KR900009142Y1 - Circuit in fan heater - Google Patents

Abstract

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Description

Pen heater circuit with dust sensor

1 is a circuit diagram of the present invention.

2 is a waveform diagram of a driving state of the inventive circuit diagram.

3 is a flow chart of the present invention.

* Explanation of symbols for main parts of the drawings

1: digital analog converter 2: microcomputer

3: electronic pump driving unit 5: ignition unit

4 blow motor driving unit 6 room temperature sensing unit

7: heater temperature detection unit 8: flame detection unit

CP ₁ -CP ₄ : Comparator VF: Voltage Floor

PD ₁ : photodiode for light emission PD ₂ : photodiode for light reception

ZD ₁ , ZD ₂ : Zener Diode FB: Spark Ignition Rod

The present invention relates to a fan heater circuit incorporating a dust sensor to control the operating state of the fan heater to prevent the incomplete combustion by first detecting the sensor that the dust in the air inlet in the fan heater.

In the conventional fan heater, when the dust of the filter of the air intake is a lot of dust, the pressure of the intake air is lowered, resulting in a disadvantage that the combustion state becomes unstable.

That is, when dust is caught in the filter of the combustion air intake port, the pressure of the intake air drops, so that an appropriate amount of air for combustion cannot be supplied. Therefore, the combustion state is unstable, resulting in incomplete combustion.

In order to solve such a problem, the present invention first detects dust in the filter of the air intake by a sensor, and then compares the combustion status of each stage with the sensor to stop the fan heater in an abnormal state. It is to provide a fan heater circuit that can be operated normally after the dust is removed from the air inlet. The dust sensor is provided with a light emitting photodiode and a light receiving photodiode with an air inlet filter interposed therebetween. The amount of light applied to the light receiving photodiode is different depending on the amount of dust in the filter.

Thus, the present invention to prevent the incomplete combustion by the dust sensor is built in the air inlet of the fan heater to be described in detail according to the accompanying drawings in detail as follows.

First turning picture for light emission to be opposed to the filter (A-A ') of the air intake by the circuit diagram of the present invented diode (PD ₁₎ and installing a light receiving for the photodiode (PD ₂₎ and the photodiode for the light-receiving (PD ₂₎ current amplifier (aMP) is applied after the comparator (CP ₁₎ changes the voltage in the configuration to be compared with the output, and the comparator of the digital to analog converter (1) made up of a plurality of resistors (R-2R) passing through the (CP ₁₎ The output of is applied to the input terminal (D ₀ ) of the microcomputer 2 is configured to detect the dust (Dust) voltage.

At this time, the microcomputer 2 controls the operation of the fan heater to control the electronic pump driving unit 3 and the blow motor driving unit 4, while the indoor temperature sensing unit 6 for detecting the indoor temperature with a comparator (CP ₂ ) and Inputs of the sensing inputs of the heater temperature detection unit 7 for detecting the heater temperature with the comparator CP ₃ and the flame detection unit 8 for detecting the ignition state of the ignition unit with the comparator CP ₄ are input terminals D ₁ (D ₂ ) (D ₃ ).

That is, the microcomputer 2 may operate the electronic pump driving unit 3 according to the input state of the flame detection unit 8 that detects the flame state of the indoor temperature detection unit 6, the heater temperature detection unit 7, and the ignition unit 5. ) And the fan motor under the control of the blow motor drive unit 4, except that the operation is the same as that of the Iranian fan heater.

In addition, the microcomputer 2 outputs data incremented step by step from the least significant bit to the most significant bit with a digital analog converter 1 to obtain a DC voltage according to the non-inverting terminal (+) of each comparator (CP ₁ -CP ₄ ). Configure to be applied to

That is, the present invention is configured such that the output of the ignition unit 5 is applied through the flame detection unit 8 to the microcomputer 2 to which the electronic pump driving unit 3 and the blow motor driving unit 4 are connected. 6) and the fan heater in which the heater temperature sensing unit 7 is connected, the light emitting photodiode PD ₁ and the light receiving photodiode PD _{2 are} formed to face the filter A-A 'of the air intake port. The current flowing through the light-receiving photodiode PD ₂ is converted into a voltage in the amplifier AMP and then applied to the comparator CP ₁ to form a multi-stage resistor R-2R to output the output of the microcomputer 2. It is configured to be compared with the output of the digital analog converter 1 for converting to a voltage, and the output of the comparator CP ₁ is configured to recognize by the microcomputer 2 as a dust voltage.

2 is a waveform diagram illustrating the present invention circuit and FIG. 3 is a flowchart of the present invention.

Referring to the present invention configured as described in detail as follows.

First, the amount of combustion air that is sucked changes according to the degree of dust in the air inlet of the fan heater (see (a) of FIG. 2). do.

In addition, the present invention has a current (A-A ') installed in the air inlet of the fan heater between the light emitting photodiode (PD ₁ ) and the light receiving photodiode (PD ₂ ) from the amplifier (AMP) to a voltage. changes so that amplifies the voltage of the If If a lot of the amount of dust stuck, as in the 2-degree (b) amplifying the voltage of the light-receiving photodiode (PD ₂₎ for the lowering interrupt less dust receiving picture for diode (PD ₂₎ is higher will be.

That is, the amount of light applied to the light receiving photodiode PD ₂ from the light emitting photodiode PD ₁ is changed according to the amount of dust stuck in the filter A-A ', and the amount of combustion air sucked is also changed. .

As the fan heater starts to operate, the pressure applied to the inverting terminal (-) of the comparator (CP ₁ ) of the amplifier (AMP) changes according to the amount of dust trapped in the filter (A-A ') of the air inlet. In (2), the output terminal (A ₀ -A ₆ ) outputs the data incremented step by step from the least significant bit to the most significant bit, and the output data is converted to the DC voltage by the digital analog converter (1) and then the comparator (CP _1). Is applied to the non-inverting terminal (+).

