JP2698911B2 - Oil hot air heater display - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a display device of a hot air heater controlled by a microcomputer. 2. Description of the Related Art In a conventional oil hot air heater display device, a plurality of operation lamps 8, 9, 10, 11 are connected to the output of a microcomputer 7 as shown in FIG. , And turned off when the stop switch 22 was turned on. When the fuel burned, the other operation lamps 9, 10, and 11 were lit according to the intensity of the combustion. Problems to be Solved by the Invention Since the operation lamp simply keeps on during operation, it cannot express well that it is burning, that is, the heater is just performing the combustion operation. There was a problem. Means for Solving the Problems The present invention has been made to solve the above problems, and includes an operation switch for starting the heating operation, a stop switch for stopping the heating operation, and a temperature of the vaporizer. A thermistor for detecting the preheat, a preheat lamp that lights up when the vaporizer is being preheated to indicate it, and an ignition that lights up during the operation of the igniter after preheat of the vaporizer is completed and displays it Each lamp includes a lamp, a combustion lamp that blinks and displays during combustion after ignition by an igniter, and a fire extinguishing lamp that lights and displays when combustion is stopped for room temperature control. The operation lamp group arranged in a ring in the order of description, and the operation switch signal is taken to start the preheating of the carburetor, and the ignition lamp, the combustion lamp, and the fire extinguishing lamp are turned off. The preheat lamp is turned on, and when it is detected by the signal taken from the thermistor that the vaporizer has reached a predetermined temperature, the igniter is started to operate, and the preheat lamp, the combustion lamp, and the digestion lamp are turned off, and the ignition lamp is turned off. During the combustion after the ignition is completed, the preheating lamp, the ignition lamp, the combustion lamp, and the fire extinguishing lamp of the operation lamp group arranged in a ring are repeatedly turned on in the order described and at a repetition frequency according to the amount of combustion, During fire extinguishing for room temperature control, the preheating lamp, ignition lamp, and combustion lamp are turned off, the fire extinguishing lamp is turned on, and a stop switch signal is received to stop heating operation, and the preheating lamp, ignition lamp, and combustion lamp are turned off. A microcomputer that turns off all fire extinguishing lamps constituted a display device for an oil hot air heater. Operation Since the present invention has such a configuration, when the operation switch is operated, the microcomputer takes in the signal of the operation switch to start the preheating of the carburetor, and turns off the ignition lamp, the combustion lamp, and the fire extinguishing lamp to perform the preheating. When the lamp is turned on, and the signal of the thermistor detects that the vaporizer has reached a predetermined temperature, the igniter is started to operate, and the preheating lamp, the combustion lamp, and the fire extinguishing lamp are turned off, and the ignition lamp is turned on. During the combustion after the completion of ignition, a preheating lamp, an ignition lamp,
The combustion lamp and the fire extinguishing lamp are repeatedly turned on in the order described and at a repetition frequency according to the amount of combustion, and during the extinguishing for room temperature control, the preheating lamp, the ignition lamp and the combustion lamp are turned off, and the fire extinguishing lamp is turned on. When a stop switch signal is received, the heating operation is stopped, and all of the preheating lamp, the ignition lamp, the combustion lamp, and the fire extinguishing lamp are turned off. Embodiment An embodiment of the present invention will be described below with reference to FIGS. 1, 2, 3, and 4. FIG. In each figure, 1 is a commercial power supply, 2 is a heater for heating a vaporizer, 3 is an igniter, 4 is a pump for supplying fuel, 5
Is a motor of a blower that blows combustion air or convection air. Reference numeral 6 denotes a DC power supply, and reference numeral 7 denotes a microcomputer. Reference numeral 8 denotes a preheating lamp which lights up when the vaporizer is preheated by the heater 2 to indicate the fact, and 9 turns on during operation of the igniter 3 after preheating of the vaporizer is completed. , An ignition lamp 10 blinks during combustion after ignition by the igniter 3 and displays it, and 11 an illumination lamp when combustion is stopped for room temperature control. It is a fire extinguishing lamp that indicates that. These lamps 8 to 11 are, as shown in FIG. 2, clockwise, a preheating lamp 8, an ignition lamp 9, a combustion lamp 10, a fire extinguishing lamp.
The operation lamps are arranged in a ring shape in the order of 11. Reference numerals 12, 13, 14, and 15 denote phototriac couplers of light-emitting diodes, which are triacs 12-2, 13-2, and 14 respectively.
