KR101656607B1 - Flow control baffle unit - Google Patents

Abstract

A Baffle unit for flow control is disclosed. The Baffle unit for flow control according to an embodiment of the present invention includes a burner unit including a plurality of unit burners arranged along an inner longitudinal direction of a branch duct extending toward a combustion unit; And a baffle unit disposed facing the plurality of unit burners and having a plurality of unit baffles disposed at different angles along the longitudinal direction of the branch duct.

Description

[0001] Flow control baffle unit [

The present invention relates to a uniform supply of a fluid flowing through a burner unit for supplying a combustion gas toward a combustion unit or a unit air supply unit for supplying combustion air for complete combustion, .

Generally, the type of power plant is classified according to the fuel used. Typical thermal power plant burns fuel such as coal, heavy oil and gas in boiler to heat the thermal energy of hot combustion gas with water in boiler to generate superheated steam of high temperature and high pressure, , And the turbine is rotated at a high speed to convert it into electric energy by a generator connected to the turbine to produce electricity.

Thermal power generation converts the heat energy of fossil fuels such as coal, oil and gas into electrical energy through a boiler, a steam generator, and a turbine generator.

In addition to the above-mentioned facilities, thermal power plants are also equipped with Balance of Plant (BOP) such as fuel supply and treatment system, condensate and water system, cooling water system, reprocessing system and other utility facilities (Air, Service Water, Water / Treatment System), which plays a role in electric production.

A furnace in which coal is supplied as a raw material to be burned is installed in the thermal power plant used as described above, and a duct unit for supplying combustion air for complete combustion is installed in the furnace.

A plurality of duct units are disposed outside the furnace. A plurality of burners are provided in the longitudinal direction of the duct unit for burning the pulverized coal supplied to the duct unit, and combustion is performed in the furnace through combustion of the pulverized coal do.

In order to stably combust the pulverized coal supplied to the burner, a fluid, which is atmospheric air, is supplied together to supply the fluid through a plurality of slots formed in the circumferential direction of the burner, So that the flame shape at the outlet of the burner becomes uneven or the flame safety becomes unstable.

U.S. Published Patent Application No. US20140305356

The embodiments of the present invention can maintain the stable flame shape in the direction of the outlet of the burner unit by making the flow rate of the fluid supplied in the circumferential direction of the burner unit installed in the wind box of the boiler uniform, The flow rate of the Baffle unit can be maintained evenly.

According to an aspect of the present invention, there is provided a burner unit comprising: a burner unit including a plurality of unit burners disposed along an inner longitudinal direction of a branch duct extending toward a combustion unit; and a plurality of unit burners disposed along the longitudinal direction of the branch duct, The unit burner includes first to n-th opening holes through which the fluid transferred through the branch duct is supplied to the outer side of the burner body And the unit baffle may guide the direction of transport of the fluid so as to uniformly distribute the flow rate of the fluid flowing into the first through the n-th openings.

And the branch duct is an intrinsic pipe arranged so as to be spaced apart from the outer side of the combustion unit.

The branch ducts are respectively supplied with fluids in the longitudinal direction of the branch ducts, and the unitary burners are arranged at regular intervals along the longitudinal direction of the branch ducts.

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The unit baffles are arranged in a pair in a pair between the plurality of unit burners and are formed in a plate shape.

Wherein the unit baffle includes: a first unit bell disposed at a first inclination angle with respect to a first unit burner disposed in the burner unit toward the outside of the branch duct; And second to n-th unit bells disposed at an angle of from 2 to n inclined toward the outside of the branch duct on the basis of the second to n-th unit burners spaced apart from the first unit burner, And the inclination angle of the baffle increases as the n-th unit Beflo increases.

The unit baffle further includes a through-hole through which the fluid introduced through the branch duct partially opens.

The branch duct is provided with an auxiliary baffle which is located at an inner central position with respect to the longitudinal direction and blocks the fluid supplied from the left and right sides of the branch duct from being mixed with each other.

And the auxiliary baffle is spaced apart from the inside of the branch duct and is positioned opposite to the inside of the branch duct in a state of being perpendicular to the inside of the branch duct.

The auxiliary baffle further includes a guide portion extending in a left-right symmetrical shape toward the unit burner at positions facing each other to guide the moving direction of the fluid to the unit burner.

