JPH0391613A - Hot air space heater - Google Patents

Abstract

PURPOSE:To shorten the time required for restarting operation by providing a weight sensor used for detecting whether or not a tank for which kerosene is replenished is set and starting the preheating of a carburetor at the time when the tank to which the kerosene is replenished is set by notification from the weight sensor. CONSTITUTION:When the amount of the kerosene in an oil receiving dish 2 is below a specified amount, it is detected by a weight sensor whether or not the weight of a tank 1 is over a specified weight. And when it is detected that the weight of the tank 1 is over the specified weight, a microcomputer is actuated to energize a heater 12 and preheating of a carburetor 5 is started. When the preheating is finished with the preheating temperature of the carburetor 5 over the catch fire point, it is reconfirmed whether or not kerosene is filled in the oil receiving dish 2 in an amount that is more than a specified amount, and if it is, the ignition and combustion operations are taken. If the specified amount of kerosene is not filled, the electric current to the heater 12 is continued until a set time which is beforehand determined has passed in order to hold the temperature of the carburetor. With this constitution it is possible to shorten the time required for restarting the operation by reducing the time of waiting for kerosene supply.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to a hot air heater, and particularly to control of its operation.

[Conventional technology] A conventional hot air heater is shown in Fig. 4.

Figure 4 is a cross-sectional view showing the outline of the configuration of a conventional hot air heater. In each figure, (1) is a tank for replenishing liquid fuel such as kerosene (hereinafter referred to as kerosene); is an oil pan, (4) is a constant oil leveler, (5) is a vaporizer, (6) is a blower fan, (7) is a filter to remove water contained in kerosene, (8) is kerosene A water sensor that detects the amount of moisture in the oil tank (9) is a float switch that turns on and notifies you when the amount of kerosene in the oil pan (2) falls below a predetermined level, (10) is an oil pump, ( 11> is an orifice pipe, (12) is a heater for preheating the vaporizer (5), (13> is a thermistor for detecting the preheating temperature of the vaporizer (5), (14) is a solenoid valve, and (15) is a Air pipe, (
16) is a spark plug for ignition.

FIG. 5 is a block diagram showing the control circuit of the conventional hot air heater shown in FIG. 4. In the figure, the same reference numerals as in FIG. ON1
0 F F relay, (18) is the spark plug (16)
A relay (19) that turns ON10FF is a refueling warning lamp, (20) is a buzzer, and (100) is a microcomputer that controls the whole.

As shown in Figure 4, the oil pan (2) has an oil feed pump (1
A filter (
7), and is further equipped with a water sensor (9>), which detects when more than a certain amount of water gets mixed into the kerosene in the oil pan (2), and sends a microcomputer (100) shown in FIG. ) and send a message to the microcomputer (100).
is now issuing a warning.

FIG. 6 is a flowchart showing the operation of the conventional hot air heater shown in FIG. 4, and 321 to S26 indicate each step.

Next, the operation of the conventional hot air heater will be explained.

By setting the tank (1) in the oil pan (2),
The kerosene in the tank <1> is sent to the oil pan (2)6.As shown in Fig. 6, when the operation switch (not shown) is turned on in S21, the float switch (9) is turned on in S22.
ON10FF is confirmed. The float switch 9) is OFF (that is, when the oil pan (2) is filled with more than a predetermined amount of kerosene), the microcomputer (
100) operates the relay (17>) to energize the heater (12), and preheating of the vaporizer (5) is started.

If the preheating temperature of the vaporizer (5) becomes equal to or higher than the ignition temperature in the next step 323, the thermistor (13) detects this and reports it to the microcomputer (100), which receives this report. oil pump (10
) to send kerosene to the constant oil leveler (4>), at the same time operate the blower fan (6> to send air into the vaporizer (5>), and operate the solenoid valve (14). The air from the blast pipe (15) is also sent to the constant oil level device (4) to pressurize the constant oil level of the constant oil level device (4).When the constant oil level is pressurized by wind pressure, the constant oil level The kerosene in the container (4) is pushed up into the orifice pipe (11) and reaches the injection nozzle provided at the tip of this orifice pipe (11).

Then, it is mixed with the air sent from the blast pipe (15) by the injection nozzle to form a mixed fuel, which is injected into the vaporizer (5) and heated to become fuel gas. The microcomputer (100) then operates the relay (18) to ignite the spark plug (16), which ignites the combustion gas and starts combustion.