That is, as shown in the flowchart of FIG. 3, when the operation is started, a voltage inversely proportional to the amount of dust captured by the filter A-A 'is applied to the inverting terminal (-) of the comparator CP ₁ and at the same time, The output terminals A ₀ -A ₆ are converted to analog voltages in the digital analog converter 1 by "A / D conversion" and are applied to the non-inverting terminal (+) of the comparator CP ₁ . At this time, since the output data of the output terminals A ₀ -A ₆ is increased in steps from the least significant bit to the most significant bit in the microcomputer 2, the output voltage of the digital analog converter 1 is gradually increased so that the comparator ( When the output of CP ₁ is output at the high level, the microcomputer 2 outputs the data output to the output terminals A ₀ -A ₆ when the high level is applied to the input terminal D ₀ . K) will be recognized.

Therefore, the dust voltage is increased when the amount of dust is small and decreases when the amount of dust is large.

When the dust voltage (KT) is detected by the "A / D conversion" after the "start of operation" as described above, the microcomputer 2 determines the currently selected operating state. When the operating state is determined, the detected dust voltage (KT) and the preset voltage are determined. Will be compared.

At this time, the voltage at the time of appropriate combustion according to the combustion state is determined in advance in the microcomputer 2 by the experimental value as shown in FIG.

Therefore, the microcomputer 2 judges whether the dust voltage (| KT |) is within the combustion voltage (| V _A ± ΔV _A |) when it is "high combustion", and when it is "medium combustion", the dust voltage (| KT |) It judges whether it is in the medium combustion voltage (| V _B ± △ V _B |), and when it is "weak combustion", it judges whether the dust voltage (| KT |) is in the weak combustion voltage (| V _C ± △ V _C |). In this case, it is determined whether the dust voltage (| KT |) is in the weak combustion voltage (| V _D ± ΔV _D |).

That is, when the dust voltage (| KT |) of the "combustion" operation state is within the combustion chamber voltage (| V _AQ ± △ V _AQ |), the normal operation is performed. Otherwise, the operation is reset and the fan heater is no longer used. In order to prevent incomplete combustion and prevent incomplete combustion, if the dust voltage (| KT |) is within the medium combustion voltage (| V _B ± △ V _B |) even in the "medium combustion" operating state, normal operation is performed. If not, reset the operation.

"Bad combustion" and weak combustion will have the same effect as above. Therefore, the dust voltage (KT) is detected by the dust voltage (KT), and the dust voltage (KT) is detected in each operating state (strong, medium, weak, weak combustion). The normal accident is only when the dust voltage (KT) falls within the range of the voltage determined according to the operating state (when sufficient air for combustion is absorbed) compared with the voltage as shown in FIG. If this is not the case (if not enough air is inhaled by dust), a right reset is performed to prevent incomplete combustion.

Meanwhile, the analog voltage generated by the digital analog converter 1 is applied to the indoor temperature detector 6, the heater temperature detector 7, and the flame detector 8 to detect the indoor temperature, the heater temperature, and the flame state. The state is recognized in (2).

That is, the indoor temperature sensing unit 6 compares the output divided by the room temperature sensor RTH and the resistor R ₂ with the output of the digital analog converter 1 in the comparator CP ₂ to input the input of the microcomputer 2. It is applied to the terminal D ₁ to control the electronic pump driving unit 3 and the blow motor driving unit 4 according to the current temperature state, and the heater temperature sensing unit 7 outputs the digital analog converter 1 and the heater sensor. By comparing the state signal of the (HTH) in the comparator (CP ₃ ) to apply to the input terminal (D ₂ ) of the microcomputer (2) to sense the heater temperature, and also to apply the power (AC) to the ignition section 5 by applying a Zener After the ignition is performed by applying power through the diodes ZD ₁ and ZD ₂ to the spark ignition rod FB, the ignition signal applied by the flame detection unit 8 through the analog state signal and the voltage follower VF is applied. Compared with the comparator (CP ₄ ), the ignition unit 5 is blocked in the microcomputer 2 and the bar as described above. As described above, the operation of controlling the electronic pump driver 3 and the blow motor driver 4 is performed according to the status signal to the heater temperature sensor 7.

The control operation of the electromagnetic pump drive unit 3, blow motor drive unit 4, room temperature control unit 6, heater temperature control unit 7, and flame detection unit 8 is the same as the control operation of the general fan heater.

As described above, after dust is caught in the filter of the air inlet of the present invention with the dust sensor, the dust voltage is detected and the normal operation is performed only when the dust voltage is within the range of the test paper, depending on the operating state. By resetting the operation by determining that the pressure of the inlet is lifted up by the dust and the proper amount of air necessary for combustion is not inhaled, it is effective to prevent the incomplete combustion from progressing due to the insufficient amount of combustion due to the dust. will be.

Claims (1)

The output of the ignition unit 5 is applied to the microcomputer 2 to which the electromagnetic pump driving unit 3 and the blow motor driving unit 4 are connected through the flame detection unit 8, and the room temperature sensing unit 6 and the heater temperature In the fan heater to which the sensing unit 7 is connected, the light-emitting photodiode PD ₁ and the light-receiving photodiode PD _{2 are} formed to face the filter A-A 'of the air intake port, and the light-receiving photo The current flowing through the diode PD ₂ is converted into a voltage in the amplifier AMP and applied to the comparator CP ₁ , and then composed of a multi-stage resistor R-2R to convert the output of the microcomputer 2 into a voltage. A fan heater circuit incorporating a dust sensor configured to be compared with an output of the analog converter (1) and configured to recognize the output of the comparator (CP ₁ ) as a dust voltage.