A damper unit provided at the front end of the burner unit for controlling a flow rate of the fluid supplied to the burner unit and guiding the moving direction uniformly is provided in the branch duct, and the damper unit includes a plurality of damper blades, And adjusts the inclination angle to an arbitrary angle.

The Baffle unit for flow control according to the second embodiment of the present invention includes a combustion air supply unit including a plurality of unit air supply units arranged along an inner longitudinal direction of a branch duct connected to an extension pipe bent toward the combustion unit, And a baffle unit having a plurality of unit baffles disposed at different lengths to face unit air supply units between the plurality of unit air supply units along a longitudinal direction of the duct, And first through n-th openings communicating with the first through n-th openings and supplied with the fluid conveyed through the branch duct, wherein the unitary baffle uniformly distributes the flow rate of the fluid flowing into the first through the n-th openings It is possible to guide the conveyance direction of the fluid.

Wherein the branch duct is supplied with the fluid in the longitudinal direction of the branch duct, and the combustion air supply unit is disposed at regular intervals along the longitudinal direction of the branch duct.

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The unit bellows are spaced apart from the inner side of the branch duct and the length extending toward the unit air supply unit is shortened as the distance from the extension pipe is increased.

And the unit baffle is disposed only at one side along the longitudinal direction of the branch duct.

And the unit baffles are disposed between the unit air supply units arranged in the longitudinal direction of the branch duct.

The unit baffle further includes a through hole opened toward the unit air supply unit.

And the unit baffles are alternately arranged diagonally in the longitudinal direction of the branch duct.

The branch duct is provided with a guide baffle which is inclined from the inlet position of the branch duct to the unit air supply unit to guide the moving direction of the fluid via the extension pipe.

The branch duct is provided with an auxiliary baffle for blocking the mixing of the fluids supplied from the left and right sides of the branch duct, one end of the branch duct being spaced apart from each other in the inner center position with respect to the longitudinal direction, .

A damper unit provided at the front end of the combustion air supply unit is provided in the branch duct so as to control the flow rate of the fluid supplied to the combustion air supply unit and guide the moving direction uniformly, and the damper unit includes a plurality of dampers And a drive unit connected to the damper blade to adjust the inclination angle to an arbitrary angle.

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The embodiments of the present invention can uniformly supply the flow rate for supplying the flame or the combustion air supplied to the boiler or the furnace, thereby improving the combustion efficiency and maintaining the flame safety and the shape stably.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a Baffle unit for controlling flow rate according to a first embodiment of the present invention; FIG.
FIG. 2 is a cross-sectional view showing a flow path of a fluid supplied to a unit burner of a Baffle unit for flow control according to the first embodiment of the present invention; FIG.
3 is a view showing a distribution state of a flow rate introduced into first to n-th open holes formed in a unit burner of a flow control Baffle unit according to the first embodiment of the present invention.
Figure 4 is a front view of Figure 1;
5 is a view showing a Baffle unit for flow control according to a second embodiment of the present invention.
6 is a cross-sectional view showing a flow path of the fluid supplied to the unit burner of the Baffle unit for flow control according to the second embodiment of the present invention.
7 is a view showing another embodiment of a Baffle unit in a Baffle unit for flow control according to a second embodiment of the present invention.
8 is a perspective view showing a Baffle unit for controlling flow rate according to a third embodiment of the present invention.

Baffle unit for flow control according to the first embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a perspective view illustrating a flow control Baffle unit according to a first embodiment of the present invention. FIG. 2 is a perspective view of a flow path of a fluid supplied to a unit burner of a flow control Baffle unit according to the first embodiment of the present invention. FIG. 3 is a view showing a distribution state of a flow rate introduced into the first to n-th open holes formed in the unit burner of the flow control Baffle unit according to the first embodiment of the present invention.

1 to 3, the flow control Baffel unit 1 according to the first embodiment of the present invention is characterized in that the branch duct 3 extends straight through at a position spaced outward of the combustion unit 2 , And the burner unit (10) is disposed inside the branch duct (3).

