JPH11166713A - Soot blower - Google Patents

Abstract

PROBLEM TO BE SOLVED: To simplify the structure, prevent steam from leaking, stabilize the seal performance, timely discharge the drain and reduce the cost. SOLUTION: A lance tube 15 is rotatably and movably disposed in an outer tube 14 through seals 25, 26, steam is fed from a head valve 20 through a flow rate control valve 22 to the tube 15 and blown from top end nozzle holes 16 into a boiler furnace to remove soot, and the lance tube 15 travels into/out of the boiler furnace and is rotated by a traction drive only. The soot blower feeds steam from a steam pipe 21 to an outer steam chamber 18 to control the pressure difference between a rear steam chamber 17 and outer steam chamber 18 so as to reduce the power of the traction drive 24 and has a drain trap in the rear steam chamber 18 at the back end of the lance tube 15 returned to a rearmost end.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a suit blower used for removing soot from a boiler, and has a simplified structure and a reduced apparatus cost.

[0002]

2. Description of the Related Art FIG. 4 is a schematic view showing a conventional suit blower as a whole, partially cut away, and FIG. 5 is a view taken along the line AA in FIG.
FIG. Reference numeral 1 denotes a frame fixed to a boiler frame (not shown) by a pin 3 provided on a tip side lug 2 and a pin 5 provided for each fixture provided at an upper end. Reference numeral 6 denotes a lance tube that moves back and forth in the frame 1 and enters and exits a boiler furnace (not shown). A nozzle hole 7 is provided at the tip of the lance tube 6 to eject steam into the boiler furnace.
Removes soot accumulated in the boiler furnace.

[0003] For this reason, a head valve 8 fixed to the rear end of the frame 1 in the lance tube 6 for supplying steam by a steam pipe (not shown) and a rear end connected to the head valve 8. The steam is supplied by a feed pipe 9 arranged so that the front end is inserted to the vicinity of the front end in the lance tube 6. In addition, the lance tube 6
The front end side outer periphery where the nozzle hole 7 is provided is supported by a revolving roller 10 mounted on the frame 1, and the rear end side is rotatably connected to a traveling carriage 11.

The traveling carriage 11 is slidably mounted on the feed pipe 9, and the sliding part of the head valve 8 and the steam supplied from the feed pipe 9 to the inside of the lance tube 6 are provided on the sliding part. A seal 12 for preventing leakage into the frame 1 is provided. Although the lance tube 6 is rotatably attached to the traveling carriage 11 as described above, it is connected so as to be able to move integrally with the traveling carriage in the axial direction.

[0005] On both sides of the traveling carriage 11, rotatable wheels 13 are mounted, which run on a running track 14 'mounted on the inner wall surface of the frame 1, and are connected as described above. The lance tube 6 is moved in the axial direction, the lance tube 6 is inserted into the boiler furnace, and when the soot is not removed, the lance tube 6 is pulled out from the boiler furnace. Further, although not shown, the traveling carriage 11 travels on the traveling track 14 'by driving the wheels 13 and rotates the lance tube 6 which moves back and forth in the frame 1 while the traveling carriage 11 travels. A drive device and a drive system are provided for changing the injection direction of the steam blown out from the nozzle holes 7 to enhance the soot removal effect.

FIG. 6 shows a traveling track 1 attached to an inner wall of a frame 1 for traveling a traveling carriage 11 for driving a lance tube 6 of a conventional suit blower.
It is a figure which shows how to attach 4 '.

[0007] In the figure, A indicates the position of the traveling carriage 11 when the lance tube 6 is most pulled out of the boiler furnace to the outside of the furnace, and C indicates the position where the revolving roller 10 is installed. As you can see from the figure,
In order to prevent the drain from escaping from the seal provided between the traveling carriage 11 and the feed pipe 9, the traveling carriage 11 is installed inclined at a height y ₁ in the direction of the nozzle hole 7. .

