JPS62194112A - Control device for warm air room heater - Google Patents

Abstract

PURPOSE:To prevent abnormal combustion and provide war air room heater with high reliability by reading the temperature of a heater by means of a thermistor at constant time intervals and providing an abnormality detection means which operates when the difference between the read temperature and the temperature previously inputted has exceeded a specified value. CONSTITUTION:The temperature of the heater temperature of a carburetor 3 which is detected by a thermistor 3c is read into an input device 17 at specified time intervals. Then a temperature difference detection means 18 seeks a temperature difference between a heater temperature currently read and the heater temperature which was previously read and is now stored in a memory. When this temperature difference exceeds a specified value, it is considered that an abnormality has developed in the thermistor 3c and a thermistor abnormality signal is outputted and the combustion of the war air room heater is topped.

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Industrial Field of Application) The present invention relates to a WJ device for controlling the temperature 8a heating response for controlling the operation of an Am heater or other heaters.

(Prior Art) In recent years, many hot air heaters have been used that vaporize kerosene in a vaporizer and eject it into a combustion chamber for combustion. This i style rrJi
The vaporizer in the vJ device consists of a vaporizer vibrator, a vaporizer heater, and a thermistor that detects the temperature of the vaporizer heater, and heats kerosene with the vaporizer heater in the vaporizer vibrator to gasify it.

Then, the thermistor attached to the vaporization heater constantly detects the heater temperature, and the temperature of the vaporization heater is maintained at a stable vaporization temperature by controlling the opening and closing of the relay contacts connected in series to the vaporization heater according to the heater temperature. ing.

By the way, when the thermistor is normal, as shown in FIG. , To [' K] (the thermistor resistance value, B is the nermistor constant).The relationship between the heater temperature detected by this thermistor and the time from the start of preheating is the fifth As shown in Figure (B), the heater temperature during combustion is maintained almost constant with small waves by controlling the 1m leap f and lJ of the relay contacts, and therefore the vaporization temperature of kerosene is also maintained constant. This allows stable combustion to continue.

(Problem to be solved by the invention) However, since thermistors are used at high temperatures, if the thermistor itself begins to break or its composition changes, an unstable state that is neither short nor open may occur. The resistance value of the thermistor is shown in Figure 6 (
It changes unstablely as shown in A). Therefore, the heater temperature controlled by the thermistor temperature detection is also shown in M6 (
As shown in B), it becomes unstable and it becomes impossible to continue stable combustion.

If this unstable state continues, the temperature of the vaporizer will drop, resulting in insufficient vaporization and incomplete combustion, or
There is a problem with the generation of carbon oxide.

The present invention has been made based on the above problem, and an object thereof is to provide a control system for a hot air heater that detects an abnormality in a thermistor that detects the temperature of a vaporizing heater and prevents abnormal combustion. .

[Structure of the Invention] (Means for Solving the Problems) In FIG. 1, the heater temperature of the vaporizer 3 detected by the thermistor 3C is read into the input means 17 at regular intervals R. Then, the temperature difference detection means 18 determines the temperature difference between the currently read heater temperature and the previously read and stored heater temperature. This temperature difference is sent to the thermistor abnormality detection means 19 and compared with a predetermined value.

(Function) The temperature difference between the heater temperatures is determined at regular intervals, and when this temperature difference exceeds a predetermined value, it is assumed that an abnormality has occurred in the mister 3G. @
Combustion of the chamber is stopped.

