JPH02154917A - Hot air heater using kerosene - Google Patents

Abstract

PURPOSE:To regulate a combustion rate and an air blow quantity with the aid of an air-flow direction variable plate by providing the air-flow direction variable plate which is mounted at the lower part of a hot air outlet port and varies a hot air outlet angle by being set at the fore part of the hot air outlet port, and by providing a combustion control device for automatically regulating the combustion rate and air blow quantity of a heater, respectively, on the basis of the setting of the air-flow direction variable plate at the fore part of the hot air outlet port. CONSTITUTION:When an air-flow direction variable plate 15 is set upward at the fore part of a hot air outlet port 9, a variable louver switch 16 is turned ON, and a microcomputer sends a control signal that reduces the operating rate of a fuel pump, to a fuel pump driver circuit according to a program control in disregard of a temperature set by a thermostatic sensor 18 in a room. Thus, the combustion rate of a burner is reduced and, at the same time, a control signal that increases the driving rate of a blowing fan motor, is sent to a blowing fan driver circuit so as to increase the air blow quantity of a blowing fan 8. As it is so designed that a temperature is led upward in the form of suitable hot air in such a manner, for example, the drying of the hair after washing the hair or the drying of the washing can be effected very easily.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to an indoor open type oil hot air heater, and particularly to expanding its applications.

[Prior Art] FIG. 6 is a front view showing, for example, a conventional oil hot air heater, and FIG. 7 is a side sectional view thereof. In the figure, (31) is a cartridge tank, (32) is an oil pan, (33) is a fuel pump (electromagnetic type), (34) is a combustor, and (35) is an oil pipe. (36) is the combustion tube, (37) is the combustion chamber, (3
8) is a blower fan, (39) is a hot air outlet, and (40) is a louver. (41) is the exterior case, (42) is the bottom plate, (43) is the front panel, (44) is the operation display section, (
45) is a combustion control device, and (48) is a thermosensor.

A conventional oil hot air heater is configured as described above.
As shown in Fig. 7, when kerosene is burned in the combustor (34), the combustion gas is transferred from the combustion tube (36) to the combustion chamber (37).
There, the air is mixed with cold air from the rear blower fan (38), becomes appropriately warm air, and is guided into the room through the warm air outlet (39).

In order to improve indoor heating efficiency, the hot air outlet (39) is provided below the heater body, and the warm air guided downward by the louver (40) of the hot air outlet (39) is It flows along the floor in front of me.

Also, when the room temperature is detected by the thermosensor (4B) and compared with the temperature set on the operation display section (44), if the temperature is lower than the set temperature, the fuel pump (33) is driven to increase the combustion amount. At the same time, the amount of air blown by the fan (38) is increased. When the room temperature detected by the thermo sensor (46) exceeds the set temperature, the fuel pump (33)
) is reduced to reduce the amount of combustion, and the amount of air blown by the blower fan (38) is also reduced.

As described above, the combustion control device (45) adjusts the combustion amount and air blowing amount by program control within the temperature range set on the operation display section (44).

In addition, the hot air outlet (39) of the oil hot air heater is designed to blow out hot air from below in order to improve indoor heating efficiency. Therefore, the louver (40) at the hot air outlet
Most of these were fixed in a downward direction so that the warm air came out from below, and even if the wind direction could be varied, it was only in the left and right directions.

[Problems to be Solved by the Invention] In the conventional oil hot air heater as described above, the louver (40) of the hot air outlet is fixed downward and is used exclusively as an indoor hot air heater. However, there was a problem in that it could not be used for other uses such as dryers and drying clothes.

This invention was made to solve this problem, and an object of the present invention is to obtain an oil hot air heater that can adjust the combustion amount and the 8R amount of air flow using a variable wind direction plate.

[Means for Solving the Problems] The oil hot air heater according to the present invention includes a variable wind direction plate that is attached to the lower part of the hot air outlet and that changes the hot air blowing angle by setting the hot air outlet forward. , is equipped with a combustion control device that automatically adjusts the combustion amount and air blowing amount of the heater based on the forward setting of the hot air outlet of the variable wind direction plate.

[Function] In this invention, the combustion amount of the oil hot air heater is automatically adjusted by setting the variable wind direction plate provided at the bottom of the hot air outlet of the oil hot air heater in front of the hot air outlet. , for example, the amount of air blown automatically changes to a strong wind while changing to a weak one.

[Example] Fig. 1 is a front view of an oil hot air heater showing an example of the present invention, and Fig. 2 is a side sectional view of the oil hot air heater.
1) is a cartridge tank, (2) is an oil pan, (3) is a fuel pump (electromagnetic type), (4) is a combustor, and (5) is an oil pipe. (6) is the combustion tube, (7) is the combustion chamber, (8)
(9) is a hot air outlet, and (10) is a louver. (11) is the outer case, (12) is the bottom plate, (
13) is the front panel, (14) is the operation display section, (15)
is a variable wind direction plate. (16) is a variable louver switch (micro switch or magnetic switch), (17) is a combustion control device, and (18) is a thermosensor.

In the oil hot air heater configured as described above, the conventional oil hot air heater for room heating (Figures 6 and 7)
In addition to the configuration shown in Figures 1 and 2, a variable wind direction plate (15) and a variable louver switch (16) are installed, and the variable wind direction plate (15) is connected to the hot air outlet (9). By setting the angle θ forward and upward, the hot air can be directed upward.

By setting the variable wind direction plate (15) forward and upward at an angle θ, the variable wind direction plate (15) can be set to the variable louver switch (16).
), the variable louver switch (IB) is turned on, and the combustion control device (17) is separated from the variable louver switch (1
When B) is turned on, the program control is changed to weaken the combustion amount and increase the air blowing amount.