-2 and 15-2. 16 is an input port of the microcomputer, 17 is a thermistor for detecting the vaporizer temperature, 18 is an A / D converter for A / D converting the signal of this thermistor,
The signal of the A / D converter is input to the input port 16 described above. Reference numerals 19 and 20 also denote input ports. An operation switch 21 for generating an operation start signal is connected to the input port 19, and a stop switch 22 for generating an operation stop signal is connected to the input port 20. Output ports 23 to 30 are connected to and controlled by the lamps 8 to 11 and the phototriac couplers 12 to 15 described above. In one embodiment of such a configuration, the operation switch 21
Is pressed, the microcomputer 7 captures a high-level signal from the input port 19 and outputs a low-level signal from the output port 27 and the output port 23. Then, the photo triac coupler 12 emits light, the triac 12-2 is turned on, the energization of the vaporizer heater 2 is started, and the vaporizer temperature starts to rise, and at the same time, the preheating lamp 8 as shown in FIG. Lights up. Thereafter, when the microcomputer 7 detects that the temperature detected by the thermistor 17 has reached a predetermined value via the A / D converter 18, the microcomputer 7 stops the low level output of the output ports 23 and 27, 8 is turned off, and the power supply to the heater 2 is stopped. At the same time, output port 24 and output port
A low level is output from 28, the ignition lamp 9 is turned on as shown in FIG. 2 (b), and the igniter 3 starts operating. When the combustion is started by this ignition operation and the presence of a flame is detected by a flame detector (not shown), the microcomputer 7 stops the low level output of the output port 24 and the output port 28, turns off the ignition lamp 9, and The igniter 3 is stopped. At the same time, the low level is output from the output port 29 and the output port 30 to operate the pump 4 and the motor 5. At this time, the microcomputer 7 repeatedly outputs the output levels of the output ports 23 to 26 as four-phase low levels as shown in FIG. 3 (C) or (D). In that case, when the amount combustion of weak, of FIG. 3 (C), i.e. the time-up time T ₁ of the in Figure 4, the preheating as in the second diagram (d), ignition, combustion, each lamp extinguishing 8 to 11 are turned on relatively slowly and clockwise at a low frequency. On the other hand, in the case of intense combustion amount, of FIG. 3 (D), i.e. the time-up time T ₂ of the in Figure 4, the preheating as in the second diagram (c), ignition, combustion, each of the extinguishing The lamps 8 to 11 are repeatedly turned on clockwise at a high frequency relatively quickly. When the room temperature control device (not shown) is activated to stop the combustion, the microcomputer 7 sets the output ports 23 to 25 to high level as shown in FIGS. 2 (f) and 3 (e).
Only 11 is turned on, the output ports 27 to 30 are set to the high level to turn off the phototriac couplers 12 to 15, and the heater 2, the igniter 3, the pump 4, and the motor 5 are stopped. Thus, the preheating lamp 8, the ignition lamp 9, the combustion lamp
10. By simply controlling the operation of the four operation lamps of the fire extinguishing lamp 11, it is easy to distinguish between preheating, igniting, burning, and extinguishing to control room temperature. In addition, by changing the frequency of the clockwise repetitive lighting in the order described above according to the amount of combustion, it is possible to reliably represent that combustion is being performed, that is, that the heater is currently performing combustion operation. Became. Effect of the Invention According to the present invention, the preheating, ignition, combustion lamp, and fire extinguishing lamps are controlled by controlling the operation of a group of operating lamps arranged in a circular order in the order described. It is not only easy to distinguish between fire and fire extinguishing for room temperature control, but also that the combustion is in progress, that is, that the heater is in the combustion operation, and at what combustion amount I was able to make sure that there was something.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a circuit diagram showing an embodiment of the present invention, and FIGS. 2 (a), (b), (c), (d), (e) and (f) are the same. FIG. 3 is a timing chart of the operation lamp, FIG. 3 is a timing chart of FIG. 2, FIG.
FIG. 5 is a circuit diagram of a conventional main part. 7 ... microcomputer, 8 ... preheating lamp, 9 ... ignition lamp, 10 ... combustion lamp, 11 ... fire extinguishing lamp, 17 ... thermistor, 21 ... operation switch, 22 ... stop switch.

Claims (1)

(57) [Claims] Operation switch (21) for starting heating operation
And a stop switch (22) to stop the heating operation
And a thermistor for detecting the temperature of the vaporizer (17)
A preheat lamp (8) that lights up and indicates when the vaporizer is being preheated, and an ignition lamp that lights up during operation of the igniter after preheating of the vaporizer is completed and indicates the same. (9) A combustion lamp (10) that flashes and displays during combustion after the ignition by the igniter, and lights up and displays when combustion is stopped for room temperature control. A group of operation lamps in which the respective lamps of the fire extinguishing lamps (11) are arranged in a ring shape in the order described, and a signal of the operation switch is taken to start preheating of the vaporizer, and the ignition lamp and the combustion lamp Turn on the preheating lamp with the fire extinguishing lamp turned off,
When it is detected by the signal taken from the thermistor that the vaporizer has reached a predetermined temperature, the igniter is started to operate, and the preheating lamp, the combustion lamp, and the fire extinguishing lamp are turned off and the ignition is started. A lamp is turned on, and the preheating lamp, the ignition lamp, the combustion lamp, and the fire extinguishing lamp of the annularly arranged operation lamp group are repeated in the order described and according to the amount of combustion during combustion after completion of ignition. Repeatedly lighting at the frequency, turning off the preheating lamp, the ignition lamp, and the combustion lamp during the fire extinguishing for room temperature control, turning on the fire extinguishing lamp, and capturing the signal of the stop switch to stop the heating operation And a myco that turns off all of the preheating lamp, the ignition lamp, the combustion lamp, and the fire extinguishing lamp. (7) a de be configured display device for oil warm air heater according to claim.