JP3384232B2 - Blower control device and hot air heater control device - Google Patents

Description

Detailed Description of the Invention

[0001]

The present invention relates to relates to a control device of the warm air heater control device, and the like fan heater blower for varying the rotational speed of the multi-stage which is set the rotational speed in advance.

[0002]

2. Description of the Related Art Generally, a hot-air heater such as an oil fan heater has a variable combustion level depending on the room temperature so that good combustion can be obtained over a wide range. FIG. 8 is a control block diagram of the warm air heater disclosed in Japanese Patent Application Laid-Open No. 62-59312, in which 1 is a room temperature detecting unit for detecting the room temperature through an indoor temperature detecting element 2 and 3 is the room temperature. A temperature setting unit 4 for setting by a person, a comparing unit 4 for comparing outputs from the both, and a combustion amount determining unit 5 for determining a combustion amount based on the output from the comparing unit 4, a blower motor 6 The output is sent to the rotation speed control unit 7 and the frequency control unit 9 of the electromagnetic pump 8. The rotation speed control unit 7 of the blower motor 6 receives this output and outputs a predetermined output to the blower motor drive circuit 1
The blower motor 6 is driven at a predetermined rotation speed via 0a. Then, the rotation speed detection unit 11 detects the rotation speed,
The difference from the set rotation speed is fed back to the rotation speed control unit 7 so that the rotation speed is always kept at the set rotation speed.

On the other hand, when the frequency control unit 9 of the electromagnetic pump 8 receives the output from the combustion amount determining unit 5, it changes the pump drive frequency to a predetermined value and supplies it to the electromagnetic pump drive circuit 12 to drive the electromagnetic pump 8. To drive. Reference numeral 13 is an air flow rate determination unit that determines the air flow rate of the warm air blower 14 based on the output from the comparison unit 4, and 15 is switched to a predetermined rotational speed based on the output from the air flow rate determination unit 13. The rotation speed control unit is composed of a phase angle control circuit. A blower drive circuit 16 receives the output from the rotation speed control unit 15 and rotates the blower 14.

Reference numeral 17 denotes a power supply voltage detector for smoothing and always detecting the power supply voltage, and correcting the rotation speed to the initial rotation speed when the smoothed detection voltage becomes equal to or lower than a preset voltage. A rotation speed correction unit 18 that applies a speed is provided, and an output is supplied to the rotation speed control unit 15 of the blower 14 together with the air flow rate determination unit 13. In this way, the conventional hot air heater smoothes and detects the power supply voltage,
The rotation speed of the blower 14 is corrected by the change in the smoothed power supply voltage, and the change in the rotation speed with respect to the change in the power supply voltage is suppressed.

[0005]

However, in this type, the power supply voltage detecting unit 17 steps down the AC power supply voltage by the step-down transformer, rectifies it by the rectifying diode, and detects the smoothed voltage by the smoothing capacitor. Therefore, the load on the secondary side of the step-down transformer is directly affected and changes. Also, due to the tolerance of the secondary side rated voltage of the step-down transformer, there is a change in the detected voltage depending on the individual heaters, and it is not possible to correct the rotation speed properly, the temperature of the heat exchange part rises, the exhaust gas characteristics deteriorate, and the blowout temperature is increased. There was a problem with the rise in wind temperature.

The present invention has solved the above-mentioned conventional problems and has an object to eliminate fluctuations in the number of revolutions of the blower due to fluctuations in the power supply voltage and to make exhaust gas characteristics and blown-out hot air temperature constant.

[0007]

The present invention SUMMARY OF THE INVENTION comprises a sensing element for <br/> detecting the temperature of the chamber, and blower speed is adjustable to provide the rotation speed of the blower based on the output of the sensing element in advance In a blower control device including a blower control unit that can change the set number of rotation speeds, the blower control unit performs full-wave rectification of the power supply voltage and a reference voltage near its zero crossing.
A pulse generator that generates a pulse by pressure and a pulse generator
Pulse width detection to detect changes in the pulse width generated by
Section and the output of the pulse width detection section
Adjust the number of revolutions to the previously set number of revolutions.
And a correct rotation number correction unit .

Further, according to the present invention, there is provided a temperature detecting element for detecting the temperature inside the room, an air control section for changing the rotational speed of a blower motor for supplying combustion air to the combustor based on the output of the temperature detecting element, and the temperature mentioned above. The air control unit has a fuel control unit that varies the fuel supplied to the combustor based on the output of the detection element, and the air control unit detects a rotation speed of the blower motor and a rotation speed detection unit of the rotation speed detection unit. A blower control unit for warm air, which has a rotation speed control unit that performs feedback control of the rotation speed based on a signal, and is variable to a preset number of rotation speeds according to the combustion state of the combustor. and the control device of the warm air heater, the ventilator control unit is full-wave rectified supply voltage, in the vicinity of the zero-crossing
A pulse generator that generates a pulse with a reference voltage , and a pulse
A pulse that detects changes in the width of the pulse generated by the generator
Air is blown based on the output from the width detector and the pulse width detector.
The speed of the machine will be the preset speed.
And a rotation speed correction unit for performing such correction .