FIG. 3 is a block diagram of the combustion control device attached to the main body of the oil hot air heater, and FIG. 4 is a time chart showing the operation of the combustion control device. The combustion control device according to this embodiment is used when operating for indoor heating and when operating with a variable wind direction plate (
15) may be used for operation.

First, the case of operation for indoor heating will be explained. The desired indoor temperature is set in the temperature setting section (22), the thermosensor (18) senses the indoor temperature, the amplifier (19) amplifies the output of the thermosensor (18), and the A/D converter (2
A/D conversion is performed using the microcomputer (21).
Enter. The microcomputer (21) performs program control by comparing the temperature set value with the temperature sensed by the thermosensor (18).

If set temperature > sensor temperature, microcomputer (
21) sends a control signal to the fuel pump driver circuit (23) to increase the drive amount of the fuel pump (24), and the burner (
25) increases the amount of combustion. In addition, the microcomputer (21) sends a control signal to the blower fan driver circuit (2B) to increase the drive amount of the blower fan motor (27), and controls the blower fan (8) to increase the amount of combustion. ) is increasing the amount of air blown.

If the set temperature is the sensor temperature, the microcomputer (
21) sends a control signal to the fuel pump driver circuit (23) to reduce the amount of drive of the fuel pump (24), thereby reducing the amount of combustion in the burner (25).

In addition, the microcomputer (21) reduces the combustion amount and sends a control signal to the blower fan driver circuit (26) to reduce the drive amount of the blower fan motor (27), thereby reducing the amount of air blown by the blower fan (8). I'm doing less.

Next, a case will be described in which the variable wind direction plate (15) is used for applications other than heating.

When the variable wind direction plate (15) is set to the upper front of the hot air outlet (9), the variable louver switch (1B) is turned on, and the combustion control device in Fig. Under program control, the microcomputer (2I) sends a control signal to the fuel pump driver circuit (23) to reduce the amount of drive of the fuel pump (24), ignoring the temperature of the indoor thermosensor (18).
In addition to reducing the amount of combustion in the burner (25), the blower fan motor (27) is connected to the blower fan driver circuit (26).
Sends a control signal to increase the amount of drive of the blower fan (8)
The amount of air blown is increased.

By guiding the warm air upwards as described above, it is possible to easily dry the hair after washing, or hang the laundry to dry, for example.

In this way, when applying to other uses, in order to improve safety and drying efficiency, it is automatically switched to low flammability and the air flow rate is increased.

In this operating state, the variable louver switch (16) is ON.
When the variable wind direction plate (15) is returned to its original position, the variable louver switch (16) is turned OFF, and the microcomputer (21) again turns on the thermosensor (
18) and enters the indoor heating operation described above.

In this way, hair and clothes can be dried safely and with peace of mind. In addition, indoor heating can be safely used, making it possible to expand the use of oil hot air heaters.

Figure 5(a) and Figure 5(b) respectively show the variable wind direction plate (
15aS15b) and variable louver switch (lea,
18b) is an explanatory diagram of another embodiment showing the mounting position.

As shown in FIG. 5(a), this is an example in which a variable wind direction plate (15a) is embedded in the lower part of the oil hot air heater at an elevation angle. When using the variable wind direction plate (15a), pull the variable wind direction plate (15a) diagonally upward to guide the warm air from the hot air outlet (9) upwards, and then press the variable louver switch (lea). is set to ON.

The embodiment shown in FIG. 5(b) is an example in which a variable wind direction plate (15b) is installed horizontally below the hot air outlet (9). When using the variable wind direction plate (15b), the variable wind direction plate (15b)
15b) in the horizontal direction and set diagonally above the hot air outlet (9) in the same manner as the embodiment shown in FIG. 5(a). At that time, the variable louver switch (16b) is set to ON.

[Effects of the Invention] As described above, according to the present invention, by attaching the variable wind direction plate to the oil hot air heater, the heated hot air rises, so that in addition to indoor heating, It can dry hair and clothes, making it possible to expand the range of uses.

[Brief explanation of the drawing]

Fig. 1 is a front view of an oil hot air heater showing an embodiment of the present invention, Fig. 2 is a side sectional view of the oil hot air heater, Fig. 3 is a block diagram of the combustion control device, and Fig. 4 is a Time chart of the combustion control device, Figures 5(a) and (b) are other embodiments showing the mounting positions of the variable wind direction plate and variable louver switch, and Figure 6 is the front view of a conventional oil hot air heater. 7 are side sectional views of a conventional oil hot air heater. In the figure, (1) is the cartridge tank, (2) is the oil pan, (3) is the fuel pump, (4) is the combustor, (5) is the oil pipe, (8) is the combustion tube, and (7) is the combustion room, (8) is a blower fan, (9) is a hot air outlet, (10) is a louver (1
1) is the exterior case, (12) is the bottom plate, (13) is the front panel, (14) is the operation display section, (15) is the variable wind direction plate,
(16) is a variable louver switch, (17) is a combustion control device, and (18) is a thermosensor. Note that the same reference numerals in the figures indicate the same or equivalent parts. Agent Patent Attorney Muneharu Sasaki Figure 5 (a) (b)

Claims (1)

[Claims] A variable wind direction plate is attached to the lower part of the hot air outlet and changes the blowing angle of hot air by setting the hot air outlet forward, and heating is performed based on the setting of the variable plate toward the front of the hot air outlet. An oil hot air heater characterized by being equipped with a combustion control device that automatically adjusts the amount of combustion and the amount of air blown.