JPH07133796A - Sealing device for exhaust gas mixing fan - Google Patents

Abstract

(57) [Summary] [Purpose] To prevent the occurrence of vibration at the start of the exhaust gas mixing fan. [Configuration] When the exhaust gas mixing fan 12 is stopped by external stop signals 30 to 32, the control device automatically closes the opening / closing valve 28 provided in the seal air flow passage 25, thereby closing the seal air flow passage 25. It is prevented that cold seal air 26 is supplied to the seal box 24 of the exhaust gas mixing fan 12 via the seal box 24.
When the exhaust gas mixing fan 12 is activated, the exhaust gas mixing fan 12 is vibrated when the exhaust air mixing fan 12 is partially cooled by the seal air 26 forced to flow from Be able to prevent that.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention is provided in a boiler,
The present invention relates to a sealing device for an exhaust gas mixing fan.

[0002]

2. Description of the Related Art FIGS. 3 to 5 show a conventional sealing device for an exhaust gas mixing fan.

In the figure, 1 is a boiler body, 2 is a boiler body 1
No. 3 furnace, 3 a burner provided in the furnace 2, 4 a combustion gas generated in the furnace 2, and 5 a rear heat transfer section provided on the outlet side of the furnace 2.

Reference numeral 6 is an air supply passage connected to the burner 3 for supplying combustion air 7, and 8 is an air supply passage 6
It is a forced draft fan installed at the entrance of.

Reference numeral 9 is an exhaust gas 1 connected to the rear heat transfer section 5.
It is an exhaust gas flow path for discharging 0.

Reference numeral 11 denotes an exhaust gas mixing flow passage connected between the exhaust gas flow passage 9 and an outlet side of the air supply flow passage 6 of the forced draft fan 8. Reference numeral 12 denotes an exhaust gas provided in the exhaust gas mixing flow passage 11. It is a mixing fan.

In FIG. 4 and FIG. 5, 13 is an exhaust gas mixing fan 1.
2, casing 14 is the main shaft of exhaust gas mixing fan 12,
Reference numeral 15 is a fan blade attached to the main shaft 14 via a boss 16, 17 is a bearing of the exhaust gas mixing fan 12, 18 is a drive motor connected to the exhaust gas mixing fan 12 via a coupling 19, and 20 is an exhaust gas mixing fan 12 Is a turning motor that is connected to the motor via a coupling 19.

Further, 21 is an inlet damper of the exhaust gas mixing fan 12, 22 is a damper driving device of the inlet damper 21, 23 is an outlet damper of the exhaust gas mixing fan 12, and 24 is an exhaust gas mixing fan 12, the inlet damper 21 and the outlet damper 23. It is a seal box.

Reference numeral 25 denotes a seal air flow path for supplying the seal air 26 from the forced draft fan 8 to each seal box 24, and 2
Reference numeral 7 is a manual stop valve provided in the middle of the seal air flow path 25.

When the boiler is operated, air 7 is supplied from the forced draft fan 8 to the burner 3 through the air supply passage 6, and the burner 3 mixes the air 7 with the fuel so that the fuel is supplied into the furnace 2. To burn.

Then, combustion gas 4 is generated in the furnace 2 by the combustion of the fuel, and the combustion gas 4 flows from the furnace 2 to the rear heat transfer section 5 and is provided inside the boiler body 1 or inside the boiler body 1. An unillustrated superheater or reheater is overheated to generate steam, and then discharged from the exhaust gas passage 9 to the outside.

A part of the exhaust gas 10 flowing through the exhaust gas flow passage 9 is returned from the exhaust gas mixing flow passage 11 to the air supply flow passage 6 by using the exhaust gas mixing fan 12 driven by the drive motor 18, and is burned by the burner 3. Used to control combustion.

Then, the seal air 26 from the forced draft fan 8 is supplied to each seal box 24 of the exhaust gas mixing fan 12 and its inlet damper 21 and outlet damper 23 through the seal air flow passage 25, whereby the shaft portion Is sealed.

Further, during operation of the boiler, a main fuel trip (MFT) and an exhaust gas mixing fan trip (GMF) are externally performed.
When a stop signal such as “trip” or an exhaust gas mixing fan stop (GMF stop) is generated, the exhaust gas mixing fan 12
Is stopped and the inlet damper 21 and the outlet damper 23 of the exhaust gas mixing fan 12 are closed, so that the exhaust gas 1 having a high temperature inside the casing 13 of the exhaust gas mixing fan 12 is discharged.
0 is in a sealed state (called banking).

Incidentally, the trip means that the supply of the main fuel to the boiler body 1 and the operation of the exhaust gas mixing fan 12 are urgently stopped due to an unexpected situation.

[0016]

However, the conventional exhaust gas mixing fan sealing device described above has the following problems.

That is, in the boiler, since the forced draft fan 8 is operated prior to the exhaust gas mixture fan 12 in operation, even if the exhaust gas blend fan 12 is stopped, cooling from the forced draft fan 8 is performed. Since the seal air 26 is supplied to each seal box 24 via the seal air flow path 25, the seal air 26 is not supplied to the seal box 2.
4 forcibly enters the casing 13 of the exhaust gas mixing fan 12.