The burner unit 10 includes a plurality of unit burners arranged along the inner longitudinal direction of the branch duct 3 extending toward the combustion unit 2 and the Baffle unit 20 includes a plurality of unit burners 10a to 10n And a plurality of unit baffles 20a to 20n disposed at different angles along the longitudinal direction of the branch duct 3. The baffle unit 20 includes:

A plurality of unit burners 10a to 10n for supplying a high temperature flame to the combustion unit 2 are arranged in the longitudinal direction of the branch duct 3 according to the present embodiment. The unit burners 10a- First through n-th openings 11a through 11n through which the fluid transferred through the branch duct 3 is supplied are formed along the outer circumferential direction of the burner body, and the unit bellows 20a through 20n transfer the And the guided fluid is introduced into the first to n-th openings 11a to 11n.

The fluid is supplied to the branch duct 3 in the longitudinal direction of the branch duct 3 and the fluid is supplied to the branch duct 3 from the left and right sides of the branch duct 3. The unit burners 10a to 10n are arranged along the longitudinal direction of the branch duct 3 It is to be understood that the present invention is not limited thereto but may be changed into other forms.

The unit burners 10a to 10n are formed in the same size along the outer circumferential direction of the burner body with first to nth openings 11a to 11n through which the fluid transferred through the branch duct 3 is supplied, The uniform inflow of the fluid into the first to n-th openings 11a to 11n plays a significant role in the stable combustion operation of the unit burners 10a to 10n and is closely related to the improvement of the efficiency of the combustion unit 2 Is maintained. It should be noted that the first to nth openings 11a to 11n are opened in a rectangular shape in the circumferential direction of the burner body as shown in the drawing for the inflow of the fluid, but the form can be changed.

The burner unit 10 may be configured such that when a flow rate is concentrated in one or a plurality of opening holes located at specific positions of the first to nth openings 11a to 11n of the unit burners 10a to 10n, 10a to 10n may have a considerable influence on flame shape and flame safety, it is important that the fluid is uniformly supplied to the first to n-th openings 11a to 11n. In particular, in the case of the burner unit 10, it is preferable that the fluids are uniformly introduced into the first to n-th openings 11a to 11n, respectively, and this is related to the flame shape and safety at the outlet through the burner unit 10 It is preferable that the flow rate of the flow rate to the unit burners 10a to 10n through the branch duct 3 is uniform in the circumferential direction.

The present invention is characterized in that the flow rate of the fluid supplied to the first to the n-th openings (11a to 11n) is fixed and the flow direction of the fluid is controlled so that the flow direction of the fluid is not concentrated to a specific position The fluid is moved in a specific direction of the first to n-th openings 11a to 11n formed in the unit burners 10a to 10n arranged in the branch duct 3. [

As shown in the drawing, the unit burners 10a to 10n are formed with first to n-th openings 11a to 11n in the circumferential direction of the burner body. The first to nth opening holes 11a to 11n are formed at equal intervals along the inner longitudinal direction of the branch duct 3 When the fluid is supplied from the position A to the position B, the flow rate is not concentrated in the second to fourth opening holes 11b to 11d, and the unit burners 10a to 10n are discharged by the baffle unit 20, The flow direction of the fluid is guided in the direction in which the sixth to eighth opening holes 11f to 11h are formed so that the flow rate distribution of the fluid supplied to the unit burners 10a to 10n is distributed to the first to n- To < RTI ID = 0.0 > 11n. ≪ / RTI >

The fluid supplied to the unit burners 10a to 10n of the present invention is supplied to the unit burners 10a to 10n in a state in which the moving direction is guided by the Baffle unit 20, 11n are eccentric to the specific opening hole, and the flow rate unbalance does not occur.

Accordingly, as the flame shape of the unit burners 10a to 10n generated toward the combustion unit 2 goes forward, a sharp conical shape can be stably maintained, and the flame stability can be maintained for a long time in a symmetrical shape with uniform left and right. Therefore, the efficiency of the combustion unit 2 can be stably maintained, and the operating efficiency of the boiler or the furnace on which the combustion unit 2 is mounted is improved.

Referring to FIG. 4, the unit bellows 20a to 20n are arranged in a pair in a pair and are formed in a plate shape between a plurality of unit burners 10a to 10n. The width, length, and thickness The present invention is not limited to the form shown in the drawings, and can be variously changed.

