JPS6311552Y2 - - Google Patents

Description

[Detailed Description of the Invention] (Field of Industrial Application) The present invention relates to a hot air device that blows hot air outside for purposes such as space heating.

(Prior Art) Conventionally, in the case of this type of hot air device, for example, one for floor heating, as shown in FIG. A device is equipped with a combustion device b, and the air heated by the combustion device b is blown out as warm air through a floor panel c to perform heating (see Utility Model Application Publication No. 114315/1983). Are known.
Note that d is a blower fan for supplying hot air into the floor panel c. In this type of hot air device, combustion device b is placed on the discharge side (swaft side) of convection fan a, so combustion in combustion device b is stable without being affected by changes in air volume of convection fan a. There is an advantage in that it can be done by

In such a hot air device, a control device (not shown) controls the convection fan a to stop after a predetermined period of time after the combustion device b stops.
A convection fan a is provided to supply air to the combustion device b even after the combustion device b is stopped. This is to prevent the combustion device b from being temporarily heated due to the stoppage of the convection fan a, which reduces the amount of heat radiated from the combustion device b compared to during steady operation, which would adversely affect its durability. It is.

(Problem to be solved by the invention) However, in the conventional hot air device, the combustion air fan installed in the combustion device b is turned on and off in conjunction with the on and off of the combustion supply. For this reason, even if the combustion gas exhaust port of combustion device b is provided outside, combustion device b
After the combustion device B has stopped, the exhaust power of the combustion gas in the combustion device b becomes extremely weak, and the combustion gas cannot be sufficiently exhausted. As a result, as mentioned above, the air from the convection fan Even if the outer surface could be cooled, there was a problem in that the combustion device b could not be brought into a non-superheated state in a short period of time. In addition, since unburned gas remains in the combustion device b together with the combustion gas without being discharged, there is a problem in that when restarting, the unburned gas causes a violent ignition phenomenon and damages the combustion gas b. It was hot.

The present invention has been developed in view of this point, and utilizes a convection fan that operates for a predetermined period of time even after the combustion equipment has stopped, and uses the suction force of the convection fan to suck and exhaust the combustion gas and unburned gas inside the combustion equipment. By doing so, while ensuring a stable combustion state of the combustion equipment, the combustion equipment is sufficiently cooled within a short time after it is stopped, preventing overheating of the combustion equipment, and reducing the amount of residual fuel when restarting the combustion equipment. The purpose is to prevent abnormal ignition phenomena caused by unburned gas.

(Means for Solving the Problems) Therefore, in the configuration of the present invention, a fan chamber 6 and a combustion device chamber 7, which are partitioned by a partition plate 5, are formed in the casing 4. , a convection fan 8 having a discharge port 8a penetrating the partition plate 5 and opening into the combustion device chamber 7 is disposed.
A combustion device 11 having a combustion air fan 18 that turns ON and OFF in conjunction with the OFF state is disposed with its heat exchange section facing the discharge port 8a of the convection fan 8, and the combustion air is sucked in by the convection fan 8. The present invention is directed to a hot air device in which air is fed into the combustion device chamber 7 through the discharge port 8a, heated in the heat exchange section of the combustion device 11, and blown out of the casing 4 as hot air.

A control device is provided to control the convection fan 8 to stop after a predetermined time after the combustion device 11 is stopped, and
A combustion gas exhaust pipe 31 extends into the fan chamber 6 through the partition plate 5 and opens near the suction port 8c of the convection fan 8. As a result, after the combustion apparatus is stopped, the outer surface of the combustion apparatus is cooled by the convection fan, and combustion gas, etc. inside the combustion apparatus is sucked and discharged by the suction force of the convection fan.

(Example) Hereinafter, an example of the present invention will be described in detail based on the drawings.

FIG. 1 shows an example in which the present invention is applied to a hot air system for floor heating, in which 1 is a series of hollow floor panels formed by interconnecting a plurality of, for example, four floor panel units 2, 2, . 3 is a heat source device that supplies hot air into the floor panel 1, and both 1 and 3 constitute a hot air device A for floor heating.

As shown in detail in FIGS. 2 and 3, the interior of the casing 4 of the heat source device 3 is divided into a fan chamber 6 and a combustion device chamber on the left and right by a partition plate 5 installed approximately in the center of the casing 4. In the fan chamber 6, a high static pressure type convection fan 8 having a discharge port 8a penetrating through the partition plate 5 and opening into the upper space of the combustion device chamber 7 is connected to a motor 8b of the convection fan 8. It is placed with the front facing towards the rear. On the other hand, the combustion device chamber 7
, a combustion device 11 includes an oil burner 9 and a heat exchanger 10 connected to a combustion chamber 9b of the oil burner 9. is arranged so as to face the discharge port 8a of the convection fan 8, and the oil burner 9 is arranged on the rear side of the heat exchanger 10.

