JPH0271011A - Heating apparatus - Google Patents

Abstract

PURPOSE:To recover the heat of a heat barrier plate which has been heated by a heat generating section by the blast from a blower and discharging the recovered heat to improve the effect of room-heating by providing a blower which sends air to a ventilation chamber which is formed between a heat barrier plate provided above a heat generating section and upper plate of the case of a main body. CONSTITUTION:When a flame detector 16 detects a flame F, a motor 31 of a blower 29 is driven to rotate a sirocco fan 32, and the air in a room that is sucked into a fan case 34 through a filter 30 is blown out to the lower end of a space X from a discharge port 33. The air stream flows into a ventilation chamber Y as it recovers the heat of a reflecting plate 28 heated by the radiation heat from a combustion cylinder 25. When the air stream flows into the ventilation chamber Y, it is divided to upwards and downwards in the ventilation chamber Y by a flow dividing plate 48, and discharged from the ventilation port 46 in the front end of the ventilation chamber Y to the upper end of the opening section 5 of the case of a main body 1. Further, the heat of a barrier plate 43 which is heated by the combustion exhaust gas that flows out from the combustion chamber 25 is recovered to suppress a rise in temperature of the upper plate 4 of the case of the main body 1.

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Field of Industrial Application The present invention mainly relates to a heating machine such as a radiant oil heater that heats a room by radiating radiant heat from a heat generating part to the front of a main body case.

(b) Conventional technology Conventional heating machines of this type include, for example,
As shown in Publication No. 34161, a heat shield plate is provided above the heat generating part provided in the main body case, and a ventilation chamber is formed between this heat shield plate and the top plate of the main body case. A heater is known that prevents the temperature of a top plate from rising to an abnormal temperature by blowing air into a room with a blower.

(c) Problems to be Solved by the Invention In the conventional configuration described above, the airflow from the blower is simply circulated through the ventilation chamber, so the maximum calorific value of the heat generating part is, for example, 2000 to 3000 Kcal/h. If it is large, or if the height of the heat generating part is set long to enhance the heating effect by radiation, the rise in temperature of the top plate cannot be sufficiently suppressed, and there is a fear that this rise in temperature may cause harm such as burns.

The present invention has been made in view of the above-mentioned facts, and it is an object of the present invention to more efficiently suppress the rise in temperature of the top plate of the main body case by providing a flow divider plate in the ventilation chamber that divides the air flow from the blower upward and downward. It is an object.

(d) Means for Solving the Problems The present invention includes a main body case having an opening on the front surface, a heat generating part provided in the main body case corresponding to the opening, and a shield provided above the heat generating part. The ventilation chamber includes a heat plate, a ventilation chamber formed between the heat shield plate and the top plate of the main body case, and a blower that sends air into the ventilation chamber, and the ventilation chamber receives airflow from the blower. This configuration includes a flow divider plate that divides the flow into upper and lower directions.

The present invention also provides a main body case having an opening on the front surface, a heat generating part provided in the main body case corresponding to the opening,
The ventilation chamber includes a heat shield plate provided above the heat generating part, a ventilation chamber formed between the heat shield plate and the top plate of the main body case, and a blower that blows air into the ventilation chamber. teeth,
A flow dividing plate is provided to divide the airflow from the blower into upper and lower directions, and the outlet of the ventilation chamber is located at the upper end of the opening.

Furthermore, in the above configuration, the outlet portion of the ventilation chamber includes:
A plurality of rows of outflow holes arranged in the horizontal direction are provided in a plurality of rows in the vertical direction, and with respect to the center of the outflow holes of the lower outflow hole row,
The centers of the outflow holes in the outflow hole row above it are shifted in the horizontal direction.

(Book) Effect By providing a blower that blows air into the ventilation chamber formed between the heat shield plate installed above the heat generating part and the top plate of the main body case, the heat generated by the heat shield plate is heated by the heat generating part. can be collected by a blower and released into the room, increasing the heating effect. In addition, by installing a flow divider plate in the ventilation room that divides the airflow from the blower vertically, low temperature air flows between the flow divider plate and the top plate and does not come into contact with the high temperature heat shield. The temperature rise of the board can be further suppressed.