The unit baffles 20a to 20n are formed by arranging two sets of the unit baffles 20a to 20n toward the outside of the branch duct 3 on the basis of the first unit burner 10a disposed in the burner unit 10, A first unit baffle 20a and second to nth unit burners 10b to 10n spaced apart from the first unit burner 10a toward the outside of the branch duct 3, And an inclination angle of the first unit baffle 20a toward the outside of the branch duct 3 from the first unit baffle 20a toward the n th unit baffle 20n As shown in FIG. The reason for this is that the sixth to eighth openings 11f to 11h of the unit burners or the centrally positioned unit burners positioned at the end when the fluid supplied to the inside of the branch duct 3 is supplied along the longitudinal direction In order to secure a constant flow rate of the fluid moving in the direction in which the fluid is formed.

The first inclination angle is not limited to a specific inclination angle but can be varied through simulation depending on the size of the branch duct 3 so that the flow rate is constantly supplied to the sixth through eighth opening holes 11f through 11h.

When the fluid is supplied from the A position to the B position of the branch duct 3, the flow rate is not concentrated to the second to fourth opening holes 11b to 11d by the unit baffles 20a to 20n as shown by the dotted line The flow rate of the fluid supplied to the unit burners 10a to 10n is guided by the sixth to eighth opening holes 11f to 11h and moved to a state in which the flow rate of the fluid is uniform.

Particularly, the fluid can be guided in the moving direction constantly without being eccentric to a specific position in the longitudinal direction of the inner side of the branch duct 3 by the unit baffles 20a to 20n, so that the stable operation of the burner unit 10 can be achieved have.

The n-th unit baffle 20n is opened toward the inside of the branch duct 3 in comparison with the first unit baffle 20a so that even when the length of the branch duct 3 is elongated, And the flame safety of the burner unit 10 disposed in the branch duct 3 is ensured and the flame safety of the combustion unit 10 2) can be stably operated.

The unit baffles 20a to 20n are formed with through holes 20aa to 20nn so as to partially pass the fluid introduced through the branch duct 3, And may be formed in a specific shape and direction so as to supply a single flow rate, but the shape and direction shown in the drawings are not necessarily limited, and may be variously changed.

The branch duct 3 according to the present embodiment is provided with an auxiliary baffle 30 positioned at an inner central position with respect to the longitudinal direction and for blocking the fluid supplied from the left and right sides of the branch duct 3 from being mixed with each other, The auxiliary baffle 30 is spaced apart from the inside of the branch duct 3 and is positioned opposite to the inside of the branch duct 3 in a state of being perpendicular to the inside of the branch duct 3.

The auxiliary baffle 30 is in the form of a plate. When the fluid supplied at the position A is moved to the position B, the auxiliary baffle 30 is moved by the auxiliary baffle 30 to the sixth to eighth It is possible to guide the burner unit 10 with the opening hole to eliminate the unbalance of the flow rate, so that the burner unit 10 can be stably operated.

The auxiliary baffle 30 is provided with a guide portion 32 extending in a left-right symmetrical shape toward the unit burners 10a to 10n at positions facing each other to guide the moving direction of the fluid to the unit burners 10a to 10n, The guide part 32 is formed in a ¼ circular shape, but may be changed to another shape. The direction of movement of the fluid along the outer circumferential surface of the fluid, which is moved by the guide part 32, And is moved toward the n-th unit burner 10n in a guided state.

The damper unit 4 provided at the front end of the burner unit 10 is installed in the branch duct 3 to control the flow rate of the fluid supplied to the burner unit 10 and guide the moving direction uniformly. The damper unit 4 includes a plurality of damper blades 4a and a drive unit 4b connected to the damper blade 4a to adjust the inclination angle to an arbitrary angle. And a plurality of the ducts 3 are spaced apart from each other inside the branch duct 3.

The damper blade 4a can change the flow rate and the direction of the fluid supplied to the branch duct 3. For example, when the damper blade 4a is rotated in a direction other than horizontal, (3).

On the contrary, when the damper blade 4a is maintained in a horizontal state, the flow rate is uniformly supplied to the inside of the branch duct 3 and a large amount of fluid is constantly supplied toward the burner unit 10.

