KR101813455B1 - Soot-blowing system - Google Patents

Abstract

A pressure regulating mechanism (20) provided in a fluid distribution system for regulating the pressure of the fluid, characterized in that the pressure regulating mechanism (20) has a cross-sectional area for communicating the upstream side and the downstream side of the distribution system, A main body portion 21 having a first communicating hole 211 and a second communicating hole 212 communicating an upstream side and a downstream side of the distribution system; And an adjustable adjuster 22.

Description

Soot blowing system {SOOT-BLOWING SYSTEM}

The present invention relates to a soot blowing system provided with a pressure adjusting mechanism and a pressure adjusting mechanism.

Sediments such as soot and ashes (hereinafter referred to simply as sediments) attached to the heat transfer surfaces of a heat exchanger provided in a combustion chamber of a power plant or the like cause a decrease in the thermal conductivity of the heat transfer surface of the heat exchanger. In order to maintain the performance of a heat exchanger or the like, it is necessary to remove sediments adhering to the heat transfer surface, and a soot blowing apparatus is widely used as means for removing sediments.

The retractable soot blowing apparatus, which is one of the soot blowing apparatuses, is installed in the vicinity of a combustion chamber where a heat transfer tube, which is a heat transfer surface of a heat exchanger such as a boiler, is disposed. A lance tube having nozzles rotates and flows into a high temperature combustion chamber, Is ejected from the nozzles of the lance pipe, thereby removing deposits adhered to the heat transfer pipe.

As a conventional retractable soot blowing apparatus, there can be mentioned, for example, a retractable soot blowing apparatus 7 having the structure shown in Fig. The retractable soot blowing apparatus 7 has a lance pipe 70 which protrudes from the housing 78 and has a nozzle 71 at the tip thereof. The lance pipe 70 is connected to the motor 72 through the gear box 73 in the housing 78. [ The gear box 73 is configured to transmit the rotation of the motor 72 to the lance pipe 70 through gears housed in the gear box 73. The gear box 73 is also connected to the rack 74 in addition to the lance pipe 70. By engaging the pinion 76 provided in the rack 74 and the gear box 73, the lance tube 70 moves in the axial direction together with the rotation and invades into the high-temperature combustion chamber.

The feed pipe 75 for supplying the jetting medium is disposed inside the lance pipe 70. The feed pipe 75 is connected to the outlet of the valve 77 and connected to the pipe 79 for supplying the injection medium through the valve 77. As a result, when the retractable soot blowing apparatus 7 is started, the lance pipe 70 moves, and the valve 77 is opened so that the jetting medium is supplied to the feed pipe 75 and the lance pipe 70. As a result, the spraying medium is sprayed from the nozzle 71 to remove the deposit deposited on the surface of the heat transfer pipe such as the boiler. In addition, since the lance pipe 70 enters the high-temperature combustion chamber and performs the removal work of the deposit, the injection medium is supplied into the lance pipe 70 and cooled to prevent the lance pipe 70 from being damaged.

In such a soot blowing apparatus, the supply amount of the fluid, which is the jetting medium supplied to the lance pipe 70, is adjusted by the valve 77 to adjust the jetting pressure from the nozzle 71. For example, Patent Document 1 discloses a technique of providing a throttle device on a valve. That is, in the technique of Patent Document 1, the supply amount of the injection medium supplied to the lance tube is adjusted by changing the size of the cross-sectional area of the passage cross section through which the injection medium in the valve can pass by the throttle device, The pressure is being adjusted.

Japanese Patent Application Laid-Open No. 2-287009

However, in the structure in which the supply amount of the injection medium is adjusted using the throttle device as described in Patent Document 1, it is difficult to finely adjust the area of the cross section of the flow passage, and if the throttle device is adjusted incorrectly, There is a problem that it is not cooled and exposed to a high temperature to be damaged.

The present invention provides a soot blowing system equipped with a pressure adjusting mechanism and a pressure adjusting mechanism that can easily adjust the supply amount of the fluid while securing the supply amount of the minimum required fluid.

In order to solve the above problems, the present invention proposes the following means.