The oil burner 9 is of a so-called vertical type, having a burner section 9a at the bottom and a combustion chamber section 9b at the top. Housing 1 of the oil burner 9
As shown in FIG. 4, a double-shaft motor 14 having a drive shaft 13 extending in the vertical direction is disposed on the burner part 9a side of the double-shaft motor 14. An oil pump 15 driven by 14 is connected. On the other hand, double-shaft motor 1
The upper end of the drive shaft 13 of No. 4 extends into the carburetor 16 disposed in the upper part of the housing 12.
A diffusion vane 17 is attached to the upper end of the drive shaft 13, and an oil supply passage (not shown) communicating with the oil pump 15 is formed in the center of the drive shaft 13, and the upper end of the oil supply passage is opened in the horizontal direction, facing the diffusion vane 17. Further, a combustion air plate fan 18 driven by the motor 14 is mounted above the drive shaft 13 of the double-shaft motor 14, and the carburetor 16
Above it is a vaporizing cylinder 20 having a flame port 19 on its outer peripheral surface.
Therefore, the oil from the oil pump 15 is discharged in the horizontal direction from the upper opening of the oil supply passage, and the discharged oil is atomized by the diffusion vane 17 into the vaporizer 16. The oil fuel diffused and supplied to the housing 1 and vaporized in the vaporizer 16 and the housing 1
The gaseous fuel was mixed with the air taken in by the plate fan 18 from the internal intake port 21 provided on the side of the burner section 9a of No. It is configured to be ignited and burned by a discharge arc from the electrode plug 22. Here, the plate fan 18 is turned ON and OFF in conjunction with the drive of the double-shaft motor 14, that is, the ON and OFF of oil and fuel supply.

The burner portion 9a of the oil burner 9 having such a configuration is communicated with an external intake port 23 opened in the back surface 4a of the casing 4 at a lower space position extending from the back surface 4a of the casing 4 on the partition plate 5 side to the central portion. In this state, it is shielded from other parts of the combustion device chamber 7 by a box-shaped partition 24. On the other hand, the combustion chamber 9b of the oil burner 9 projects above the partition 24 and faces the discharge port 8a of the convection fan 8.

Furthermore, a suction port 25 communicating with the fan chamber 6 is provided at a lower portion of the back surface 4a of the casing 4 corresponding to the fan chamber 6, and a side lower portion of the front surface 4b of the casing 4 corresponding to the combustion device chamber 7. A front air outlet 26 and a side air outlet 27 having the same rectangular shape and communicating with the combustion device chamber 7 are provided in the lower part of the side surface 4c, respectively. Thus, the air sucked into the fan chamber 6 from the suction port 25 by the operation of the convection fan 8 is delivered to the combustion device chamber 7 from the discharge port 8a of the convection fan 8, and the delivered air is used for the combustion device chamber 7. Device 11 (heat exchanger 10 as a heat exchanger and combustion chamber 9 of oil burner 9)
b) and the front air outlet 26 as hot air;
It is configured to supply air into the floor panel 1 from one or both of the side air outlets 27. Incidentally, when hot air is supplied from one of the blow-off ports 26 or 27, the other is closed off with a removable blind plate 28 or the like.

A combustion gas purifying filter 30 is installed in the connection part 10a of the heat exchanger 10 with the combustion chamber part 9b of the oil burner 9, and one end of the combustion gas exhaust pipe 31 is installed in the heat exchanger 10. The other end of the discharge pipe 31 passes through the partition plate 5 and extends into the fan chamber 6, and the other end opens at an opening 31a.
is a suction port 8c on the suction side of the convection fan 8 and facing the front surface 4b of the casing 4 of the fan chamber 6;
It opens near the. Furthermore, the convection fan 8 is controlled by a known control device that starts when the double-shaft motor 14, that is, the combustion device 11, and stops after a predetermined time using a timer or the like after the combustion device 11 is stopped. The system is designed to control operation. In FIGS. 2 and 3, 32 is an oil tank, 33 is an oil filter, and 34 is a leveler that automatically adjusts the amount of oil supplied from the oil tank 32 into the burner section 9a of the oil burner 9.

Therefore, in the embodiment, when the combustion device 11 (hot air device A) is started up or in steady operation, the other end opening 31a of the combustion gas exhaust pipe 31, that is, the combustion gas exhaust port of the combustion device 11 is connected to the convection fan. 8
Since it is provided near the suction port 8c of the combustion device 11, the combustion of oil in the oil burner 9 of the combustion device 11 is not affected by the air blown out from the discharge port 8a of the convection fan 8. On the other hand, the air pressure on the suction side of the convection fan 8 becomes lower than the atmospheric pressure due to the operation of the convection fan 8, but the difference is only slight, and the air pressure on the suction side of the convection fan 8 Since it does not change much due to fluctuations in the amount of intake air, etc., the ignition of the oil burner 9 and the combustion of oil are performed under stable conditions. Therefore, a stable combustion state of the combustion device 11 can be ensured.