The driving unit 4b is composed of a combination of a motor (not shown), a speed reducer (not shown) and a gear unit (not shown), and adjusts the angle with respect to the damper blade 4a at an arbitrary angle, 3) and adjust the flow direction.

A flow control Baffle unit according to a second embodiment of the present invention will be described with reference to the drawings. For reference, unlike the first embodiment, the present embodiment differs from the first embodiment in that the branch duct does not extend in an straight pipe shape but has a difference connected to a bent extension pipe, whereby the fluid flows in a state shifted toward one side of the branch duct .

5 to 7, the flow control Baffle unit 1a according to the second embodiment of the present invention has an inner longitudinal direction of the branch duct 3 connected to the extension pipe 5 bent toward the combustion unit A plurality of unit air supply units 100a to 100n disposed along a direction of the air supply unit 100 and a plurality of unit air supply units 100a to 100n arranged along the direction of the air flow, And a baffle unit 200 having a plurality of unit baffles 200a to 200n arranged in different lengths along the longitudinal direction of the unit baffles 200a to 200n.

The branch duct (3) is supplied with fluid in the longitudinal direction of the branch duct (3), and the combustion air supply unit (100) is arranged in the longitudinal direction of the branch duct (3) And are arranged at regular intervals. The combustion air supply unit 100 is used as OFA (over fire air), and the combustion air supply unit 100 is a combustion furnace in which, when the combustion unit is a furnace used for a thermal power plant, And serves to stably supply air for maintaining the flame generated by the burner unit and for secondary combustion although no separate flame is generated.

A plurality of unit air supply units 100a to 100n are disposed in the inner longitudinal direction of the branch duct 3 in order to supply air required for combustion to the combustion unit 2 in the branch duct 3 according to the present embodiment The unit air supply units 100a to 100n are formed such that the first to nth openings 101a to 101n through which the fluid transferred through the branch duct 3 is supplied are formed along the outer circumferential direction of the burner body, The fluid guided by the unit baffles 200a to 200n in the conveying direction flows into the first to nth openings 101a to 101n.

The unit ducts 3 are provided at the left and right sides of the branch duct 3 so that the fluid flows in the longitudinal direction of the branch duct 3 and the unit air supply units 100a to 100n extend in the longitudinal direction of the branch duct 3 It is to be understood that the present invention may be modified into other forms without departing from the spirit and scope of the invention.

The unit air supply units 100a to 100n are formed in the same size along the outer circumferential direction of the burner body so that the first to nth openings 101a to 101n to which the fluid transferred through the branch duct 3 is supplied The uniform inflow of the fluid into the first to n-th openings 101a to 101n can maintain the flow rate distribution of the air flowing into the unit air supply units 100a to 100n constant, And a close relationship with the efficiency improvement of the combustion unit 2 is maintained.

For example, when the flow rate is concentrated in one or a plurality of opening holes located at specific positions among the first to n-th opening holes 101a to 101n of the unit air supplying units 100a to 100n, Since the present invention is uniformly supplied to the unit air supply units 100a to 100n, the efficiency of the combustion unit 2 can be improved and stable flame formation can be achieved. It is very important that the flow rate of the air supplied to the inside of the unit air supply units 100a to 100n is constantly supplied.

The flow rate of the fluid supplied to the first to nth openings 101a to 101n is made constant through the Baffle unit 200 and the flow direction of the fluid is guided so that the flow rate of the fluid is not concentrated to a specific position The moving directions of the fluids flowing into the first to nth opening holes 101a to 101n are moved in a specific direction through the Baffle unit 20. [

The unit air supply units 100a to 100n are formed with first to nth openings 101a to 101n as shown in the figure, and unit baffles 200a to 200n are formed along the inner longitudinal direction of the branch duct 3, The unit bellows 200a to 200n are arranged in such a manner that the unit bellows 200a to 200n are arranged in the longitudinal direction of the branch duct 3, The concentrated flow rate is uniformly supplied toward the sixth to eighth opening holes 101f to 101h of the unit air supply units 100a to 100n, To stably maintain the flame shape and safety generated in the combustion unit 2, thereby improving the efficiency of the combustion unit 2.