That is, the traveling carriage 11 travels toward the boiler furnace wall, and the traveling carriage 1
When the lance tube 6 that advances with the traveling of the lance tube 6 is inserted into the boiler furnace, the lance tube 6 is heated by the passing steam and drainage is eliminated, but the overhang at the tip of the lance tube 6 increases, , Hang down. C in order to correct this, traveling raceway 14 of Carriage 11 ', as shown in the figure, between the x ₁ from A to B is downwardly from y _2, B
The space between x ₂ -x ₁ up to y ₂ -y ₁ is set upward so as to be installed on the inner wall surface of the frame 1.

However, when the height of the traveling carriage 11 changes as described above, the inclination of the traveling carriage 11 with respect to the feed pipe 9 connected to the head valve 8 and disposed substantially horizontally changes, and thus the feed pipe is changed. 9, a torque is generated in the seal 12 and there is a problem that causes a steam leak.

[0010] Further, the conventional suit blower described above,
In order to move the lance tube 6 for injecting steam into the boiler furnace, the traveling carriage 11 requires various devices. That is, a frame 1 for holding the lance tube 6 and a traveling carriage 1 for moving the nozzle hole 7 at the tip of the lance tube 6 into and out of the boiler furnace.
1. The wheels 13 and the traveling track 14 'for traveling, the feed pipe 9 for supplying steam to the lance tube 6, and the like are required, and the structure becomes complicated. In addition, there is a problem that the cost of the suit blower increases.

[0011] This means that when applied to a large-sized boiler, a suit blower having a lance tube 6 whose traveling distance is particularly long is required, and the problem becomes particularly large.

In order to simplify the mechanism for moving the lance tube 6 in the conventional suit blower, the present applicant has required the frame 1, wheels 13, running track 14 ', feed pipe 9 and the like required in the conventional suit blower. The driving mechanism of the lance tube 6 includes a traveling carriage 11 capable of rotating and running the lance tube 6, and a revolving roller 10.
In order to provide a suit blower that employs a traction drive that also has the functions described above, simplifies the structure, and can reduce the cost, Japanese Patent Application No. 9-198443 has proposed a "suit blower."

This suit blower, as shown in FIG.
An outer cylinder 14 attached to a boiler frame (not shown), and an outer cylinder 1 that is movable in the outer cylinder 14 in the axial direction and the rotation direction.
The lance tube 15 communicates with a later-described rear steam chamber 17 provided at a rear portion of the lance 4 and has a nozzle hole 16 for ejecting steam at a front end portion.

The lance tube 1 in the outer cylinder 14
5 A rear steam chamber 17 is provided on the rear end side, and an outer peripheral steam chamber 18 is provided in the outer cylinder 14 around the outside of the lance tube 15 which is inserted into the outer cylinder 14 and is movable. That is, a first seal 25 is provided at the rear end of the lance tube 15 so as to slide with the inner peripheral surface of the outer cylinder 14 and partition the rear steam chamber 17 inside the outer cylinder 14 on the rear end side of the lance tube 15. A second end portion of the outer cylinder 14 slides with the outer peripheral surface of the lance tube 15 and the first seal 25 and the outer peripheral surface of the lance tube 15 define an outer peripheral steam chamber 18 in the outer cylinder 14. A seal 26 is provided.

In the rear steam chamber 17, a head valve 20 is provided outside a flange 19 provided so as to close the rear end of the outer cylinder 14, and is interposed in a steam pipe 21 for supplying steam from outside. The steam whose flow rate has been adjusted by the adjusted flow control valve 22 is supplied to the head valve 20, and this steam is supplied to the rear steam chamber 17 through a hole formed in the flange 19. Further, the steam pipe 21 is branched on the upstream side of the flow control valve 22, and the steam having the pressure adjusted by the pressure adjusting valve 23 interposed in the branched steam pipe 21 is
The outer peripheral steam chamber 18 is supplied.