[0009]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiment 1. Hereinafter, as a first embodiment of the present invention, a controller for a hot air heater will be described.
1 to 5 will be described with reference to FIGS. 1 to 5.
The same parts as those of the conventional example are denoted by the same reference numerals and the description thereof is omitted.
Only the part will be explained. 19 full-wave rectifies the power supply voltage,
Pulse generator that generates a pulse near the zero cross
And the width of the pulse generated from this pulse generator 19.
The output from the pulse width detection unit 20 that detects the change in
And the rotation speed correction unit 18 that corrects the rotation speed of the blower 14
Both the air volume determination unit 13 and the rotation speed control unit 15 of the blower 14
To supply the output to.

The air flow rate determination unit 13 and the rotation speed control unit 1
5, blower drive circuit 16, pulse generator 19, pulse width
The detection unit 20 and the rotation speed correction unit 18 form a blower control unit 21.
Is made. In addition, 22 is a room temperature detection unit 1, a temperature setting unit
3, comparison unit 4, combustion amount determination unit 5, rotation speed control unit 7, frequency
Number control unit 9, air flow rate determination unit 13, rotation speed control unit 15, times
The switching number correction unit 18 and the pulse width detection unit 20
It is a black computer.

The following is a diagram showing the configuration for the rotation speed correction.
2 will be explained using 23 as an AC power supply and 24 as a down power supply.
Pressure transformer, 25 is a diode bridge for full-wave rectification, 2
6 is a pulse generating circuit, 27a is an SSR phototrier.
27c is a photodiode section of the SSR,
28 and 29 are snubber circuits for circuit protection, and 30 is a limiting resistance.
31 drive SSR photodiode 27b
Ru buffer der for. 18a is a rotation speed correction unit 18
A rotation speed correction calculation unit in the inside, 20a is a pulse width detection unit 20
It is a calculation unit for pulse width detection.

In the above structure, the temperature detecting element 2
The detected temperature is in proportion to the temperature set by the temperature setting unit 3.
The calculation is made by comparison, and the optimum combustion amount and blown air amount are determined.
Then, the rotation of the blower motor 6 is determined by determining the combustion amount.
The number and the driving frequency of the electromagnetic pump 8 are determined.
It drives through these drive circuits 10a and 12. Also,
The number of rotations of the blower 14 is also determined by the above determination of the blown air amount.
Is driven.

Here, the blower 14 has a pulse generator 1
The pulse width detection unit 20 outputs the pulse width
Blower drive circuit
Driven through 16.

Hereinafter, the rotation speed correction operation of the blower 14 will be described.
I will explain about it. First, the power supply voltage V _X is the actual value in FIG.
As shown by the line, if normal, step down with transformer 24
The generated AC voltage is generated by the full-wave rectifier diode 25 in FIG.
As shown by the solid line, full-wave rectification is performed and the pulse generation circuit 26
Shows the pulse width T at the reference voltage V near zero cross
A pulse shown by a solid line of 3C is generated.

On the other hand, the power supply voltage is as shown by the broken line in FIG.
When it drops to V _X1 , the pulse from the pulse generation circuit 26
The loose width is T _{1 as} shown by the broken line in FIG. 3C , and T <T
_Since it becomes ₁ , the calculation unit 20a for pulse width detection in FIG.
5 measures the pulse width in step 32 of FIG.
Change in pulse width T at power supply voltage V _X under normal conditions
The amount Δt is calculated, and this value is stored in the rotation speed correction calculation unit 18a.
Output. In the rotational speed correction calculation unit 18a, the value of Δt
The phase angle is determined in step 36, and the blower 14 is rotated.
Correct the number. In this case, as shown in FIG.
Corrected to have a phase angle θ _X1 smaller than the phase angle θ _X
And the speed of the blower 14 will be the normal speed.
I will

As is clear from the above description, the above-mentioned configuration
Then, the power supply voltage is full-wave rectified to generate pulses,
Since the fluctuation of power supply voltage is detected by the change of pulse width,
Load fluctuations and rated voltage variations on the secondary side of the transformer 24
Even if the power waveform is distorted by external noise,
The rotation speed of the wind blower 14 can be kept almost constant at all times.
As a result, the exhaust gas characteristics deteriorate, and the temperature of the hot air blown out is high.
You can get a constant warm air without becoming
To provide a safe and comfortable hot air heater
You can

Further , in the case where there is no fluctuation in the power supply voltage or in FIG.
As shown in Fig. 7 and the fluctuation of the secondary load of the step-down transformer 24
Secondary voltage due to the tolerance of the rated voltage of the step-down transformer 24
Due to variations in voltage, the power supply voltages V _X2 and V _X3 are
Near the reference voltage V and the waveform near the reference voltage V
Since the pulse width T does not change, the rotation speed of the blower 14 does not change.
No correction is made.