For example, when fluid is supplied from the A position to the B position on the right and left sides of the branch duct 3 provided with the extension pipe 5, the second through fourth opening holes 101b formed in the unit air supply units 100a through 100n And the flow direction of the fluid supplied to the unit air supply units 100a to 100n is guided toward the sixth to eighth opening holes 11f to 11h by the movement direction of the fluid toward the sixth to eighth opening holes 11f to 11h, It is possible to prevent the concentration in the holes and to keep the calcination uniform.

The unit bellows 200a to 200n are spaced apart from the inner side of the branch duct 3 and the unit air supply units 100a to 100n are positioned farther from the extension pipe 5, As shown in Fig. The reason why the length of the unit bellows 200a to 200n is short is that when the fluid is supplied from the position A to the position B, the flow rate supplied to the position B, which is the central position of the branch duct 3, The first to sixth unit supply units 100a and 100b are supplied with the first unit supply unit 100a by the first unit baffle 200a spaced apart from the first unit supply unit 100a, The movement and the flow rate of the fluid are stably guided in the direction in which the eight aperture holes 11f to 11h are formed so that a constant flow rate is supplied irrespective of the position of the baffle unit 20. [

The unit baffles 200a to 200n are disposed on only one side along the longitudinal direction of the branch duct 3 and are not arranged on the upper side as viewed in the drawing. A part of the fluid passing through the extension pipe 5 is supplied to the inner side of the branch duct 3 to which the unit bellows 200a to 200n are not yet installed, Only the moving direction of the fluid is guided and moved to the B position.

The unit baffles 200a to 200n are disposed between the unit air supply units 100a to 100n disposed in the longitudinal direction of the branch duct 3, They can be arranged alternately in the diagonal direction from the longitudinal direction to supply the fluid to the unit air supply units 100a to 100n.

The through holes 201 are formed in the unit baffles 200a to 200n in order to partially pass the fluid introduced through the branch duct 3. The through holes 201 are formed in the sixth to eighth openings, But the present invention is not necessarily limited to the shape and direction shown in the drawings, and may be variously changed.

The branch duct 3 according to the present embodiment is provided with an auxiliary baffle 400 positioned at an inner central position with respect to the longitudinal direction to block the fluid supplied from the left and right sides of the branch duct 3 from being mixed with each other, The auxiliary baffle 400 is spaced apart from the inside of the branch duct 3 and is positioned opposite to the inside of the branch duct 3 in a state of being perpendicular to the inside of the branch duct 3.

The auxiliary baffle 400 is formed in a plate shape. When the fluid supplied at the A position is moved to the B position, the auxiliary baffle 400 is moved in the sixth to nth unit air supply units 100n, It is guided by the eighth opening hole to eliminate the flow rate unbalance.

A guide baffle 300 is installed so as to be inclined toward the unit air supply units 100a to 100n at the entrance position of the branch duct 3 to guide the moving direction of the fluid via the extension pipe 5, The guide baffle 300 is arranged to be inclined at a predetermined angle toward the outside of the branch duct 3 so as to guide the moving direction of the fluid in a specific direction.

The guide baffle 300 is installed to guide the moving direction of the fluid supplied to the area where the Baffle unit 200 is not installed in the direction of the arrow, And similar arrangement conditions and structures. The guide baffle 300 is disposed obliquely at a predetermined angle toward the outside of the branch duct 3, and the angle can be changed according to the size of the branch duct 3 and other conditions.

The branch duct 3 is provided with a damper unit 4 installed at the front end of the combustion air supply unit 100 to control the flow rate of the fluid supplied to the combustion air supply unit 100 and uniformly guide the moving direction, Respectively. The damper unit 4 includes a plurality of damper blades 4a (see FIG. 1) and a drive unit 4b connected to the damper blade 4a to adjust the inclination angle to an arbitrary angle. (4a) are formed in a plate shape and are spaced apart from each other on the inner side of the branch duct (3).

The damper blade 4a can change the flow rate and the direction of the fluid supplied to the branch duct 3. For example, when the damper blade 4a is rotated in a direction other than horizontal, (3).

On the other hand, when the damper blade 4a is maintained in a horizontal state, the flow rate is uniformly supplied to the inside of the branch duct 3, and a large amount of the fluid is constantly supplied toward the combustion air supply unit 100.