If the kerosene in the oil pan (2) falls below a predetermined amount during combustion, the float switch (9) is turned on in S24 and this is reported to the microcomputer (100).

Upon receiving this notification, the microcomputer (100) flashes the refueling warning lamp (19) and sounds the buzzer (20>) to issue a warning and prompt refueling.

Even after more than 30 minutes have passed since the float switch (9) was turned on at 325, 0FFL or the tank (1) filled with kerosene is not set and oil is not refilled to the oil pan <2>) In case, a microcomputer (10
0) is activated to extinguish the fire and stop operation.

Also, when the operation switch is turned on for the first time in S21, the S
If you want to turn on the float switch (9) at step 22 (that is, the kerosene in the oil pan (2) is already below the predetermined amount),
Proceeding to S26, the microcomputer (100) flashes the refueling warning lamp (19) and turns on the buzzer (20).
It sounds a warning and urges refueling, but if the refueling is not refueled, the microcomputer (100) operates to stop the operation.

[Problems to be Solved by the Invention] The conventional hot air heater described above is configured and operates as described above, so that when the kerosene in the oil pan runs out and the fire is extinguished and the operation is stopped, it is difficult to restart the operation. Even if you try to do so, the -off operation will not be performed until the tank filled with kerosene is set in the oil pan, more than a predetermined amount of kerosene is sent from the tank to the oil pan, and the float switch is turned OFF. There was a problem in that it took an unnecessary amount of time to resume operation.

This invention was made in order to solve this problem, and the vaporizer is preheated while the tank is set and kerosene is sent to the oil pan for refueling, thereby shortening the time it takes to restart operation. The purpose is to obtain a wind heater.

[Means for Solving the Problems] A hot air heater according to the present invention includes a weight sensor for detecting whether a tank filled with kerosene is set, and a notification from the weight sensor indicates that kerosene is Preheating of the vaporizer is started when the refilled tank is set.

[Operation] In this invention, preheating of the vaporizer is started when the tank filled with kerosene is set based on the notification from the weight sensor, so the time it takes to feed kerosene from the tank to the oil pan is reduced. This can be used to complete preheating of the vaporizer.

[Embodiments] Hereinafter, embodiments of the present invention will be described with reference to the drawings. 1st
The figure is a cross-sectional view showing the outline of the configuration of a hot air heater which is an embodiment of the present invention, and FIG. 2 is a block diagram showing the control circuit thereof, and FIG. 4 in each figure.

The same reference numerals as in Fig. 5 indicate the same or equivalent parts, and (3) indicates the tank (1) filled with kerosene by measuring the weight.
) is a weight sensor that detects whether or not it is set.

Moreover, FIG. 3 is a flowchart showing the operation of the hot air heater shown in FIG. 1, and 81 to S11 indicate each step, respectively.

Next, the operation of this embodiment will be explained. Oil pan (2)
By setting tank (1) to
The kerosene inside is sent to the oil pan (2). As shown in FIG. 3, when the operation switch (not shown) is turned on at S1, the float switch (9) is confirmed to be 0N10FF at S2. When the float switch (9) is OFF (that is, the oil pan (2) is filled with more than a predetermined amount of kerosene), the microcomputer (100) operates the relay (18) to turn the heater (12) on. Turn on the electricity,
Preheating of the vaporizer (5) is started. Subsequent ignition, combustion, and extinguishing.

The operation up to the stop of operation is performed in the same manner as the conventional device shown in FIG.

At S2, the float switch (9) is ON (
In other words, if the amount of kerosene in the oil pan (2) is below a predetermined amount, the conventional device moves to Sll, flashes the refueling warning lamp (19), sounds the buzzer (20) to issue a warning, and then starts refueling. However, in this embodiment, if the float switch (9) is ON, the process moves to S7, and the weight sensor (3) detects whether the weight of the tank (1) is greater than a specified value. . That is, in this S7, it is detected whether the tank (1) filled with kerosene has been set. When it is detected that the weight exceeds the specified amount, the microcomputer (100') operates to turn on the heater (12).
) is energized and preheating of the vaporizer (5) starts at 88, when the preheating temperature of the vaporizer (5) reaches or exceeds the ignition temperature and preheating is completed, the process moves to the next 89 and the float Although the switch (9) was turned off (that is, whether the oil pan (2) was filled with a predetermined amount or more of kerosene), it was reconfirmed that the float switch (9) was set to 0FFj.