Then, the temperature distribution is generated in the exhaust gas 10 sealed inside the exhaust gas mixing fan 12 by the seal air 26, and the fan blade 15 is distorted due to the temperature difference, and the distortion causes the exhaust gas mixing fan 12 to restart. There was a problem that vibration was generated when it was given.

Therefore, the main shaft 1 of the exhaust gas mixing fan 12
4 is connected to the turning motor 20 to slowly rotate the fan blades 15 by the turning motor 20 while the exhaust gas mixing fan 12 is not operating, thereby preventing the temperature distribution inside the casing 13 from being generated, Although the distortion of 15 is prevented, the turning motor 20 is expensive, which causes an increase in equipment cost.

Further, the installation of the turning motor 20 also causes a limitation in equipment arrangement.

In view of the above situation, it is an object of the present invention to provide a sealing device for an exhaust gas mixing fan, which is capable of preventing the occurrence of vibration at the time of starting the exhaust gas mixing fan.

[0022]

According to the present invention, an opening / closing valve is provided in a seal air flow path for supplying sealing air to a seal box of an exhaust gas mixing fan, and the opening / closing valve is used as a start / stop signal for the exhaust gas mixing fan from the outside. According to the present invention, there is provided a seal device for an exhaust gas mixing fan, which is provided with a control device for opening and closing the fan.

[0023]

The operation of the present invention is as follows.

The control device automatically opens the on-off valve provided in the seal air flow passage in response to an activation signal from the outside so that the seal air is supplied to the seal box of the exhaust gas mixing fan via the seal air flow passage.

Then, when the exhaust gas mixing fan is stopped by a stop signal from the outside, the control device automatically closes the open / close valve provided in the seal air flow path.

Then, the cold seal air is prevented from being supplied to the seal box of the exhaust gas mixing fan through the seal air flow path, and the fan blades of the exhaust gas mixing fan are partially cooled by the seal air to become the fan blades. Distortion is prevented, and vibration of the exhaust gas mixing fan is prevented when the exhaust gas mixing fan is started.

[0027]

Embodiments of the present invention will be described below with reference to the drawings.

1 and 2 show an embodiment of the present invention.

Further, the entire structure of the boiler is the same as that shown in FIG. 3, so that FIG. 3 will be referred to when necessary.

In the figure, 11 is an exhaust gas mixing channel connected between the exhaust gas channel 9 and the outlet side of the air supply channel 6 for the forced draft fan 8, and 12 is provided in the exhaust gas mixing channel 11. It is an exhaust gas mixing fan.

Reference numeral 13 is a casing of the exhaust gas mixing fan 12, 14 is a main shaft of the exhaust gas mixing fan 12, and 15 is a main shaft 1.
4 is a fan blade attached to the exhaust gas mixing fan 12 via a boss 16, 17 is a bearing of the exhaust gas mixing fan 12, and 18 is a drive motor connected to the exhaust gas mixing fan 12 via a coupling 19.

Reference numeral 21 is an inlet damper of the exhaust gas mixing fan 12, 22 is a damper drive device of the inlet damper 21, 23 is an outlet damper of the exhaust gas mixing fan 12, 24 is a seal box for the exhaust gas mixing fan 12, the inlet damper 21 and the outlet damper 23. Is.

Reference numeral 25 denotes a seal air flow path for supplying the seal air 26 from the forced draft fan 8 to each seal box 24, and 2
Reference numeral 7 is a manual stop valve provided in the middle of the seal air flow path 25.

In the present invention, an opening / closing valve 28 such as a piston valve is provided on the inlet side of the seal air flow passage 25 for supplying the seal air 26 to the seal box 24 of the exhaust gas mixing fan 12 and the exhaust gas mixing fan 12 is started from the outside. Signal 2
9 and a control device 34 that sends an open / close command 33 to the open / close valve 28 in response to stop signals 30 to 32 described later.

FIG. 2 is a diagram showing a control flow in the control unit 34.

Reference numeral 35 is a selection button provided on the control device 34 for selecting a closing / opening / automatic operation mode, and 36, 3
Numerals 7 and 38 are symbols for conveniently showing an opening operation signal, a closing operation signal, and an automatic operation signal output by selecting the selection button 35, and 39 is an opening / closing command 33 input to the opening / closing valve 28.

Reference numeral 30 is a stop signal input in the case of a main fuel trip (MFT), 31 is a stop signal input in the case of an exhaust gas mixing fan trip (GMF trip), 32
Is a stop signal input when the exhaust gas mixing fan is stopped (GMF stop), and 40 is an OR circuit that generates a stop instruction signal 41 when any one of the stop signals 30 to 32 is input, 42 Is an AND circuit 42 that generates a closing operation signal 43 when both the stop instruction signal 41 and the automatic operation signal 38 are input.

Reference numeral 44 denotes a delay circuit for generating a delay signal 45 after a predetermined time when the activation signal 29 is input, and reference numeral 46 generates an opening operation signal 47 when both the delay signal 45 and the automatic operation signal 38 are input. The AND circuit 46.