The driving unit 4b is constituted by a combination of a motor (not shown), a speed reducer (not shown) and a gear unit (not shown), and the angle to the damper blade is adjusted at an arbitrary angle, ) And the direction of flow.

A flow control Baffle unit according to a third embodiment of the present invention will be described with reference to the drawings. For reference, this embodiment is used as a windbox installed in a furnace of a thermal power plant or a boiler, and includes a burner unit and a combustion air supply unit.

8, the flow control Baffel unit 1b includes a plurality of unit burners 1000a to 1000n disposed along the inner longitudinal direction of the first branch duct 3 extending toward the combustion unit 2 And a plurality of unit baffles 2000a (1000a to 2000n) arranged at different angles along the longitudinal direction of the first branch duct 3, And a second branch duct (3a) connected to the extension pipe (5) bent toward the combustion unit (2). The first branch pipe A plurality of unit air supply units 3000a to 3000n are disposed facing the combustion air supply unit 3000 including the supply units 3000a to 3000n and arranged along the longitudinal direction of the second branch duct 3a, And a plurality of unit baffles 4000a to 4000n arranged in different lengths, It is configured to include a unit (4000).

The first branch duct (3) extends in an elongated shape and the second branch duct (3a) extends into the combustion unit (2) in a state bent by an extension pipe (5) It may be arranged in a bent state like the second branch duct 3a and is not necessarily limited to the straight pipe.

The first baffle unit 2000 includes a first unitary burner 1000a disposed in the burner unit 1000 and a second unit 1000a disposed at a first inclination angle toward the outside of the first branch duct 3, The second to nth unit burners 2000a to 2000n spaced apart from the first unit burner 1000a from the first to the n th inclination angles toward the outside of the first branch duct 3 with reference to the baffle 2000a, And the inclination angle increases from the second unit baffle 2000b to the n-th unit baffle 2000n.

The second baffle unit 2000b is spaced apart from the inside of the first branch duct 3 and has a length extending toward the unit air supply units 3000a to 3000n as the distance from the extension pipe 5 increases. Is shortened.

Since the main components of the first baffle unit 2000 and the second baffle unit 4000 are the same as those of the first and second embodiments described above, a detailed description thereof is omitted, but a plurality of branch ducts In the case of the formed form, it is used in a state shown in an enlarged view.

It is also shown that the first branch duct 3 in which the burner unit 1000 is disposed can be used for both the straight pipe and the curved pipe, and in this case, the configuration of the second baffle unit 4000 can be disposed inside the branch duct in the form of a curved line Leave.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit of the invention as set forth in the appended claims. The present invention can be variously modified and changed by those skilled in the art, and it is also within the scope of the present invention.

2: Combustion unit
3: Branch duct
10, 1000, 1000: burner unit
10a to 10n: unit burner
20, 200: Baffle unit
20a ~ 20n: Unit Baffle
30: Secondary Baffle
32: guide portion
4: Damper unit
4a: Damper blade
4b: drive unit
100, 3000: Air supply unit for combustion
100 a ~ 100n: Unit Air supply unit
200a ~ 200n: Unit Baffle
300: Guide Baffle
400: Secondary Baffle
2000: First Baffle Unit
2000a ~ 2000n: Unit Baffle
3000a ~ 3000n: Unit air supply unit
4000: Second Baffle Unit
4000a ~ 4000n: Unit Baffle

Claims (25)