A pressure adjusting mechanism according to an aspect of the present invention is a pressure adjusting mechanism provided in a fluid distribution system for communicating an upstream side and a downstream side of the distribution system, And a second communication hole communicating an upstream side and a downstream side of the distribution system; and a control unit for adjusting the cross-sectional area of the second communication hole, wherein the first communication hole has a cross- Respectively.

The pressure regulating mechanism can always supply the minimum necessary amount of fluid to the downstream side of the distribution system by opening the first communication hole with a cross-sectional area capable of giving a required minimum pressure at all times. Further, by making the cross-sectional area of the second communication hole adjustable by the adjustment section, the supply amount of the fluid to be supplied to the downstream side can be adjusted. This makes it possible to easily adjust the supply amount of the fluid while securing the supply amount of the minimum necessary fluid.

In the pressure regulating mechanism according to the second aspect of the present invention, the main body portion is formed in a disc shape, and the first communication hole and the second communication hole are formed along the axial direction, And the adjustment section may be adjustable from the outer peripheral surface side of the main body section through the hole section.

The pressure regulating mechanism is formed in a disc shape so that the pressure regulating mechanism can be provided if the pressure regulating mechanism has a small space in the direction of distributing the fluid in the distribution system. The adjusting section can adjust the cross-sectional area of the second communication hole from the outer circumferential surface through the through-hole of the disk-shaped main body section, thereby making it possible to adjust the supply amount of the fluid more easily.

The pressure adjusting mechanism according to the third aspect of the present invention is characterized in that the adjusting portion is formed in a shaft shape and is inserted into the hole portion so as to be rotatable about its own central axis, And an operating portion provided on the shaft member and rotating the shaft member about the axis may be provided.

The pressure adjusting mechanism can easily adjust the cross-sectional area through which the fluid can flow in the second communication hole by rotating the shaft member by the operating portion. It is possible to adjust the supply amount of the fluid only by rotating the operation portion, and therefore it is possible to easily adjust the supply amount directly. This makes it possible to more easily adjust the supply amount of the fluid.

In the pressure regulating mechanism according to the fourth aspect of the present invention, the distribution system is a supply system for supplying a cleaning fluid to the lance pipe of the soot blowing apparatus, and the cross-sectional area of the first communication hole It may be set so as to be able to give a minimum required pressure for securing the flow rate of the cleaning fluid necessary for cooling.

The pressure adjusting mechanism is provided in the supply system for supplying the cleaning fluid to the lance pipe of the soot blowing apparatus so that the minimum necessary amount of the cleaning fluid is supplied to the lance pipe in order to always cool the lance pipe from the first communication hole . This makes it possible to prevent the lance tube from being damaged by heat.

A soot blowing system according to an embodiment of the present invention includes a soot blowing device having a lance pipe for injecting a cleaning fluid and a supply portion for supplying the cleaning fluid to the lance pipe; And the pressure adjusting mechanism provided between the supply pipe and the supply unit.

In the soot blowing system, a pressure adjusting mechanism is provided between the supply system of the soot blowing apparatus and the supply pipe, so that it is possible to easily install the pressure adjusting mechanism to the existing soot blowing apparatus afterwards.

According to the pressure adjusting device of the present invention, it is possible to easily adjust the supply amount of the fluid by the second communication hole while securing the supply amount of the minimum required fluid by the first communication hole.

1 is a perspective view for explaining a retractable soot blowing apparatus according to an embodiment of the present invention.
2 is a side view for explaining a retractable soot blowing apparatus according to an embodiment of the present invention.
3 is an enlarged view for explaining a pressure adjusting device according to an embodiment of the present invention.
4 is a cross-sectional view taken along AA illustrating the pressure regulating device according to the embodiment of the present invention.
Fig. 5A is a cross-sectional view of the pressure regulating device according to the embodiment of the present invention at BB when the second communication hole is opened. Fig. Fig. 5B is a cross-sectional view of BB when a part of the second communication hole of the pressure adjusting device according to the embodiment of the present invention is closed. Fig. Fig. 5C is a cross-sectional view of the pressure regulating device according to the embodiment of the present invention when the second communication hole is closed; Fig.
6 is a side view for explaining a conventional retractable soot blowing apparatus.