A lance tube 15 movable in the axial direction and the rotational direction in the outer tube 14 is provided at the front end of the outer tube 14.
A traction drive 2 for rotating the lance tube 15 and running in the axial direction to move the tip of the lance tube 15 into and out of the boiler furnace.
4 is provided.

As described above, in the proposed suit blower, the lance tube 15 is provided inside the outer cylinder 14,
The lance drive 15 is driven and rotated by the traction drive 24. The wheels 13 provided on the side of the traveling carriage 11 and the inner surface of the frame 1 are provided like the above-mentioned conventional suit blower. Complex mechanisms such as the traveling track 14 'and the feed pipe 9 and complicated mechanisms such as the traveling carriage 11 are eliminated, and the structure is simplified.

In order to supply the steam supplied from the head valve 20 to the lance tube 15 from within the outer cylinder 14, the head valve 20 and the lance tube 15 are communicated with each other. Outer cylinder 14
The steam is supplied to the rear steam chamber 17 provided in the inside and the outer steam chamber 18 formed between the inner circumferential surface of the outer cylinder 14 and the outer circumferential surface of the lance tube 15. , A pressure detection line 27 'indicated by a dotted line in FIG.
By detecting the pressure in the rear steam chamber 17 and the pressure in the outer steam chamber 18 and adjusting the pressure regulating valve 23, the pressure difference between the rear steam chamber 17 and the outer steam chamber 18 is adjusted, and the thrust force is reduced. The power of the traction drive 24 that drives the lance tube 15 can be reduced by generating the lance tube 15.

However, even in such a suit blower, when the lance tube 15 is charged into the boiler furnace by the power of the traction drive 24, the overhang at the tip of the lance tube 15 is caused by the weight of the lance tube 15. As it gets longer, it hangs down.

To this end, the lance tube 15 is provided at the rear end of the lance tube 15 and slides on the inner peripheral surface of the outer tube 14 to seal the outer peripheral surface of the lance tube 15 on the rear end side and the inner peripheral surface of the outer tube 14. A first seal 25 for preventing the steam from flowing into the outer peripheral steam chamber 18, and a first seal 25 provided at the front end of the outer cylinder 14 to seal the outer peripheral surface on the front end side of the lance tube 15 and the inner peripheral surface of the outer cylinder 14. Thus, the leakage of steam flowing out through the traction drive 24 through which the lance tube 15 penetrates is prevented, and the pressure in the outer peripheral steam chamber 18 is reduced by the pressure regulating valve 2.
The sealability of the second seal 26, which is maintained at the pressure adjusted in step 3, deteriorates.

As described above, the flow of steam into the outer peripheral steam chamber 18 due to the deterioration of the sealing property of the first seal 25 and the second seal 2
The pressure difference between the rear steam chamber 17 and the outer steam chamber 18 is adjusted by adjusting the pressure regulating valve 23 by the outflow of steam from the outer steam chamber 18 due to the deterioration of the sealing performance of the lance tube 15. Not only are the features of the suit blower proposed by the present applicant reduced so that the power of the traction drive 24 that drives the lance tube 15 can be reduced, but also the outside that is outside the boiler furnace. Failure due to leakage of steam may occur.

Further, the lance tube 15 is drawn out of the boiler furnace by the driving force of the traction drive 24, and the remaining steam is cooled in the rear steam chamber 17 and the outer peripheral steam chamber 18, and becomes a drain, and is drained to both steam chambers 17, 18. If it stays, not only does a malfunction occur when the suit blower is started, but also these cause corrosion and shorten the life of the suit blower.