A burner unit including a plurality of unit burners arranged along an inner longitudinal direction of a branch duct extending toward the combustion unit; And
And a baffle unit having a plurality of unit baffles disposed at different angles and facing each unit burner between the plurality of unit burners along a longitudinal direction of the branch duct,
The unit burner includes:
First through n-th opening holes through which the fluid transferred through the branch duct are supplied are formed along the outer circumferential direction of the burner body,
The unit baffle includes:
Wherein the flow direction of the fluid is controlled so as to uniformly distribute the flow rate of the fluid flowing into the first to n-th open holes. The method according to claim 1,
In the branch duct,
Wherein the baffle unit is a straight pipe disposed in a state of being spaced apart from the outer side of the combustion unit. The method according to claim 1,
In the branch duct,
The fluid flows into the left and right sides of the branch duct to supply the fluid in the longitudinal direction of the branch duct,
The unit burner includes:
Wherein the branch ducts are arranged at regular intervals along the longitudinal direction of the branch duct. delete The method according to claim 1,
The unit baffle includes:
Wherein a pair of unit burners are arranged in a pair so as to face each other and are formed in a plate shape. The method according to claim 1,
The unit baffle includes:
A first unit bell disposed at a first inclination angle toward the outside of the branch duct on the basis of a first unit burner disposed in the burner unit;
And second to n-th unit bellows disposed at the second to nth inclination angles toward the outside of the branch duct on the basis of the second to n-th unit burners spaced apart from the first unit burner,
And the inclination angle of the second unit baffle increases as the n-th unit baffle increases. The method according to claim 1,
The unit baffle includes:
Further comprising a through-hole for partially passing the fluid introduced through the branch duct. The method according to claim 1,
Wherein the branch duct is provided with an auxiliary baffle located at an inner central position with respect to the longitudinal direction to block the fluid supplied from the left and right sides of the branch duct from being mixed with each other. 9. The method of claim 8,
The auxiliary baffle
Wherein the baffle unit is spaced apart from the inside of the branch duct and is positioned facing the inside of the branch duct so as to be perpendicular to the inside of the branch duct. 9. The method of claim 8,
The auxiliary baffle
Further comprising a guide portion extending in a left-right symmetrical shape toward the unit burner at positions facing each other to guide the moving direction of the fluid to the unit burner. The method according to claim 1,
In the branch duct,
A damper unit provided at the front end of the burner unit for controlling the flow rate of the fluid supplied to the burner unit and guiding the moving direction uniformly,
The damper unit includes:
A plurality of damper blades; and a drive unit connected to the damper blades to adjust the inclination angle to an arbitrary angle. A combustion air supply unit including a plurality of unit air supply units arranged along an inner longitudinal direction of a branch duct connected to an extension pipe bent toward the combustion unit; And
And a baffle unit having a plurality of unit baffles disposed at different lengths to face the unit air supply units between the plurality of unit air supply units along the longitudinal direction of the branch duct,
Wherein the unit air supply unit includes:
And first through n-th openingsholes communicating with the inside along the circumferential direction and supplied with the fluid conveyed through the branch duct,
The unit baffle includes:
Wherein the flow direction of the fluid is controlled so as to uniformly distribute the flow rate of the fluid flowing into the first to n-th open holes. 13. The method of claim 12,
In the branch duct,
The fluid flows into the left and right sides of the branch duct to supply the fluid in the longitudinal direction of the branch duct,
Wherein the combustion air supply unit includes:
Wherein the branch ducts are arranged at regular intervals along the longitudinal direction of the branch duct. delete 13. The method of claim 12,
The unit baffle includes:
Wherein a distance from the inside of the branch duct is located and a length extending toward the unit air supply unit is shortened as the distance from the extension pipe is shortened. 13. The method of claim 12,
The unit baffle includes:
Wherein the baffle unit is disposed only at one side along the longitudinal direction of the branch duct. 13. The method of claim 12,
The unit baffle includes:
Wherein the branch ducts are arranged between unit air supply units arranged in the longitudinal direction of the branch duct. 13. The method of claim 12,
The unit baffle includes:
Further comprising a through hole opened toward said unit air supply unit. 13. The method of claim 12,
The unit baffle includes:
Wherein the branch ducts are arranged alternately in the diagonal direction in the longitudinal direction of the branch duct. 13. The method of claim 12,
In the branch duct,
Wherein a guide baffle is disposed at an inlet position of the branch duct to guide a moving direction of the fluid via the extension pipe, the guide baffle being inclined toward the unit air supply unit. 13. The method of claim 12,
In the branch duct,
And an auxiliary baffle for blocking the mixing of the fluids supplied from both the left and right sides of the branch duct, the auxiliary baffles being spaced apart from each other in the inner central position with respect to the longitudinal direction, Beppel unit. 13. The method of claim 12,
In the branch duct,
A damper unit provided at the front end of the combustion air supply unit for controlling the flow rate of the fluid supplied to the combustion air supply unit and guiding the moving direction uniformly,
The damper unit includes:
A plurality of damper blades; and a drive unit connected to the damper blades to adjust the inclination angle to an arbitrary angle.
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