Hereinafter, embodiments of the present invention will be described with reference to Figs. 1 to 5C.

The soot blowing system 1 according to the present embodiment is arranged adjacent to a combustion chamber 6 in which a heat exchanger or the like is disposed and ejects steam S as a fluid as a cleaning fluid on the front surface, Remove sediments such as soot. Specifically, as shown in Figs. 1 and 2, the soot blowing system 1 of the present embodiment includes a soot blowing device 10 for injecting steam S, and a soot blowing device 10 connected to the soot blowing device 10, A pressure adjusting mechanism 20 for adjusting the pressure of the phosphorus vapor S and a supply pipe 30 connected to the pressure adjusting mechanism 20 from the supply source.

The soot blowing apparatus 10 includes a lance pipe 11 for spraying steam S as a fluid to be cleaned, a feed pipe 12 for supplying steam S to the lance pipe 11, A supply section 120 for adjusting the supply of the steam S to the evaporator 12, a drive section 13 for driving the lance pipe 11, a housing (not shown) for covering the lance pipe 11 and the drive section 13 from the outside 14).

A distribution system which is a supply system for supplying the steam S from the supply source to the lance pipe 11 is formed and the supply pipe 30 is arranged on the upstream side with the boundary of the pressure adjustment mechanism 20, And a soot blowing apparatus 10 having a feed pipe 12, a lance pipe 11 and the like is disposed on the downstream side.

The lance tube 11 has a hollow cylindrical shape and extends along the axial direction, and a nozzle 110, which is a hole portion opened in a circular shape from the front end to the side, is formed. The lance pipe 11 is connected to a traveling carriage 131 which is a driving unit 13 at its base end.

The feed pipe 12 is a pipe disposed through the inside of the lance pipe 11 and flows the steam S into the lance pipe 11 and flows the steam S into the lance pipe 11.

The supply unit 120 has a head valve 121 forming the main body of the supply unit 120 and a pressure gauge 122 measuring the pressure of the steam S as the cleaning fluid in the head valve 121, Is connected to the feed pipe (12) through a pipe (121).

The head valve 121 includes a head valve body 121a provided on the proximal end side of the housing 14 to be described later and a ring valve body 121b formed on the outer periphery of the head valve body 121a on the side not connected to the feed pipe 12 And a flange portion 121b protruding from the flange portion 121b.

The head valve body 121a has a cylindrical shape and is connected to the feed pipe 12 on the downstream side and has a valve structure for starting and stopping the supply of the steam S to the feed pipe 12 have. The head valve main body 121a stops the supply of the steam S to the feed pipe 12 by opening the valve structure to start supplying the steam S to the feed pipe 12 and closing the valve structure .

The flange portion 121b is formed with a plurality of fixing holes passing axially along the outer periphery thereof.

The pressure gauge 122 measures the pressure of the steam S in the head valve 121 and increases as the amount of the steam S supplied into the head valve 121 increases. When the amount decreases, the pressure decreases. The pressure gauge 122 may be any as long as it can measure and display the steam S in the head valve 121. For example, a known pressure gauge is used. The pressure gauge 122 is not always required to be mounted at all times. For example, the pressure gauge 122 may have a detachable attachment sheet, and the pressure gauge 122 may be mounted and used only when necessary.

The driving unit 13 includes a rotating motor 130, a traveling carriage 131 connected to the motor 130 and provided with a plurality of gears, and a rack 132 fixed to the housing 14.

The motor 130 is disposed in parallel with the lance pipe 11 so that the rotation axis is disposed along the axial direction of the lance pipe 11. [

The traveling carriage 131 has a shape of a cubic shape and has a plurality of gears built therein. The traveling carriage 131 is disposed so as to pass the feed pipe 12 therethrough and rotatably fixes the lance pipe 11 so as to insert the feed pipe 12 therein. The traveling carriage 131 is connected to the motor 130 and receives the rotation of the motor 130 by the input shaft to convert the rotation direction to a direction orthogonal to the rotation axis of the motor 130 through the internal gear, And the rotational speed is changed to transmit the rotation to the lance pipe 11. [

The rack 132 is fixed to the housing 14 and is capable of moving the lance tube 11 together with the traveling carriage 131 through the output shaft of the traveling carriage 131 in the axial direction of the lance tube 11 .

