JPS5971919A - Device to exhaust combustion gas - Google Patents

Abstract

PURPOSE:To obtain a device to exhaust combustion gas without lowering the sucking ability of a fan, and hardly causing combustion failure in a combustion apparatus body by the air pressure when the air is reversely blowing, by fitting a fan case to the flange of a connecting pipe being interposed by a spacer, in such a manner that the exhaust port of the combustion apparatus body and the suction port of a fan case are opposed to each other. CONSTITUTION:The combustion exhaust gas generated in a combustion apparatus body 21 is fed into a connecting pipe 23 from an exhaust air outlet port 22, and is led into a fan case 24 from a suction air port 27 by the rotating fan 26, and is exhausted to the outside from an exhaust vent 29. In this case, the secondary air is sucked from a gap part 31 between the flange 23a of a connecting pipe 23 and the fan case 24 by the rotating fan 26. With such an arrangement, the combustion exhaust gas is mixed with the secondary air in the vicinity of the suction air inlet port 27, and is exhausted to the outside from the exhaust vent 29 by the rotating fan 26, after the temperature in the exhaust gas is cooled down by the secondary air.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a combustion gas exhaust device for forcibly exhausting combustion exhaust gas generated in a combustion equipment body such as a hot water boiler using a fan.

21.-7 Structure of conventional example and its problems As shown in FIG. A fan case 6 includes a fan 4 that is rotationally driven by a fan 4 and has an intake port 5 at the bottom thereof, an exhaust pipe 7 connected to the side of the fan case 6, and an upper end flange at the bottom of the fan case 6. The fan case 6 and the combustion equipment main body 2 are connected via the baffler 10. . In this case, the baffler 1o has an upper part connected to a connecting fitting 8 and a lower part connected to a baffler connecting fitting 9 via a supporting fitting 11, so that it can be mixed with the combustion exhaust gas from the buff 2. As a result, the temperature of the combustion exhaust gas can be lowered and it can be discharged from the exhaust stack 7 to the outside as shown by the arrow, and at the same time, when a headwind enters the fan case 6 from the exhaust stack 7, the wind pressure can be reduced. Since the exhaust gas can be discharged from the lower secondary air intake port 1d of the baffler 10, backflow of the exhaust gas to the combustion equipment main body 2 can be prevented. In addition, in this Figure 1, 12
1 is an exhaust gas temperature detection thermometer mounted in the baffler 10 via a mounting bracket 13.

However, in the above conventional configuration, the baffler 1
Since secondary air is taken in from the bottom of the
The baffler 10 has a large diameter at the bottom and a small diameter because it needs to be connected to the connection fitting 8 at the top.
As a result, these act as air intake resistance of the fan 4, causing a decrease in the suction capacity of the fan 4. When the wind pressure is discharged from the secondary air intake port 10' at the bottom of the baffler 10 when there is a strong head wind, the direction of the discharge is opposite to the outflow direction of the combustion exhaust gas, so when the wind pressure is strong, In view of the above-mentioned conventional problems, the present invention has the problem that the wind pressure is applied inside the combustion equipment main body 2, causing poor combustion. It is an object of the present invention to provide a combustion gas exhaust device that is extremely unlikely to cause poor combustion in the main body of a combustion device due to wind pressure during headwinds.

Structure of the Invention In order to achieve the above object, the present invention comprises a combustion equipment main body having an exhaust port, a fan case in which a fan rotated by a motor is installed and an intake port, and a part of the fan case. an exhaust pipe connected to the combustion equipment main body, a connector having a flange at an end is connected to the exhaust port of the combustion equipment main body, and the exhaust pipe of the combustion equipment main body is connected to the flange of the connector. A gap for secondary air intake is provided between the flange of the connector and the fan case by attaching the fan case via a spacer so that the fan case and the fan case face each other. According to this configuration, as the fan rotates, secondary air can be directly taken in from the gap between the flange of the connector and the fan case, eliminating the intake resistance of the fan. There is no reduction in suction capacity, and in the event of a headwind, the wind pressure can be quickly discharged from the gap between the flange of the connector and the fan case, eliminating the problem of conventional headwind pressure. The problem of poor combustion caused by this can also be greatly reduced.

DESCRIPTION OF THE EMBODIMENTS An embodiment of the present invention will be described below with reference to FIG. In this FIG. 2, reference numeral 21 denotes a combustion equipment main body such as a hot water boiler, which has an exhaust port 22 on its upper surface. The lower part of the metal connector 23 formed with 23 & is connected.

Reference numeral 24 denotes a fan case incorporating a fan 26 which is rotationally driven by a motor 26, and an intake port 27 is provided at the bottom of the fan case 24. Reference numeral 28 denotes an exhaust pipe connection port joined to the side of the fan case 24, and an exhaust pipe 29 is connected to the exhaust pipe connection port 61.