Further, as described above, by providing the combustion gas exhaust port of the combustion device 11 near the suction port 8c of the convection fan 8 in the fan chamber 6, the combustion device 11
Since the combustion gas from the convection fan 8 is recirculated and used as part of the intake air from the suction port 8c of the convection fan 8, hot air generation is effectively performed using the calorific value of the combustion gas.
It is possible to improve thermal efficiency. At this time, since the combustion gas from the combustion device 11 is purified by the filter 30, the interior of the room is not contaminated by the combustion gas, and comfortable heating can be performed. Further, since the combustion gas discharge port of the combustion device 11 is located on the side of the suction port 8c of the convection fan 8, that is, on the opposite side of the motor 8b of the convection fan 8, the combustion gas from the combustion device 11 flows into the motor 8b. There is no chance of any damage to the bearings of the motor 8b, etc.

On the other hand, when the combustion device 11 is stopped, the control device controls the convection fan 8 to operate for a predetermined period of time even after the combustion device 11 is stopped. The combustion device 11 is cooled from its outer surface, and
The combustion device 1 is connected to the combustion device 1 by the convection fan 8 from the combustion gas exhaust port provided near the suction port 8c of the convection fan 8.
High-temperature combustion gas and unburned gas within the casing 1 are sucked and blown out to the outside of the casing 4. As a result, the combustion device 11 can be sufficiently cooled in a short period of time, and the inside of the casing 4 does not reach a high temperature, so there is no need to use a heat insulating material in the casing 4, which reduces costs. can be reduced.

Moreover, as described above, when the combustion device 11 is stopped, the unburned gas in the combustion device 11 is completely removed, so when the combustion device 11, that is, the hot air device A, is restarted, an abnormality caused by the residual unburned gas may occur. No ignition phenomenon occurs, and safety can be improved.

In the above embodiment, the present invention is applied to a hot air device A for floor heating that blows hot air to the outside through the floor panel 1. Of course, the present invention can also be applied to various other hot air devices such as hot air devices.

(Effect of the invention) As explained above, according to the hot air device of the present invention, the combustion gas exhaust port of the combustion device is provided near the suction port of the convection fan, and the convection gas is discharged after a predetermined period of time after the combustion device is stopped. By stopping the fan, while ensuring stable combustion in the combustion device, it is possible to effectively generate hot air using the calorific value of the combustion gas and improve thermal efficiency.
After the combustion device is stopped, the outer surface of the combustion device is cooled and combustion gas, etc. inside the combustion device is sucked and discharged to the outside, thereby reliably preventing overheating of the combustion device and improving its durability. It is also possible to prevent the temperature inside the casing from increasing. Moreover, since it is possible to prevent abnormal ignition caused by residual unburned gas at the time of restart, safety can be improved.

[Brief explanation of the drawing]

1 to 4 show embodiments of the present invention,
Figure 1 is a perspective view showing the overall structure of the hot air device for floor heating, Figure 2 is a plan view showing the internal structure of the heat source equipment, Figure 3 is a rear view of the same, and Figure 4 is the structure of the oil burner. FIG. FIG. 5 is a side sectional view showing a conventional example. A...Hot air device for floor heating, 3...Heat source machine, 4...
...Casing, 5...Partition plate, 6...Fan chamber,
7... Combustion device chamber, 8... Convection fan, 8a...
Discharge port, 8c... Suction port, 11... Combustion device, 1
8...Plate fan, 31...Combustion gas exhaust pipe, 31a...Other end opening.

Claims (1)

[Claims for Utility Model Registration] A fan chamber 6 and a combustion device chamber 7 are formed in the casing 4, which are separated by a partition plate 5. A convection fan 8 having a discharge port 8a that opens into the device chamber 7 is disposed, while a combustion air fan 18 that is turned on and off in conjunction with the ON and OFF of fuel supply is installed in the combustion device chamber 7. A combustion device 11 having a heat exchange section is arranged to face the discharge port 8a of the convection fan 8, and the air sucked by the convection fan 8 is sent to the combustion device chamber 7 from the discharge port 8a, The hot air device heats the air in the heat exchange section of the combustion device 11 and blows it out of the casing 4 as hot air, and the convection fan 8 is stopped after a predetermined time after the combustion device 11 is stopped. In addition to providing a control device for controlling the combustion gas discharge pipe 31 of the combustion device 11, the combustion gas exhaust pipe 31 of the combustion device 11 is passed through the partition plate 5 to the fan chamber 6.
A hot air device characterized in that it extends into the air and opens near the suction port 8c of the convection fan 8.