If so, the process moves to S4, where the process moves to ignition and combustion operations.

Also, even if preheating of the carburetor (5) is completed in S8, if the float switch (9) is not at 0FFL in S8 (in this case,
If the time required to refuel the oil pan (2) from the tank (1) is longer than the preheating completion time, the system moves to SIO and turns off the power to the heater (12) until the preset time elapses. Continue to maintain the temperature of the vaporizer (5).

When the predetermined set time has elapsed, it is checked again whether the float switch (9) has reached 0FFt, and if the float switch (9) is turned off, the process moves to S4, and the process moves to ignition and combustion operations. If the float switch (9) is not at 0FFL even after the set time has elapsed (in this case, there may be an error in the detection of the weight sensor (3)), move to Sll and read the microcomputer (100). operates to flash a refueling warning lamp (19) and sound a buzzer (20) to issue a warning and urge refueling, but if refueling is not done, the microcomputer (100) stops operation.

Further, if the weight of the tank (1) is not equal to or greater than the specified value in S7 (that is, if the tank (1) is left empty), the process moves to S10 and the same operation is performed.

[Effects of the Invention] As explained above, in this invention, the preheating of the vaporizer is started when the tank filled with kerosene is set based on the notification from the weight sensor, so kerosene is transferred from the tank to the oil pan. Preheating of the carburetor can be completed using the time that fuel is being fed, reducing the time spent waiting for refueling and shortening the time required to resume operation.

Furthermore, by providing a weight sensor, the amount of remaining oil can be displayed in stages, which has the effect of allowing appropriate refueling.

[Brief explanation of drawings]

FIG. 1 is a sectional view showing the configuration of a hot air heater as an embodiment of the present invention, FIG. 2 is a block diagram showing the control circuit of the device shown in FIG. 1, and FIG. 3 is a diagram showing the operation of the present invention. FIG. 4 is a sectional view showing the configuration of a conventional device; FIG.
This figure is a block diagram showing a control circuit of the device shown in FIG. 4, and FIG. 6 is a flowchart showing the operation of the conventional device. (1) is the tank, (2) is the oil pan, (3) is the weight sensor, (4) is the oil level gauge, (5) is the carburetor, (6) is the blower fan, (7> is the filter, ( 8> is a water sensor, (9) is a float switch, (10) is an oil pump, (11) is an orifice pipe, (12) is a heater, (13) is a thermistor, (14) is a solenoid valve, (15) is the air pipe, (1
6> is the spark plug, (19> is the refueling warning lamp, (20
) is a buzzer, and (100) is a microcomputer. Note that the same reference numerals in each figure indicate the same or corresponding parts.

Claims (1)

[Claims] A tank for replenishing liquid fuel, an oil tray for storing the liquid fuel supplied from the tank, a float switch for monitoring the amount of liquid fuel stored in the oil tray, and a liquid fuel tank. It has a vaporizer that vaporizes and burns it, a heater that preheats the vaporizer, and a control circuit that controls the operation, and the control circuit energizes the heater to operate the vaporizer. Preheating is started by heating, and when the preheating is completed, combustion operation is started by the control circuit, and when the liquid fuel in the oil pan falls below a predetermined amount, this is detected by the float switch and controlled. In hot air heaters, a control circuit receives this notification and extinguishes the fire.A weight sensor detects by weight whether or not a tank filled with liquid fuel is set in the oil pan, and an operation switch is installed. When it is ON, means for starting preheating by the control circuit when the tank refilled with liquid fuel is set in the oil pan based on the notification from the weight sensor, and means for starting preheating by the float switch when the preheating is completed. It detects whether the liquid fuel in the oil pan is above a predetermined amount, and if it is above the predetermined amount, the combustion operation starts, and if it is below the predetermined amount, the liquid fuel is preheated until a predetermined time elapses. Means for maintaining the temperature of the vaporizer, when a predetermined set time has elapsed, the float switch detects whether the liquid fuel in the oil pan is above a predetermined amount, and if it is above the predetermined amount, combustion is started. Go into action,
A warm air heater characterized by comprising: means for stopping operation if the amount is below a predetermined amount.