Next, the operation will be described.

While the boiler body 1 is in operation, the exhaust gas mixing fan 12 sends a part of the exhaust gas 10 flowing through the exhaust gas passage 9 to the air supply passage 6 through the exhaust gas mixing passage 11 and returns it to the boiler body 1. During the process and the operation of the boiler body 1, the exhaust gas mixing fan 12 and the exhaust gas mixing fan 1
The process of supplying the seal air 26 from the forced draft fan 8 to the seal boxes 24 of the inlet damper 21 and the outlet damper 23 of No. 2 to seal the shaft portion is the same as in FIGS.

First, when the open button provided on the selection button 35 of the control device 34 shown in FIG. 2 is selected, the opening / closing valve 28
The open operation signal 36 is sent to the open / close valve 28 forcibly, and when the close button is selected, the close operation signal 37 is sent to the open / close valve 28 and the open / close valve 28 is closed forcibly. When the automatic button is selected, either the closing operation signal 43 or the opening operation signal 47 is sent to the opening / closing valve 28, and the opening / closing valve 28 is controlled to be in either the open or closed state. .

Before driving the exhaust gas mixing fan 12, the automatic button is usually selected.

As a result, the stop signals 30 to 32 such as the main fuel trip (MFT), the exhaust gas mixing fan trip (GMF trip), and the exhaust gas mixing fan stop (GMF stop) are externally supplied while the boiler body 1 is in operation. If generated, the exhaust gas mixing fan 12 is stopped, and
Inlet damper 21 and outlet damper 2 of the exhaust gas mixing fan 12
3, the casing 1 of the exhaust gas mixing fan 12 is closed.
The exhaust gas 10 having a high temperature is sealed in the inside 3 (called banking).

The trip means that the supply of the main fuel to the boiler body 1 and the operation of the exhaust gas mixing fan 12 are urgently stopped due to an unexpected situation.

Then, the stop signals 30 to 32 such as the main fuel trip (MFT), the exhaust gas mixing fan trip (GMF trip), and the exhaust gas mixing fan stop (GMF stop) are sent to the control device 34. OR circuit 40
The stop instruction signal 41 is output from the automatic operation signal 3
8 is input from the AND circuit 42 to the closing operation signal 43
Is output, the on-off valve 28 is closed by the closing operation signal 43 and the seal air flow path 25 is shut off.

When the on-off valve 28 shuts off the seal air flow path 25 in this way, the cold seal air 26 from the push air blower 8 is sealed through the seal air flow path 25 even if the push air blower 8 is operating. Since the air is not supplied to the box 24, the seal air 26 is forced to enter the inside of the casing 13 of the exhaust gas mixing fan 12 from the seal box 24 to generate a temperature distribution in the exhaust gas 10 sealed inside the exhaust gas mixing fan 12. This prevents the fan blades 15 from being distorted due to the temperature difference.

After that, when the start signal 29 is sent from the outside, the inlet damper 21 and the outlet damper 23 are opened and the exhaust gas mixing fan 12 restarts operation. Since the blades 15 are not distorted, the restarted exhaust gas mixing fan 12 is prevented from vibrating.

Therefore, the turning motor 20 for preventing the fan blades 15 from being distorted due to the temperature difference by slowly rotating the fan blades 15 while the exhaust gas mixing fan 12 is stopped is not required, and the equipment is not required. It is possible to reduce costs and liberalize the layout of facilities, and the operation of the exhaust gas mixing fan 12 is simplified.

When the exhaust gas mixing fan 12 is activated, the activation signal 29 is also sent to the control device 34, the delay signal 45 is generated after a certain time passes through the delay circuit 44, and the automatic operation signal 38 is input. Since the opening operation signal 47 is generated from the AND circuit 46, the opening / closing valve 28 is opened by the opening operation signal 47, and the seal air flow path 2 is opened.
The shaft portion is again sealed via 5.

The present invention is not limited to the above-described embodiments, and it goes without saying that various modifications can be made without departing from the gist of the present invention.

[0051]

As described above, the sealing device for an exhaust gas mixing fan according to the present invention has an excellent effect that it is possible to prevent the occurrence of vibration at the time of starting the exhaust gas mixing fan.

[Brief description of drawings]

FIG. 1 is a schematic system diagram of an embodiment of the present invention.

FIG. 2 is a diagram showing a control flow in the control device of FIG.

FIG. 3 is an overall schematic system diagram of a conventional example.

FIG. 4 is a partially enlarged view of FIG.

5 is a partially enlarged sectional view of FIG.

[Explanation of symbols]

 12 Exhaust gas mixing fan 24 Seal box 25 Seal air flow path 26 Seal air 28 Open / close valve 29 Start signal 30-32 Stop signal 34 Control device

Claims (1)

[Claims] 1. An on-off valve is provided in a seal air flow path for supplying seal air to a seal box of an exhaust gas mixing fan, and a control device for opening and closing the on-off valve in response to an external start / stop signal of the exhaust gas mixing fan is provided. A sealing device for an exhaust gas mixing fan, which is characterized in that