When the fan case 24 is attached to the combustion equipment main body 21, a spacer 30 is attached to the flange 23& of the connector 23 so that the exhaust port 22 of the combustion equipment main body 22 and the intake port 27 of the fan case 24 face each other. The fan case 24 is attached through the fan case 24, and by such attachment, a gap 31 for secondary air intake is formed between the flange portion 23a of the connector 23 and the fan case 24. It is something that Reference numeral 32 denotes an exhaust gas temperature detection thermometer attached to the flange portion 23a of the connector 23 with screws 33, and the heat sensitive portion 32 of the exhaust gas temperature detection thermometer 32 protrudes into the gap 31. Note that R1 is the diameter of the connector 23, R2 is the diameter of the intake port 27 of the fan case 24, and L is the diameter of the flange 23a of the connector 23 and the fan case 2.
4 is the distance of the gap 31 between the two.

The operation in the above configuration will be explained. The combustion exhaust gas generated in the combustion equipment main body 21 enters the connector 23 from the exhaust port 22 as shown by the arrow, and then enters the fan case 24 from the intake port 27 due to the rotation of the fan 26, and is then exhausted. It is discharged from the cylinder 29 to the outside as shown by arrow E. In this case, the rotation of the fan 26 causes the connector 23 to
Since secondary air is sucked in as shown by arrow F from the gap 31 between the flange 23a and the fan case 24, the combustion exhaust gas mixes with the secondary air in a portion close to the intake port 27. I'm smiling. As a result, the temperature of the combustion exhaust gas is lowered by being cooled by the secondary air, and the temperature of the combustion exhaust gas is lowered by the fan 2.
6, the gas is discharged from the exhaust pipe 29 to the outside as shown by arrow E.

In the above embodiment, the rotation of the fan 26 allows the secondary air to be taken in directly from the gap 31 between the flange 23a of the connector 23 and the fan case 24, so that the diameter of the connector 23 If R1 is smaller than the diameter R2 of the intake port 27 of the fan case 24, or even if it is the same, the intake resistance of the fan 4 will be extremely small, and as a result, the intake capacity of the fan 4 will not decrease. Therefore, it is possible to fully demonstrate its abilities. In addition, when the back wind enters into the fan case 24 from the exhaust pipe 29, the back wind pressure does not enter the combustion equipment main body side as in the conventional case, and the flange portion 23a of the connector 23
Since it is quickly discharged to the outside through the gap 31 between the fan case 24 and the combustion equipment main body 21 due to back wind pressure.
This can greatly reduce the occurrence of the problem of poor combustion.

'Also, the fan case 24 and the flange portion 23 of the connector 23
If you want to change the distance of the gap 31 between the The suction amount can also be adjusted arbitrarily, and by adjusting the secondary air amount, the suction amount or suction pressure of the combustion exhaust gas can also be easily adjusted.

The exhaust gas temperature detection thermometer 32 is attached directly to the flange 23a of the connector 23 with screws 33, and only the heat sensitive part 32' protrudes into the gap 31, so This makes it possible to reduce the intake resistance of the secondary air intake section, and also to improve the ability to detect headwinds.

Effects of the Invention As described above, according to the present invention, a connector having a flange at the end is connected to the exhaust port of the combustion equipment main body, and the exhaust of the combustion equipment main body is connected to the flange of the connector. By attaching the fan case via a spacer so that the mouth part and the intake port of the fan case face each other, a gap part for secondary air intake is provided between the flange part of the connector and the fan case. When the fan rotates, the 2
Since the next air can be taken in, the intake resistance of the fan is eliminated, so the suction capacity of the fan does not decrease.In addition, when there is a headwind, the wind pressure is transferred between the flange of the connector and the fan case. Since the fuel can be discharged quickly from the gap between the two, the problem of poor combustion due to back wind pressure, which is conventional, can be greatly reduced.

[Brief explanation of drawings]

Figure 1 is a sectional view of a conventional combustion gas exhaust system;
The figure is a sectional view of a combustion gas exhaust system showing an embodiment of the present invention. 21... Combustion equipment main body, 22... Exhaust port section, 23... Connection fitting, 23a... Flange section, 24. Bench/fan case, 26・・・・・・
Motor, 26...Fan, 27...Intake port, 29...Exhaust tube, 30...Spacer, 31...Gap portion. Name of agent: Patent attorney Toshio Nakao and 1 other person No. 1
Diagram 2nd factor

Claims (1)

[Claims] The combustion equipment includes a combustion equipment main body having an exhaust port, a fan case in which a fan rotationally driven by a motor is installed and an intake port, and an exhaust pipe connected to a part of the fan case. A connector having a flange at the end is connected to the exhaust port of the main body, and a spacer is attached to the flange of the connector so that the exhaust port of the combustion equipment main body and the intake port of the fan case face each other. A combustion gas exhaust device in which a gap for secondary air intake is provided between the flange of the connector and the fan case by attaching the fan case through the fan case.