In addition, by locating the outlet of the ventilation chamber at the upper end of the opening, the lower temperature airflow that passes between the flow divider plate and the top plate allows the upper front end of the main body case, which tends to reach the highest temperature, to be heated. By lowering the temperature, it is possible to efficiently suppress the local temperature rise of the main body case due to the influence of hot air from the heat generating part, and to prevent dangers such as burns and fires.

Furthermore, at the outlet of the ventilation chamber, multiple rows of outflow holes are provided in the vertical direction with a plurality of outflow holes arranged in the horizontal direction, and the upper outflow hole Since the centers of the rows of outflow holes are shifted in the lateral direction, air can flow out of the outlet section without any gaps in the lateral direction.

(F) Example Hereinafter, an example of the present invention will be described based on FIGS. 1 to 6. In the figure, (1) is the main body case of the heater, which includes a bottom plate (2), a peripheral plate (3), a top plate (4>) and an opening (5).
a front panel (6) having an opening (5);
is provided with a protective guard (7). (8) is a burner device placed in the lower part of the main body case (1), and the air supply case (10) has a built-in motor (9) and an air supply fan (10).
11), and a vaporization burner (12) for vaporizing and burning petroleum fuel is installed in the upper part of this air supply case (11), and this vaporization burner (12) supplies the vaporized premixed gas to the flame nozzle. It ejects upward from the part (13), and this flame mouth part (1
3) It burns by forming a blue flame (F) above it. The evaporative burner (12) has a plurality of secondary air holes (14) (14) around it, as well as a spark plug (15) and a flame detector.

A burner case (17) is provided which allows the air to pass through the main body case (1), and the air in the main body case (1) is passed through the burner case (14) as secondary air by the draft action of the flame (F). 17). (l
Reference numeral 8) denotes a guide plate in the shape of a substantially inverted truncated cone provided at the upper part of the burner case (17), which guides the secondary air inside the burner case (17) in the direction of the flame (F). (19)
The oil receiver fixed on the bottom plate (2) at the rear of the burner device (8) is a dish, and the fuel in the dish (19) is fed by a fuel pump (20> such as an electromagnetic pump) and a fuel supply pipe (21). ) to the vaporizing burner (12). (22)
is a cartridge tank provided on the back of the main body case (1), the oil pan is for replenishing fuel to the pan (19), and the oil pan is a tank cover (23) that surrounds the pan (19).
It is removably supported by the tank guide parts (24) (24).

(25) is a combustion cylinder as a heat generating part provided in the main body case (1) corresponding to the opening (5) of the front panel (6), and is formed into a hollow cylindrical shape from heat-resistant transparent glass. The flame (F) of the vaporizing burner (12) rises at the lower part of the combustion tube (25). (26) is a partition plate that doubles as a horizontal reflector and is provided to divide the inside of the main body case (1) into upper and lower parts, and the rear edge of this partition plate (26) is connected to the back plate part (3A) of the circumferential side plate (3). At the same time, as shown in Figure 3, the left and right side edges are attached to the peripheral side plates (3)
The side plate portion (3B) is spaced apart from the inner surface. Also, approximately in the center of the partition plate (26) is a lower support portion (27) that fits and supports the lower end of the combustion tube (25). (2
8) is a reflecting plate having an arcuate shape in plan view provided at the rear of the combustion M (25), and its lower end is fixed to the partition plate (26) by spot welding or the like so that it is integrated with the partition plate (26). A space (X) whose lower end communicates with the space below the partition plate (26) is formed between the reflecting plate (28) and the peripheral plate (3).

(29) is a blower that accelerates indoor air sucked in through a filter (30) and blows it into the space (X), and is a sirocco fan rotated by a drive motor (31) and a motor (31). (32), and a fan case (34) with the outlet (33) facing upward. An air diffusion plate (35) is integrally provided with a portion directed laterally, and this air diffusion plate (35) directs the air flow blown out from the outlet (33) to a wide range of the space (X). It's spreading.

The blower (29) sends cool air from the lower part of the room into the ventilation chamber (Y), which will be described later, through the space (X).