(Example) Hereinafter, an example of the present invention will be described based on the drawings. Figure 3 shows a typical W used to vaporize kerosene in hot air heaters.
I3i! Above the oil pan 1 are an electromagnetic pump 2, a vaporizer 3, and a vaporizer 3. A spray section 4 and a burner section 5 are respectively provided. The vaporizer 3 is a vaporizer vibrator 3
a, a vaporizer heater 3b, and a vaporizer 1 nermistor 3C that detects the temperature of the vaporizer 3. The kerosene supplied from the oil pan 1 via the oil feed pipe 2a by the electromagnetic pump 2 is heated to the vaporizer heater in the vaporizer vibrator 3a. 3b to heat and gasify. The spray part 4 consists of a spray nozzle part 4a and a spray mixing part 4b, and sprays the vaporized gas 4e sent from the vaporizer 3 to the spray M mixing part 4b through the needle valve 4C in the spray nozzle part a. The spray mixer 4b mixes the mixture with the primary air 4d and supplies the mixture to the burner section 5. The burner section 5 jets out a mixed gas of the vaporized gas 4e supplied from the 11Js mist mixing section 4b and the primary air 4d from the flame hole i1[i5.1, and ignites this mixed gas with the spark plug 5b to burn it. It is something that makes you Reference numeral 6 designates a degassing electromagnetic valve that discharges vaporized gas in the vaporizing pipe 3a into the oil pan 1 via degassing vibros a and 6b when extinguishing a fire.

Figure 2 shows the $q circuit of the hot air heater according to the present invention, and the control circuit includes a central processing unit (CPLI), random access memory (RAM), and read-only memory (ROM). , 1110 ports, a timer circuit, an A/D converter circuit, etc. are provided, and this microcomputer 7 has a power supply V.
cc is connected.

Vaporization i! is connected to the Δ/D terminal of the microcomputer 7 in series with the resistor R1. ! ! Narmister 3G is connected to detect the heater temperature of vaporization heater 3b. In addition, the po terminal of the microcomputer 7 has a transistor T'+ connected in series with the relay 8 for the vaporization heater 3b, and a resistor R
The vaporizing heater 3b is connected to the commercial alternating current 'FilIrI9 via the relay contact 8a of the relay 8. Furthermore, l! is connected to the P1 terminal of the microcomputer 7! Light emitting diode for magnetic pump 2 10. A transistor Tr2 connected in series with a resistor R3 is connected via a resistor R4, and the electromagnetic pump 2 is connected to a DC power source 12 via a photocoupler 11. Further, a transistor Tr3 connected in series with the combustion relay 13 is connected to the P2 terminal of the microcomputer 7 via a resistor R5, and a solenoid valve 6 for degassing and an ignition transformer 14 of the spark plug 5b are connected to the P2 terminal of the microcomputer 7.
A parallel circuit consisting of a convection fan motor 15 and a convection fan motor 15 is connected to a commercial AC power source 9 via a relay contact 13a of a relay 13.

FIG. 1 is a block diagram of the main parts of the microcomputer 7, and the heater temperature of the vaporization heater 3b detected by the vaporizer thermistor 3C is determined by the A/D conversion circuit and other circuits at regular intervals when C1 is released by the timer means 1G. The information is read by the input means 17 and stored. Then, the heater temperature stored last time and the heater temperature read this time are determined by the temperature difference detection means 18.
The temperature difference (absolute value) between the two is determined. When this temperature difference exceeds a predetermined value set in advance, the thermistor abnormality detection means 19 determines that an abnormality has occurred in the nermistor 3C of the carburetor 1 and outputs a thermistor abnormality signal.

The operation of the air heating divider A of the present invention constructed as described above will be explained with reference to the flowchart of FIG. First, when the operation switch of the warm air a-divider is turned on, the microcomputer 7 excites the relay 8 and closes the relay contact 8a, and the commercial power output is supplied to the vaporization heater 3b to preheat the vaporizer 3. will be started. The heater temperature of this vaporizer 3 is detected by the vaporizer mister 3G, and when the heater temperature reaches a predetermined ignition temperature shown in FIG. 5 (8), the relay 13 is energized by the microcomputer 7 and the relay contact 13a is closed, and the 'R solenoid valve, the ignition transformer 14, and the convection fan motor 15 are energized. At the same time, the photocoupler 11 receives the light emitted from the light emitting diode 10,
The electromagnetic pump 2 is energized and starts feeding oil. And N
When kerosene is supplied to the vaporizer 3 by the magnetic pump 2, this kerosene is heated and vaporized in the vaporizer vibrator 3a, sent to the jet nozzle section 4a, mixed with primary air 4d in the spray mixing section 4b, and then sent to the burner section. At step 5, the spark plug 5b ignites and starts combustion.

