KR100581462B1 - Control method of oil burner's oil spray volume using electronic pump's comparison control - Google Patents

Abstract

The present invention relates to a control method of an electronic pump used in a boiler, and more particularly, to an oil discharge amount adjusting method of an oil burner (oil burner) through a proportional control of an electronic pump driven by supply of electricity. .

Looking at the configuration of the present invention, the pump pumps the oil from the oil tank and supplies to the burner side, the pump drive unit provided in the electronic pump is applied to drive power, and receives a commercial power to convert a predetermined signal and then the pump An oil discharge amount control method of an oil burner through an electronic pump control of a boiler having a signal conversion unit applied to a driving unit to adjust the oil discharge amount according to whether the electronic pump is operated, the signal conversion unit; According to the proportional control of the electronic pump, the oil discharge amount is also made in such a manner that the signal conversion to be proportionally adjustable, the signal conversion unit; The commercial power is converted into a signal in the form of a sine wave selected during half-wave or propagation, characterized in that it is made of a phase control method that enables the electronic pump to be proportionally controlled. In this way, the oil discharge amount of the oil burner, which was previously uncontrollable, can be controlled proportionally, and the desired temperature control can be controlled at the best condition, that is, without temperature deviation, and the oil consumption can be significantly controlled through stable temperature control. There is an advantage to reduce.

Description

Control method of oil discharge volume of oil burner by proportional control of electronic pump {control method of oil burner's oil spray volume using electronic pump's comparison control}

1 is a block diagram illustrating a method in which an oil discharge amount of a burner is proportionally controlled as the electronic pump is proportionally controlled through the signal conversion unit of the present invention.

FIG. 2 is a waveform diagram illustrating a first embodiment of the signal converter of FIG. 1. FIG.

3 is a waveform diagram illustrating a second embodiment of the signal converter of FIG. 1;

4 is a waveform diagram illustrating a third embodiment of the signal conversion unit of FIG. 1;

5 is a waveform diagram illustrating a fourth embodiment of the signal converter of FIG. 1;

6A is a waveform diagram illustrating a fifth embodiment of the signal conversion unit of FIG. 1.

6B is a waveform diagram illustrating a sixth embodiment of the signal conversion unit of FIG. 1.

Explanation of symbols on the main parts of the drawings

10: power input unit 20: signal conversion unit

30: pump drive part 40: tank

50: electronic pump 60: oil discharge part

70: burner t: time, v: voltage

The present invention relates to a control method of an electronic pump used in a boiler, and in more detail, by converting commercial power into a predetermined signal and applying it to the electronic pump, the electronic pump is proportionally controlled and at the same time an oil burner Oil discharge amount of the) is also proportionally controlled.

In general, boilers used for heating purposes have been developed and used in various ways according to the required water or installation purposes as oil boilers, gas boilers, and electric boilers, depending on the fuel supplied. Among these boilers, in particular, the oil boiler using oil such as oil is provided with an electronic pump.

The electronic pump performs an important function of pumping oil from an oil tank and supplying it to a burner side, and a method of controlling the electronic pump has recently emerged as a very important issue.

Looking at the conventional electronic pump control method as follows.

First, an AC power source having a normal commercial frequency of 60 Hz is applied to apply a half-wave rectified electric signal to a coil in an electronic pump. At this time, when the voltage of the positive period of the rectified electrical signal is applied, current is applied to the coil to move the inner shaft, and when the voltage of the negative period is applied, it is restored by the force of the spring in the shaft. The vacuum is generated between the cylinder and the shaft interlocked in this way, and the external oil (hereinafter referred to as oil applied to the present invention) is moved into the electronic pump, and is ejected to the oil nozzle by a high pressure force. will be.

However, in the conventional electronic pump control system operated as described above, when the oil discharge amount is applied when the power ((+) half-cycle voltage and (-) half-cycle voltage are applied alternately (repeated)) is applied or not. Therefore, whether or not oil is supplied is determined.

Therefore, there is a problem that the oil discharge amount is determined according to the capacity of the oil electronic pump and the oil is discharged or not discharged depending on whether the power is turned on.

These inconveniences and disadvantages, in particular, caused many problems such as instability of the furnace pressure during ignition of the oil burner, variation in temperature control, increase in oil consumption, and increase in pipe size.

The present invention aims to provide a method of proportionally controlling the oil discharge amount of the oil burner, in particular, as the power control method of the electronic pump provided in the boiler is more efficiently improved.

Still another object of the present invention is to make it possible to completely solve the conventional inconveniences and problems by adjusting the oil discharge amount proportionally, and to significantly improve the product competitiveness.