On the other hand, when the power supply voltage is higher than normal
Since the pulse width T is narrower than in the normal state, rotation
The number correction unit 18 has a phase angle larger than the normal phase angle θ _X.
When the rotation speed of the blower 14 is normal,
To be the same as.

The magnitude of the change Δt in the pulse width T
From the characteristics of the rotation speed of the blower 14 in advance
(B) There are various types of rotation speed correction calculation units 18a of the computer 22.
By storing the data of
It is possible to follow various fluctuations and always obtain a constant rotation speed.
Can be configured.

In the first embodiment, the hot air heater is
Take the case of correcting the rotation speed of a blower for warm air as an example
Although described, the present invention is not limited to the warm air heater,
Everything that controls the blower to the rotation speed set in multiple stages
Is applicable in.

[0021]

【The invention's effect】 According to the present invention, the power supply voltage is full-wave rectified.
Pulse is generated at the reference voltage near the zero crossing.
The fluctuation of the power supply voltage based on the change of the pulse width.
Output, blower to the preset number of revolutions
The load on the secondary side of the step-down transformer is
Power wave due to fluctuations, fluctuations in rated voltage, and external noise
Even if the shape is distorted, the rotation speed of the blower is almost constant
Can be kept.

Further , according to the present invention, the power supply voltage is full-wave adjusted.
And generate a pulse at the reference voltage near the zero crossing
And change the power supply voltage based on the change in the pulse width.
Detected and preset the number of revolutions of the blower for warm air
In order to correct the rotation speed,
Side load fluctuations, variations in rated voltage, and external noise
If the power supply waveform is distorted due to
Since it can be kept almost constant at all times, the exhaust gas characteristics are poor.
And the temperature of the hot air blown out will not rise.
It is possible to obtain a certain amount of warm air and it is highly safe.
Even a comfortable hot air heater can be provided.

[Brief description of drawings]

FIG. 1 is a control block diagram of a warm air heater according to a first embodiment of the present invention.

FIG. 2 is a circuit diagram of a rotation speed correction unit according to the first embodiment of the present invention.

3A, 3B and 3C are waveform diagrams showing the relationship between the power supply voltage fluctuation, the full-wave rectified power supply, and the pulse width change of the present invention.

FIG. 4 is a waveform diagram showing a supply voltage to a blower according to the phase angle control of the present invention.

FIG. 5 is a flowchart showing a rotation speed correction operation according to the first embodiment of the present invention.

FIG. 6 Power supply voltage due to secondary side load fluctuation of step-down transformer
Explanatory diagram showing the waveform of .

[Fig. 7] Electricity due to the tolerance of the secondary side rated voltage of the step-down transformer
Explanatory drawing which shows the variation of a source voltage .

FIG. 8 is a control block diagram of a conventional hot air heater .

[Explanation of symbols]

2 Temperature Detection Element 10 Air Control Section 12 Fuel Control Section 14 Hot Air Blower 18 Rotation Speed Correction Section 19 Pulse Generation Section 20 Pulse Width Detection Section 21 Blower Control Section 22 Microcomputer

─────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP 62-59312 (JP, A) JP 4-359695 (JP, A) (58) Fields investigated (Int.Cl. ⁷ , DB name) F04D 27/00 F04B 49/06 F23N 3/08 H02P 5/00

Claims (2)

(57) [Claims] 1. A a detecting device for detecting a temperature of the chamber, a blower speed adjustable to provide the based on the output of the sensing element varying the rotational speed of the multi-stage set in advance the number of revolutions of the blower fan The blower control unit performs full-wave rectification of the power supply voltage and controls the reference voltage near the zero crossing.
A pulse generator that generates a pulse by pressure and a pulse generator
Pulse width detection to detect changes in the pulse width generated by
Section and the output of the pulse width detection section
Adjust the number of revolutions to the previously set number of revolutions.
A blower control device having a correct rotation speed correction unit . 2. A temperature detecting element for detecting the temperature in a room,
An air control unit that changes the rotation speed of a blower motor that supplies combustion air to the combustor based on the output of the temperature detection element,
The air control unit has a fuel control unit that varies the fuel supplied to the combustor based on the output of the temperature detection element, and the air control unit detects a rotation speed of the blower motor and a rotation speed detection unit. A blower control unit for warm air, which has a rotation speed control unit that performs feedback control of the rotation speed based on a signal of a unit, and that is variable in multi-stage rotation speed preset according to the combustion state of the combustor; The blower control unit is a pulse generator that full-wave rectifies the power supply voltage and generates a pulse at a reference voltage near its zero crossing.
And the change in the width of the pulse generated by the pulse generator is detected.
Pulse width detector and the output from the pulse width detector.
Based on the rotation speed of the blower
Controller of the warm air heater characterized by having a rotational speed correcting unit for correcting so that the number.