The housing 14 is formed in a box shape so as to cover the lance pipe 11 and the driving unit 13 from the outside, and is provided so as not to be movable. The housing 14 is provided at its first end with a circular hole at its side surface, and the lance pipe 11 is inserted. The housing 14 is provided with a head valve 121 on the side of the base end.

The supply pipe 30 is a pipe for supplying the steam S from the supply source of the steam S and is connected to the head valve 121 through the pressure adjusting mechanism 20. [ The supply pipe 30 has a supply pipe flange portion 301 formed to protrude in a ring shape on the outer periphery of the end on the side of the head valve 121 side.

In the supply pipe flange portion 301, a plurality of fixing holes penetrating in the axial direction along the outer periphery are formed. The fixing hole of the flange portion 121b of the head valve 121 and the fixing hole of the supply pipe flange portion 301 are arranged so as to communicate with each other so that the bolt 50 and the nut 51 And is fixed to the soot blowing apparatus 10.

As shown in Figs. 3 and 4, the pressure regulating mechanism 20 has a disk shape and an opening is formed therein. The pressure regulating mechanism 20 is fixedly inserted between the head valve 121 and the supply pipe 30. The pressure regulating mechanism 20 includes a main body 21 having a disc shape and having a first communicating hole 211 and a second communicating hole 212 communicating the upstream side and the downstream side along the axial direction, And an adjusting portion 22 which is disposed in a hole portion 213 that opens to the outer peripheral surface of the first communication hole 21 and extends across the second communication hole 212. [

The first communication hole 211 is a plurality of circular small holes (ten in this embodiment) and communicates with the main body portion 21 in the axial direction from the upstream side to the downstream side. The main body portion 21 As shown in Fig. The total of the sectional areas of the plurality of circular shapes in the first communication hole 211 is set so as to secure the supply amount of the steam S necessary for cooling the lance pipe 11 when the soot blowing apparatus 10 is driven, Sectional area that allows the head valve 121 to apply a required pressure.

The second communication hole 212 is formed in the shape of an elongated hole at the center of the disc-shaped main body portion 21, communicating the main body portion 21 in the axial direction from the upstream side to the downstream side.

The hole portion 213 is circularly opened in a direction perpendicular to the axial direction so as not to penetrate the main body portion 21 from the disk-like outer peripheral surface, and the first communication hole 211 are formed so as not to cross each other.

The disc fixing hole 214 is formed with a plurality of circular holes which penetrate axially along the outer periphery of the main body 21. The disc fixing hole 214 is arranged so as to communicate with the fixing hole of the flange portion 121b of the head valve 121 and the fixing hole of the supply pipe flange portion 301 and the bolt 50 is inserted into the main body portion 21 are fixed.

The adjusting portion 22 includes a cylindrical shaft member 221 inserted into the hole 213, an operating portion 222 provided at the end of the shaft member 221, And a fixing portion 223 for fixing the fixing portion 223 so as not to come off from the fixing portion 213.

The shaft member 221 is a cylindrical member having a cylindrical shape and has a shape smaller than that of the hole 213 so as to be rotatable about the central axis of the hole 213, It is inserted into the inside. The shaft member 221 is formed with a flow-through hole 221a through the shaft member 221 in a direction orthogonal to the shaft of the shaft member 221 at a position corresponding to the second communication hole 212. [

The flow-through hole 221a has an elongated hole shape having the same size as the sectional shape of the second communication hole 212 and is formed so as to penetrate the shaft member 221 in a direction perpendicular to the shaft of the shaft member 221. [

The operating portion 222 is formed so as to protrude from the end surface of the shaft member 221 in the form of a prism having a smaller diameter than the shaft member 221. The operating portion 222 is provided on the end surface of the shaft member 221, Lt; / RTI >

The imprinting portion 222a is a linear mark drawn on the diagonal line of the prism and is drawn so that the direction in which the linear marking extends and the opening direction of the flow-through hole 221a formed in the shaft member 221 coincide with each other.