Even after combustion has started, the heater temperature continues to rise as shown in FIG. 5(B), and when the optimum vaporization temperature is reached, the microcomputer 7 controls the opening and closing of the relay contact 8a to keep this combustion temperature stable. dripping

At the same time, the microcomputer 7 monitors the abnormality of the carburetor thermistor 3C during combustion. That is, as shown in the flowchart of FIG. 4, the microcomputer 7 clears the timer every time a certain period of time (for example, 10 seconds) set by the timer means 16 elapses, and also causes the vaporizer thermistor 3C to turn on the heater. Load temperature. and,
At this time of reading, the temperature detection means 18 determines the temperature difference between the currently read heater temperature and the previously read and stored heater temperature. Next, the thermistor abnormality detection means 19 converts this temperature difference to a predetermined value (for example, 20°C).
Compared to this, if the temperature difference exceeds a predetermined value, there should be no such sudden temperature change in an actual hot air heater, so it is likely that an abnormality has occurred in the vaporizer thermistor 3C. Generates a mister error signal. When the thermistor abnormality signal is generated, the microcomputer 7 jumps to the extinguishing sequence and stops combustion. On the other hand, if the temperature difference is within a predetermined value, the current read lζ heater temperature is stored and used for the next comparison.

In this way, the heater temperature of the vaporizing heater 3b is read every time a certain period of time has elapsed, and the temperature difference between the previous reading and the previous heater temperature that has been stored is calculated and the vaporizing heater temperature is adjusted.
- Since sudden temperature changes in the mister 3C are constantly monitored, it is possible to detect an abnormality in the vaporizer mister 3C and prevent abnormal combustion in the heater due to this abnormality. In addition, since no special circuit is required to detect abnormalities,
The cost will not be high.

Although one embodiment of the present invention has been described in detail above, it can be modified as appropriate within the scope of the gist of the present invention. For example, when a thermistor abnormality signal is generated, an alarm may be generated to prompt the user to extinguish the fire.

[Effects of the Invention] According to the present invention described in detail above, an abnormality in the carburetor thermistor is detected by constantly monitoring sudden changes in the heater temperature of the carburetor, and abnormal combustion caused by this abnormality is detected. It is possible to provide a highly reliable hot air heater.

[Brief explanation of drawings]

Fig. 1 is a block diagram of the main parts showing the -* embodiment of the present invention, Fig. 2 is a circuit configuration diagram of a warm air heater, Fig. 3 is a side view showing the I configuration of the vaporizer main body, Fig. 4 is a flowchart showing the operation, Fig. 5 (A) is a graph showing the characteristics of the thermistor resistance value and temperature, Figure <8) is a graph showing the characteristics of the heater temperature and time, and Fig. 6 (A) is a graph showing the characteristics of the thermistor resistance value and temperature. A) is a graph showing the resistance value versus temperature characteristic of a defective thermistor, and (8) in the same figure is a graph showing the heater temperature versus time characteristic. 3... Vaporizer 3b... Vaporization heater 3C... Vaporizer thermistor 7... Microcomputer 16... Timer means 11... Input means 18...
・Temperature difference detection means 19...Thermistor abnormality detection means 112

Claims (1)

[Claims] A thermistor that detects the heater temperature of the vaporizer, an input means that reads the detected heater temperature at regular intervals, and a temperature difference between the currently input heater temperature and the previously input heater temperature. 1. A control device for a hot air heater, comprising: a temperature difference detection means for determining the temperature difference; and a thermistor abnormality detection means for outputting a thermistor abnormality signal when the temperature difference exceeds a predetermined value.