(36) is an upper reflector provided at the upper end of the reflector (28), and this upper reflector (36) has a cylindrical exhaust pipe (
37) is supported through the exhaust gas straightening plate (37) and has a large number of exhaust vents (38) connected to the bottom of the exhaust pipe (37).
39), the upper end portion of an incandescent body (40) suspended approximately at the center within the combustion tube (25) is fixed. (41) is an exhaust gas guide plate that guides the combustion exhaust gas that has passed through the exhaust hole (38) of the exhaust gas straightening plate (39) to the catalyst (42) above it; A heat shield plate is provided and is inclined to be higher toward the opening (5), and the exhaust pipe (37) is included below the heat shield plate (43), and the exhaust pipe (37) is connected through the exhaust pipe (37). An exhaust chamber (Z) communicating with the combustion tube (25) is formed.The exhaust outlet section (44) at the front end of this exhaust chamber (Z) is connected to the upper reflector (25).
36), and this exhaust outlet part (44)
As shown in Figure 4, there are oblong exhaust holes (45) (45).
) are provided in the horizontal direction.

A ventilation chamber (Y) communicating with the space (X) is formed between the heat shield plate (43) and the top plate (4) of the main body case (1). A ventilation outlet part (46) is provided at the upper part of the exhaust outlet part (44), and this ventilation outlet part (46) protrudes forward than the exhaust outlet part (44) and is located at the upper end of the opening part (5). ing. In addition, the ventilation outlet section (46) has an outflow hole row (47) having a plurality of horizontally elongated outflow holes (47) as shown in FIG.
47A) (47B), and the lower outflow hole row (
The center (b) of the outflow hole (47) in the outflow hole row (47B) above it is shifted laterally from the center (a) of the outflow hole (47) in the outflow hole row (47A), and Between the adjacent outflow holes (47) (47A), the upper outflow hole row (47A)
The center (B) of the outflow hole (47) in B) is located. (48) is attached to the top of the heat shield plate (43).
111 (49) (49) is a flow divider plate fixed so as to maintain an interval, and this flow divider plate (48) is connected to the ventilation chamber (
The airflow from the blower (29) flowing into the ventilation chamber (Y) is divided into upper and lower parts of the ventilation chamber (Y), and its front end is connected to the outflow hole row (47A) below the ventilation outlet section (46). A hanging piece (50) is provided in a curved manner at the rear end facing the middle position of the upper outflow hole row (47B) and having its lower end facing the upper end in the space (X). Hanging piece (50)
is the back part (3A) of the reflective plate (28> and the peripheral plate (3))
It is located in between.

Further, the blower (29) is connected to the fan case (34).
By fixing the motor support stand (51), which is a body molded product, to the bottom plate (2), it is attached to the lower part of the main body case (1), and at that time, as shown in Fig. 5, the fan case (34)
An outward flange (52) provided on the periphery of the suction side opening (34A) is connected to the peripheral side plate (3) via a sealing material (53).
) A large number of intake holes (54) (54) having a diameter of about 5 to Brrrn are provided at appropriate locations on the side plate (3B) that abuts the inner surface of the side plate (3B) and faces the sirocco fan (32). The filter (30) is detachably attached to the side plate (3B) so as to cover the outside of these intake holes (54). When the filter (30) is removed, there is no risk of contact with the rotating sirocco fan (32) because the intake hole (54) is sized so that fingers or the like cannot be inserted therein. Further, the sealing material <53) has cushioning properties, and the air blower 41! (29) The vibration of the side plate (
3B). Furthermore, a room temperature detection sensor (55) is installed inside the filter (30) and on the outside of the side plate (3B) to detect the room temperature and control the firepower of the burner device (8). ing. (56) is the lead wire of the room temperature detection sensor (55), (
57) is a fixture.

In the above configuration, when the burner device (8) starts combustion, the flame (F) and high-temperature combustion gas are transferred to the red-hot body (
40) to become red hot, and the combustion exhaust gas passes through the exhaust vent (38) of the exhaust gas rectifier plate 39) and enters the exhaust pipe (37).
), passes through the exhaust gas guide plate (41) and the catalyst (42), and is discharged from the exhaust outlet (44) of the exhaust chamber (Z) to the front of the main body case (1). On the other hand, a flame detector (16
) detects the presence of flame (F), the motor (31) of the blower (29) is driven to rotate the sirocco fan (32), and the fan case (34) is
) The room air sucked into the space (X) is blown out from the Suita port (33) to the lower end of the space (X). When the heat from the reflection plate (28) heated by the radiant heat of the heat source 25> is collected and flows into the ventilation chamber (Y), the flow inside the ventilation chamber (Y) is It is divided into upper and lower parts, and is discharged from the ventilation outlet (46) at the front end of the ventilation chamber (Y>) to the upper end of the opening (5) of the main body case (1).