The operating portion 222 is formed so as to protrude outward from the engaging portion 222a side of the operating portion 222 even when the shaft member 221 is inserted into the hole portion 213, And rotates the shaft member 221 about its axis.

The fixing portion 223 has a fixing plate 223a for pressing the shaft member 221 so as not to come out of the through state and a fixing bolt 223b for fixing the fixing plate 223a to the outer peripheral surface of the main body portion 21.

The fixing plate 223a is formed with a hole portion, a plate shape, and a hole portion through which the operation portion 222 is inserted into the hole portion and a hole portion through which the fixing bolt 223b is inserted.

As the fixing bolt 223b, a known bolt may be used.

The fixing portion 223 is provided with the operating portion 222 inserted into the hole portion of the fixing plate 223a and fixed to the outer periphery of the main body portion 21 by the fixing bolt 223b, 213 so as not to come off.

Next, the operation of the soot blowing system 1 including the pressure adjusting mechanism 20 having the above-described configuration will be described.

When the soot blowing apparatus 10 is operated, the motor 130 is driven to start rotation and movement, and the valve structure of the head valve 121 is opened. This causes the lance pipe 11 to rotate while advancing in the axial direction of the lance pipe 11 while the steam S is injected from the nozzle 110 of the lance pipe 11, Remove deposited sediments.

Specifically, when the motor 130 starts to rotate, the rotation is transmitted to the input shaft of the traveling carriage 131 and is transmitted to the gear in the traveling carriage 131. The rotation transmitted within the traveling carriage 131 is transmitted to the lance pipe 11 by changing the rotation speed by the first gear so as to rotate the lance pipe 11. [ The rotation transmitted to the traveling carriage 131 is converted to rotation of an axis orthogonal to the input shaft by the second gear and is transmitted to the output shaft. The output shaft of the traveling carriage 131 is engaged with the rack 132 provided in the housing 14 and rotated to advance the traveling carriage 131 in the axial direction of the lance pipe 11 , The lance pipe (11) exits the housing (14) and enters the combustion chamber (6).

On the other hand, by opening the valve structure of the head valve 121, the steam S supplied from the supply pipe 30 is introduced into the feed pipe 12 through the pressure adjusting mechanism 20. The steam S flowing into the feed pipe 12 enters the lance pipe 11 and proceeds in the axial direction of the lance pipe 11 in the lance pipe 11. [ The steam S arriving at the nozzle 110 of the lance pipe 11 is injected from the nozzle 110.

4, the pressure adjusting mechanism 20 rotates the operating member 222 from the outside to rotate the shaft member 221 inserted into the hole 213 of the main body 21 The sectional area at which the second communication hole 212 is opened is adjusted and the supply amount of the steam S supplied to the head valve 121 is adjusted. Since the supply amount of the steam S in the lance pipe 11 is also adjusted by adjusting the supply amount of the steam S in the head valve 121, the injection pressure of the steam S injected from the nozzle 110 Is also adjusted.

When the soot blowing apparatus 10 is stopped, the motor 130 is rotated in the reverse direction to change the rotation transmitted to the reverse direction. As a result, the output shaft rotates in reverse, and the lance pipe 11 retracts in the axial direction of the lance pipe 11 and is accommodated in the housing 14.

The supply of the steam S to the feed pipe 12 is stopped and the nozzle 110 of the lance pipe 11 is stopped by stopping the supply of the steam S by closing the valve structure of the head valve 121. [ The injection of the steam S from the steam generator 1 is stopped.

Next, the method of adjusting the supply amount of the steam S as the cleaning fluid to the head valve 121 by the pressure adjusting mechanism 20 will be described in detail with reference to Figs. 5A to 5C.