The present invention for achieving this object is;

An electronic pump pumping oil from an oil tank and supplying it to a burner side, a pump driving unit provided in the electronic pump and receiving driving power, and receiving commercial power and converting a predetermined signal to the pump driving unit to convert the predetermined signal into the electronic pump. In the oil discharge amount control method of the oil burner through the electronic pump control of the boiler having a signal conversion unit to control the oil discharge amount according to the operation of,

The signal conversion unit; According to the proportional control of the electronic pump, the oil discharge amount is also made in such a manner that the signal conversion to be proportionally adjustable, the signal conversion unit;

Characterized in that it is made of a phase control method for converting the commercial power signal into a sinusoidal wave form selected during half-wave or radio waves to proportionally control the electronic pump.

In addition, the signal conversion unit; Characterized in that the PWM (pulse width modulation) control method for converting the commercial power signal in the form of a direct current (dc) pulse to enable a proportional control of the electronic pump.

In addition, the signal conversion unit; The commercial power is converted into a signal in the form of direct current (dc), but characterized in that the FM (frequency modulation) control method for enabling the proportional control of the electronic pump through frequency modulation.

In addition, the signal conversion unit; The commercial power is converted into a signal in the form of a half wave, but the number of the half wave is characterized in that the electronic pump is proportionally controlled by the irregular output according to the program set by the user.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram illustrating a method in which an oil discharge amount of a burner is proportionally controlled as the electronic pump is proportionally controlled through the signal conversion unit of the present invention, and FIG. 2 is a first embodiment of the signal conversion unit of FIG. 3 is a waveform diagram illustrating a second embodiment of the signal converter of FIG. 1, FIG. 4 is a waveform diagram illustrating a third embodiment of the signal converter of FIG. 1, and FIG. 5 is a signal of FIG. 1. 6A is a waveform diagram illustrating a fourth embodiment of the converter, and FIG. 6A is a waveform diagram illustrating a fifth embodiment of the signal converter of FIG. 1, and FIG. 6B is a sixth waveform diagram of the signal converter of FIG. 1. A waveform diagram showing an embodiment.

Referring to Figure 1, first, it can be seen that the oil is a boiler. Hereinafter, the description of the structural part of the general oil boiler will be omitted and the control method for adjusting the oil discharge amount will be described in more detail.

 First, the commercial power is input from the power input unit 10, and the power input through the power input unit 10 is applied to the signal conversion unit 20, and the signal conversion unit 20 will be described later with an electronic pump. 50 is proportionally controlled. The electrical signal converted by the signal converter 20 is transmitted to the electronic pump 50 via the pump driver 30. Of course, the electronic pump 50 is pumped by a predetermined pressure from the tank 40 for storing oil and supplied to the oil discharge part 60 provided in the burner 70 and the oil is discharged through the oil discharge part 60. Discharged.

The input power of the power input unit 10 corresponds to a commercial power source, that is, AC (AC) 110 [V], 220 [V] having a frequency of 60 Hz.

The signal converter 20 controls the oil discharge amount proportionally by converting an electric signal so that the electronic pump 50 can be proportionally controlled instead of on / off. As a result, when the electronic pump 50 is controlled by the signal converted by the signal converter 20, the oil discharge amount is also proportionally controlled at the same time.

The pump driver 30 is configured with a basic circuit for actually driving the electronic pump 50 by receiving the signal converted from the signal converter 20.

Hereinafter, the control method of the signal converter which forms the core of the present invention will be described in detail with reference to FIGS. 2 to 6 (b).

Referring to FIG. 2, it is possible to know the waveform of the converted power when the conventional commercial power inputted through the power input unit 10 is converted into a signal through the signal conversion unit 20 and applied to the pump driver 30. . As a result, the signal converter 20 outputs down and stabilizes the commercial AC power to a predetermined AC voltage, but only when the waveform shape of the signal is half a period in time. Let this output. Based on this, the setter implements a first phase control method (half wave) for selectively controlling the half wave region (voltage magnitude) and also the city numbers 2a, 2b, and 2c. As such a signal is applied to the electronic pump 50 via the pump driver 30, proportional control is possible.

According to FIG. 3, it is the same method as the 1st phase control method (half wave) demonstrated with reference to FIG. However, the signal conversion unit 20 implements a second phase control method (propagation) using a propagation method that alternates (repeats) and outputs the output voltage when the output voltage is positive or negative.

Referring to FIG. 4, it can be seen that the signal converted by the signal converter 20 is output in the form of a pulse. In detail, the signal conversion unit 20 receives a commercial AC power and converts it into a DC component, and the signal has a pulse shape, and the pulse width is not constant and is output variably. Pulse Width Modulation (PWM).