According to the above embodiment, the ventilation chamber (Y) is formed between the heat shield plate (43) provided above the combustion tube (25) and the top plate (4) of the main body case (1), and the reflection plate (28) and the main body case (
Since the air from the blower (29) is sent into the ventilation chamber (Y) through the space (X) between
8) can be recovered to suppress the temperature rise of the peripheral side plate (3) of the main body case (1), and the combustion tube (25
heat shield plate (
43) and suppress the temperature rise of the top plate (4) of the main body case (1). Since a flow divider plate (48) is provided to divert the flow to the flow divider plate (48),
Since low-temperature air that does not come into contact with the high-temperature heat shield plate (43) flows between the top plate (4) and the top plate (48), the rise in temperature of the top plate (4) can be suppressed to a sufficiently low level.

In addition, a flow divider plate (48) is provided in the ventilation chamber (Y) to vertically divide the air flow from the blower (29), and the ventilation outlet section (46) of the ventilation chamber (Y) is connected to the opening of the main body case (1). Since it is located at the upper end of part (5), the top plate (1)
While efficiently suppressing the temperature increase of The temperature can be lowered by airflow, suppressing the temperature rise at the upper end of the front panel (6) due to the effects of combustion exhaust gas, and preventing dangers such as burns and fire.

(G) Effects of the Invention Since the present invention is configured as described above, the heat of the heat shield plate heated by the heat generating part can be recovered by the air blower and released into the room, and the heating effect can be improved. Instead, low-temperature air flows between the flow divider plate and the top plate without coming into contact with the high-temperature heat shield, further suppressing the rise in temperature of the top plate, making it a safe and highly effective heater. can be provided.

Further, in the present invention, the outlet of the ventilation chamber is located at the upper end of the opening! By lowering the height, the low-temperature airflow that passes between the flow divider plate and the top plate lowers the temperature at the upper front end of the main case, which tends to reach the highest temperature. It is possible to efficiently suppress local temperature rises, prevent dangers such as burns and fires, and further enhance safety.

[Brief explanation of the drawing]

1 to 6 all relate to embodiments of the present invention; FIG. 1 is a cutaway side view of a main part of a heater according to the present invention; FIG. 2 is an enlarged sectional view of a main part of FIG. 1; Figure 3 is the first
Figure 4 is a front view of the exhaust outlet and ventilation outlet, Figure 5 is a longitudinal cross-sectional view of the main part of the part where the blower is attached, Figure 6 is the intake hole of the peripheral side plate. It is an enlarged view of the part provided with. (1)...Body case, (4)...Top plate, (5
)... Opening of main body case, (25)... Heat generating part (combustion tube), (29)... Blower, (43>...
Heat shield plate, (46)...Outlet part (ventilation outlet part), (
47)... Outflow hole, (47A) (47B>... Outflow hole row, 48>... Divider plate, (Y>... Ventilation chamber).

Claims (1)

[Scope of Claims] (1) A main body case having an opening on the front surface, a heat generating part provided in the main body case corresponding to the opening, a heat shield plate provided above the heat generating part, and a heat shield plate provided above the heat generating part; The ventilation chamber includes a ventilation chamber formed between a heat shield plate and the top plate of the main body case, and a blower that sends air into the ventilation chamber. A heating machine characterized by having a board. (2) A main body case having an opening on the front surface, a heat generating part provided in the main body case corresponding to the opening, a heat shield plate provided above the heat generating part, this heat shield plate and the main body The ventilation chamber is provided with a ventilation chamber formed between the top plate of the case and a blower that sends air into the ventilation chamber. A heating machine characterized in that the outlet of the ventilation chamber is located at the upper end of the opening. (3) At the outlet of the ventilation chamber, a plurality of rows of outflow holes are provided in the vertical direction, each having a plurality of outflow holes arranged in the horizontal direction. 3. The heater according to claim 2, wherein the centers of the outflow holes in the outflow hole array are shifted in the horizontal direction.