5A, the direction of the shaft member 221 as the adjusting unit 22 is adjusted by rotating the operating unit 222 to adjust the opening direction of the flow hole 221a provided in the shaft member 221 and the opening direction of the main body 21 are aligned in parallel with the opening directions of the second communication holes 212. Since the opening direction of the flow hole 221a coincides with the line of the inscribing portion 222a provided on the end face of the operating portion 222, the opening direction of the flow hole 221a is checked while confirming the inscribing portion 222a . Since the flow hole 221a has the same sectional shape as that of the second communication hole 212, the second communication hole 212 is completely opened when the opening directions coincide with each other, The supply amount of the steam S supplied to the head valve 121 is maximized in combination with the supplied steam S.

The direction of the shaft member 221 which is the adjusting member 22 is adjusted by rotating the operating member 222 so that the opening direction of the flow hole 221a provided in the shaft member 221 of the adjusting member 22 And the opening direction of the second communication hole 212 of the main body portion 21 are shifted from each other. That is, the opening direction of the flow-through hole 221a is made to be in a range from a direction parallel to the second communication hole 212 to a right angle. As a result, a part of the opening of the second communication hole 212 overlaps with the shaft member 221 and is closed, and the other part overlaps with the flow hole 221a to be opened. As a result, the amount of the steam S capable of flowing through the second communication hole 212 is reduced, and the supply amount of the steam S to the head valve 121 is reduced.

However, the first communication hole 211 is always open. As a result, the steam (S) always flows through the first communication hole (211).

By adjusting the direction of the shaft member 221 by rotating the operating portion 222, the size of the portion that overlaps and passes between the second communication hole 212 and the flow hole 221a can be adjusted, The supply amount of the steam S supplied to the valve 121 can be adjusted. At this time, fine adjustment can be made while checking the supply amount of the steam S in the head valve 121 by rotating the operating part 222 while checking the pressure gauge 122. [ That is, since the size of the portion where the second communication hole 212 and the communication hole 221a are overlapped with each other is changed, the supply amount of the steam S supplied into the head valve 121 changes, and the pressure changes accordingly The supply amount of the steam S in the head valve 121 can be confirmed by the pressure gauge 122 provided in the head valve 121. [

The direction of the shaft member 221 which is the adjustment member 22 is adjusted by rotating the operation member 222 and the direction of the flow hole 221a provided in the shaft member 221 of the adjustment member 22 The opening direction and the opening direction of the second communication hole 212 of the main body portion 21 are oriented at right angles. The second communication hole 212 is completely closed by overlapping the opening with the shaft member 221. As a result, the steam S is not supplied from the second communication hole 212 to the head valve 121. However, since the first communication hole 211 is always open, the supply of the steam S is not completely blocked, and the minimum amount of the steam S is supplied according to the cross-sectional area of the first communication hole 211 do.

According to the above-described pressure adjusting mechanism 20, the flow rate of the steam S necessary for cooling the lance pipe 11 is ensured when the first communication hole 211 always drives the soot blowing apparatus 10 The required amount of steam S can be supplied to the lance pipe 11 on the downstream side of the distribution system as the supply system by opening the cross sectional area where the necessary supply pressure can be given by the head valve 121. The supply amount of the steam S supplied to the lance pipe 11 can be adjusted by adjusting the opening size of the second communication hole 212 by the adjusting unit 22 and adjusting the cross-sectional area. This makes it possible to easily adjust the supply amount of the vapor S as the fluid while securing the required supply amount of the vapor S as the fluid.

The pressure regulating mechanism 20 is formed in a disk shape so that the pressure regulating mechanism 20 is disposed in a small space in the direction of flow of the fluid in the distribution system of the head valve 121 and the supply pipe 30 can do. This makes it possible to provide a slight space such as a space between the head valve 121 and the supply pipe 30, and it is possible to mount the pressure adjusting mechanism 20 without making major modifications to the existing equipment.

The adjustment section 22 can adjust the size of the second communication hole 212 being opened from the outer circumferential surface through the hole 213 of the disk-shaped main body section 21, It is not necessary to perform complicated operations such as adjusting the supply amount of the steam S by exchanging the orifices having different cross sectional areas of the openings through which the steam flows. This makes it possible to more easily adjust the supply amount of the vapor S as the fluid.