Referring to FIG. 5, the signal converted by the signal converter 20 is output in the form of a pulse, and it can be seen that the frequency is modulated. As a result, the signal conversion unit 20 is controlled by a frequency modulation (FM) method in which the input commercial frequency 60 [Hz] is variably output. On the other hand, the setter can set the frequency, that is, it is possible to calculate the value of the desired frequency using the inverse relationship of time.

According to (a) of Figure 6, it can be seen that the commercial AC power is output in the form of half-wave AC. However, it is important to output the waveform irregularly. In detail, the waveforms of 6a, 6c, 6e ... are output while the waveforms 6b, 6d, 6f are not output therebetween. This is where the setter is adjustable in the program. The waveform shown in (b) of FIG. 6 is one embodiment in which the order in which the above-described waveform is output is output differently. As a result, the waveforms of 6b ', 6d', 6f '... are output and 6a', 6c. The waveforms of ', 6e' ... will not be output. In the exemplary embodiment of the present invention, the description of the present invention is limited to FIG. 6A, but the number of cases may be variously implemented.

Hereinafter, with reference to FIGS. 1 to 6 (b) will be described the operation and effect of the method for adjusting the oil discharge amount according to the present invention.

The commercial AC power input through the power input unit 10 is converted into various signals through the signal conversion unit 20 and applied to the pump driving unit 30, thereby driving the actual electronic pump 50. At this time, the output form of the various signals to be converted is such that the electronic pump 50 is a very linear and precise proportional control rather than the conventional on / off type. Of course, the structure of the electronic pump is not shown, but it is a matter of course that the voltage should be applied at a suitable intensity and a suitable time. Thus, the minimum force and the time for the electronic pump 50 to be driven. Is set by the setter.

When the actual electric pump 50 is driven by the electric signal converted as described above, the oil discharge amount is controlled in proportion to the force of the electron pump 50, and eventually, the burner 70 is controlled by proportionally controlling the electron pump 50. The amount of oil discharged to the can also be controlled proportionally.

In this way, by controlling the oil discharge amount proportionally, the temperature control in the burner 70 is made without variation, and the oil consumption can also be greatly reduced.

As described above, the embodiments of the present invention have been described in detail, but the scope of the present invention is not limited thereto, and the scope of the present invention is substantially equivalent to the embodiments of the present invention.

As can be seen from the above description, the present invention has the effect of controlling the desired temperature control stably without optimum temperature, that is, temperature deviation, by controlling the oil discharge amount of the oil burner which cannot be controlled in the past. .

In addition, as described above, there is an advantage that can reduce the consumption of oil through stable temperature control.

In addition, there is an effect that can stably form the pressure of the furnace when the oil burner ignition.

In addition, there is also an economic effect of not having to increase the tube size.

Claims (5)

An electronic pump that pumps oil from the oil tank and supplies the oil to the burner; A pump driving unit provided in the electronic pump and receiving driving power; Control of the oil discharge amount of the oil burner through the electronic pump control of the boiler having a signal conversion unit for receiving a commercial power is converted to a predetermined signal and applied to the pump driving unit to adjust the oil discharge amount according to the operation of the electronic pump In the method, The signal conversion unit; The method of controlling the oil discharge amount of the oil burner (Oil Burner) through the proportional control of the electronic pump, characterized in that the oil discharge amount is also converted in a signal-controlled manner in accordance with the proportional control of the electronic pump. The method of claim 1, The signal conversion unit; The oil of the oil burner (Oil Burner) through the proportional control of the electronic pump, characterized in that made of a phase control method for converting the commercial power into a sinusoidal wave form selected during half-wave or radio waves to enable a proportional control of the electronic pump ) Discharge amount adjustment method. The method of claim 1, The signal conversion unit; Oil burner through proportional control of the electronic pump, characterized in that the PWM (pulse width modulation) control method for converting the commercial power signal in the form of a direct current (dc) pulse to enable the proportional control of the electronic pump. How to adjust the oil discharge amount. The method of claim 1, The signal conversion unit; The oil burner through the proportional control of the electronic pump, characterized in that for converting the commercial power signal to a direct current (dc) form, but the FM (frequency modulation) control system to enable the proportional control of the electronic pump through frequency modulation ( Oil Burner) How to control the oil discharge amount. The method of claim 1, The signal conversion unit; The oil burner through the proportional control of the electronic pump, characterized in that for converting the signal to the commercial power in the form of a half wave, the number of the half wave is irregularly output according to a program set by the user. How to adjust oil discharge amount of oil burner.

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