elapsed time (in seconds) during combustion. Area is burner 4 after turning on fan motor 7
Shows the change in the fan speed until the ignition occurs, the region of indicates the first stable period of the fan revolution after the burner 4 is ignited, and the region of is the fan revolution after the burner 4 is ignited. Shows the second stable period of. Here, t ₁ is the detection time required to detect that it is in the stable period, and is set to the same time t ₁ in and.

FIG. 4 is a graph showing the relationship between the drive voltage of the fan motor 7 and the rotation speed. The fan drive voltage V (volt) and the fan rotation speed R (rpm) are V = a.
When the relationship between the fan rotation speed and the fan drive voltage set in the initial setting unit 22 is represented by the straight line A, which is represented by the expression R + b (a and b are arbitrary constants), the straight line is obtained by the sequence in FIG. It changes to A ′ and A ″. The slopes of the straight lines A and A ′ and A ″ are arbitrary values.

FIG. 5 is a correction flowchart showing the contents of the present invention. That is, the step of determining whether the correction of the fan drive voltage and the fan rotation speed is the first time (S1).
In the case of the first time, whether or not the burner 4 is ignited by rotating the fan based on the relationship between the fan rotational speed and the fan drive voltage set in the initial setting unit 22 (S2) and entering the ignition sequence. Step (S3) is entered, and the burner 4
Gradually increase the fan speed until it ignites. When the burner 4 is ignited in step 3, a step (S4) for determining whether or not the fan rotation speed in the first stable period is stable for a fixed time t ₁ (seconds) is entered, and if t ₁ (seconds) is stabilized. The fan rotation speed R ₁ and the fan drive voltage V ₁ in the first stable period are stored (S5).

When step 5 is completed, the fan rotation speed is constant for a predetermined time t ₁ in the second stable period after the burner 4 is ignited.
(Second) The step (S6) for judging whether or not it is stable is entered, and when t ₁ (second) elapses, the fan rotation speed R ₂ and the fan drive voltage V ₂ in the second stable period are stored (S7).
When step 7 is completed, the two expressions obtained by (S5) and (S7), that is, V ₁ = aR ₁ + b and V ₂ = aR ₂
The equation for solving + b is solved to determine a and b (S
8) The fan rotation speed and the fan drive voltage for the next combustion are determined, and the fan rotation speed and the fan drive voltage are corrected (S9).

After step 9, the process returns to step 1 again, and if the correction of the fan rotation speed and the fan drive voltage is the second or later, the fan is operated with the corrected fan rotation speed and the fan drive voltage (S10). -Enter the can. In the sequence after step 10, the fan rotation speed and the fan drive voltage at the time of ignition are always corrected by repeating the sequence of the above steps 3 to 9 again.

In short, the present invention detects the fan drive voltage and the fan rotation speed during two consecutive stable periods of the fan rotation speed after ignition (a period in which the fan rotation speed is maintained at a constant rotation speed for a certain period of time). This value is used to focus on smooth ignition of the gas burner at the time of ignition, and the fan speed and fan drive voltage at the next ignition are corrected from the fan speed and fan drive voltage after ignition. It was made to learn by doing.

[0015]

According to the present invention, the fan rotation speed and the fan drive voltage at the time of combustion ignition are corrected by the fan rotation speed and the fan drive voltage in two consecutive stable periods after ignition of the burner. As described above, the fan speed characteristic is not limited to two types, and the fan control of the combustor is always performed with the optimum fan speed and fan drive voltage to satisfy all supply / exhaust cylinder conditions. It was possible to prevent the occurrence.

[Brief description of drawings]

FIG. 1 is a schematic view showing an example of a combustion appliance to which the present invention is applied.

FIG. 2 is a block configuration diagram of a sequence controller.

FIG. 3 is a graph showing the relationship between fan rotation speed and time during and after ignition in combustion.

FIG. 4 is a graph showing a relationship between a fan rotation speed and a fan drive voltage during combustion.

FIG. 5 is a flowchart showing the contents of control of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Combustion device 6 Fan 7 Fan motor 23 Calculation part 24 Correction part 25 Fan rotation speed setting part 26 Fan drive voltage setting part 27 Fan motor drive voltage detection part 28 Fan rotation speed detection part

Claims (1)

(57) [Claims] 1. A combustion device comprising a combustion air fan and a fan motor for driving the fan, wherein the combustion device comprises a calculation unit for calculating an appropriate fan rotation speed and fan motor drive voltage. A correction unit for correcting the fan rotation speed and the fan motor driving voltage calculated by the calculation unit, a fan rotation speed setting unit for setting the fan rotation speed corrected by the correction unit, and a fan motor corrected by the correction unit. In a fan motor drive voltage setting unit for setting the motor drive voltage, a fan motor drive voltage detection unit for detecting the fan motor drive voltage, and a fan rotation speed detection unit for detecting the fan rotation speed, A correction unit that corrects the fan rotation speed and the fan drive voltage at the time of combustion ignition by the fan rotation speed and the fan drive voltage in two consecutive stable periods of the fan rotation speed after the combustion ignition. An automatic fan rotation speed switching device for a combustion device, which is provided with.