Further, by rotating the shaft member 221 by the operating portion 222, the cross-sectional area of the second communication hole 212 opened or closed can be easily adjusted. The supply amount of the steam S can be adjusted only by rotating the operating portion 222 disposed on the outside of the main body portion 21 of the pressure adjusting mechanism 20 so that the pressure gauge 122 provided on the head valve 121 It is easy to fine-tune the supply amount directly while checking. This makes it possible to more easily adjust the supply amount of the vapor S as the fluid.

In the conventional throttle device as described in Patent Document 1, it is difficult to finely adjust the area of the cross-section of the flow passage through which the steam S can pass, so that the steam (steam) supplied during operation while checking the operation state of the soot blowing device It is difficult to fine-tune the supply amount of the gas. However, by using the pressure regulating device 20 of the present embodiment, after the valve structure of the running head valve 121 of the soot blowing device 10 is opened, It is possible to finely adjust the supply amount of the liquid S. Thereby, it becomes possible to supply an appropriate amount of steam (S) to the lance pipe (11) while checking the operation status of the soot blowing apparatus (10).

In addition, in the soot blowing apparatus 10, the steam S supplied to the lance pipe 11 not only removes sediments of the heat transfer pipe but also prevents the lance pipe 11 from entering the lance pipe 11 when the lance pipe 11 enters the high- And has a function of cooling the tube 11 to prevent damage due to heat. Therefore, if the steam S required for cooling is not supplied to the lance pipe 11 during the operation of the soot blowing apparatus 10 by the pressure adjustment failure, the lance pipe 11 is supplied with the steam There is a possibility that the fuel gas S enters the combustion chamber 6 at a high temperature without being supplied and is not cooled and may be damaged by heat. However, since the pressure adjusting mechanism 20 of the present embodiment is provided in the supply system for supplying the steam S to the lance pipe 11 of the soot blowing apparatus 10, the lance pipe 11 is provided with the first communication hole 211 to supply the necessary amount of steam (S) to cool the lance tube (11). This makes it possible to prevent the lance tube 11 from entering the combustion chamber 6 and being damaged by heat even if the second communication hole 212 is accidentally erroneously operated.

The pressure adjusting mechanism 20 is provided between the head valve 121 which is the end of the supply system of the soot blowing apparatus 10 and the supply pipe 30 which is the pipe for supplying the steam S, Since the apparatus 10 itself does not need to be modified, it is possible to easily install the pressure adjusting mechanism 20 on the existing soot blowing apparatus 10 afterwards.

By using such a pressure adjusting mechanism 20 in the soot blowing apparatus 10, when the heat transfer tube is not largely contaminated and the sediment is hardly attached, the sectional area of the second communication hole 212 is adjusted to be small , The amount of steam S in the lance pipe 11 is reduced and the injection pressure from the nozzle 110 is lowered when the supply amount of the steam S to the head valve 121 is reduced so that excessive pressure So that damage can be prevented. This makes it possible to prolong the service life of the heat transfer pipe or the like to be removed.

On the contrary, when the heat transfer pipe is largely contaminated and a large amount of deposit is deposited, if the cross-sectional area of the second communication hole 212 is adjusted to be large and the supply amount of the steam S to the head valve 121 is increased, The injection pressure from the nozzle 110 is increased, and the removal performance of the deposit can be improved. Thereby, it becomes possible to efficiently remove sediments.

Although the embodiments of the present invention have been described in detail with reference to the drawings, the respective constitutions and combinations thereof in the embodiments are merely examples, and the addition of the constituent elements, Omission, substitution, and other modifications are possible. The present invention is not limited to the embodiments but is limited only by the scope of claims.

The pressure adjusting mechanism 20 is not necessarily provided between the head valve 121 and the supply pipe 30 as in the present embodiment but may be provided in the flow path of the steam S which is fluid, Or may be provided on the head valve body 121a.

The present invention is not limited to the soot blowing apparatus 10 of the soot blowing system 1 according to the present embodiment. For example, it may be a soot blowing apparatus of a stationary rotating type or a so- May be used.

In addition, the shapes of the first communication hole 211 and the second communication hole 212 are not limited to the present embodiment, and may be, for example, circular hole portions.

One hole larger than the width of the shaft member 221 of the adjustment member 22 is formed so that the portion not blocked by the adjustment member 22 is used as the first communication hole 211 and the flow hole 221a itself The second communication hole 212 may be formed.

The pressure regulating mechanism 20 according to the present invention is not limited to the one used in the soot blowing apparatus 10 and may be used in a distribution system for supplying a minimum necessary pressure to the downstream side to supply the fluid.

The cross-sectional shape of the flow-through hole 221a is not limited to the cross-sectional shape of the second communication hole 212. For example, the cross-sectional shape of the flow-through hole 221a may be large or may be small . That is, depending on the apparatus to be used, the vapor (S) which is the fluid may be appropriately changed in accordance with the minimum supply amount required.

For example, the valve mechanism of the head valve 121 may be interlocked with the advance and the open of the lance pipe 11, And may be configured to automatically open or close the lance tube 11 in accordance with the movement of the lance tube 11.

The present invention relates to a soot blowing system provided with a pressure adjusting mechanism and a pressure adjusting mechanism. According to the pressure adjusting device of the present invention, it is possible to easily adjust the supply amount of the fluid by the second communication hole while securing the supply amount of the minimum required fluid by the first communication hole.

1 Soot Blowing System
10 Soot blowing device
11 Lance Hall
110 nozzle
12 feed pipes
120 valve portion
121 head valve
121a head valve body
121b flange portion
122 pressure gauge
13 driver
130 motor
131 Traveling carriage
132 Racks
14 Housing
20 Pressure adjusting mechanism
21 body portion
211 first communication hole
212 Second communicating hole
213 hole
214 Disk fixing hole
22 adjuster
221 shaft member
221a distribution hole
222 Control unit
222a imprint
223 Fixed portion
223a fixed plate
223b fastening bolt
50 volts
51 nut
30 suppliers
301 Supply pipe flange
6 combustion chamber

Claims (4)

A feed pipe for introducing the cleaning fluid into the lance tube; and a supply unit for supplying the cleaning fluid to the feed pipe, the head pipe for starting and stopping the supply of the cleaning fluid, A soot blowing device,
A supply pipe connected to a supply source of the cleaning fluid,
And a pressure adjusting mechanism provided in the circulation system of the cleaning fluid for adjusting the pressure of the cleaning fluid and provided between the supply pipe and the head valve,
Wherein the head valve includes:
A head valve body formed in a cylindrical shape and connected to the feed pipe,
A flange formed in a ring shape on the outer periphery of the head valve body,
And a pressure gauge for measuring and displaying the pressure of the cleaning fluid in the head valve body,
Wherein the supply pipe has a supply pipe flange portion protruding in a ring shape on an outer periphery of an end portion on the head valve side,
Wherein the pressure adjusting mechanism is fitted to the flange portion and the supply pipe flange portion and is fixed to the soot blowing device,
The pressure adjusting mechanism includes:
A first communication hole communicating with the supply pipe and the head valve main body and having a cross-sectional area that gives a minimum necessary pressure on the downstream side of the distribution system; and a second communication hole communicating with the supply pipe and the head valve main body A main body portion formed on the base body,
And an adjusting section capable of adjusting a cross-sectional area of the second communication hole. The method according to claim 1,
Wherein,
Wherein the first communication hole and the second communication hole are formed along the axial direction and an opening portion that opens to the outer peripheral surface and extends across the second communication hole is formed,
Wherein the adjusting portion is adjustable from an outer peripheral surface side of the main body through the hole portion. The method of claim 2,
Wherein,
A shaft member which is formed in an axial shape and which is inserted into the hole portion so as to be rotatable about its own central axis and in which a flow hole penetrating in a direction perpendicular to the central axis is formed,
And an operating portion provided on the shaft member for rotating the shaft member about an axis. The method according to any one of claims 1 to 3,
The distribution system is a supply system for supplying the cleaning fluid to the lance pipe of the soot blowing apparatus,
Wherein the cross-sectional area of the first communication hole is set so as to give a minimum necessary pressure for securing the flow rate of the cleaning fluid necessary for cooling the lance pipe.

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