[0023]

SUMMARY OF THE INVENTION In order to solve the problems of the conventional suit blower, the present invention proposes an outer cylinder mounted on a frame of a boiler, which has been previously proposed by the present applicant. A lance tube which is movable in the rotation direction and has a nozzle hole for ejecting steam at the tip, a rear steam chamber provided in an outer cylinder on the rear end side of the lance tube, and an outer cylinder on the outer peripheral side of the lance tube. What occurs in a suit blower that is provided at the outer peripheral chamber provided at the front end of the outer cylinder and is provided with a traction drive that drives the lance tube in the axial direction and the rotational direction to enter and exit the boiler furnace wall It is an object of the present invention to solve the problem described above.

That is, even when the lance tube is most inserted into the boiler furnace wall, that is, even when the amount of overhang of the lance tube becomes large, a sealing device for sealing between the inner peripheral surface of the outer cylinder and the outer peripheral surface of the lance tube. The sealability of the steam is not deteriorated, and even if steam remains in the rear steam chamber or the outer peripheral steam chamber and becomes drain, the steam can be quickly discharged or the steam that causes the generation of drain is removed. It is an object of the present invention to provide a suit blower that can be discharged quickly, can start the suit blower quickly, and can reduce corrosion and extend the life.

[0025]

Therefore, the first suit blower of the present invention has the following means.

(1) The lance tube is most pulled out of the boiler furnace, and the lance tube is moved to the rearmost end in the outer cylinder, into the rear steam chamber located rearward of the rear end of the lance tube when retracted, and into the rear steam chamber. A drain trap is provided so that the drain generated by the steam introduced into the tank can be discharged to the outside.

A second aspect of the present invention is a suit blower in addition to the above-mentioned means (1).

(2) An outer cylinder which is attached to the boiler frame and in which the lance tube can move freely in the axial direction and the rotating direction is installed at an inclination which becomes higher from the rear end toward the front end. The tip of the lance tube, which is driven by a traction drive provided at the tip of the outer cylinder and moves in the axial direction, becomes higher as it advances in the direction of insertion into the boiler furnace.

The third suit blower of the present invention employs the following means in addition to the means (1) described above.

(3) The rear end of the outer peripheral steam chamber is provided at the rear end of the lance tube and formed between the outer peripheral surface of the lance tube and the inner peripheral surface of the outer cylinder. A first seal forming a sliding surface between the outer peripheral surface of the lance tube and the inner peripheral surface of the outer cylinder when moving in the axial direction, and an outer cylinder adjacent to the rear of the traction drive provided at the tip of the outer cylinder. And a second seal defining a front end of the outer cylindrical steam chamber and forming a sliding surface similar to the first seal, and an outer peripheral steam chamber between the first seal and the second seal. The outer peripheral steam chamber is divided into two front and rear steam chambers, and a third seal that forms a sliding surface similar to the first seal and the second seal is provided.

A fourth aspect of the present invention is a suit blower in addition to the above-mentioned means (3).

(4) The outer peripheral steam chamber formed between the outer peripheral surface of the lance tube and the inner peripheral surface of the outer cylinder communicates with the inside of the boiler furnace into which the lance tube is inserted from the front end, and the first seal is sealed. In order to reduce the load on the traction drive or to reduce the load on the traction drive, the steam introduced into the outer peripheral steam chamber by adjusting the pressure is sent into the boiler furnace, and even if the sealability of the second seal is deteriorated, the second seal is deteriorated. A steam outflow pipe is provided to prevent the outflow of steam from the seal to the outside.

[0033]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of a suit blower according to the present invention will be described below with reference to the drawings. FIG. 1 is a sectional view showing a first embodiment of a suit blower according to the present invention.
In the drawing, the same or similar members as those shown in FIG. 7 are denoted by the same reference numerals, and description thereof will be omitted as much as possible.

As shown in the figure, a first seal 25 and a second seal 26 are provided on the sliding portion between the outer peripheral surface of the lance tube 15 and the inner peripheral surface of the outer cylinder 14 as well as the conventional one. A third seal 27 is provided between the first seal 25 and the second seal 26. In addition, the lance tube 15
Rear steam chamber 17 in the outer cylinder 14 provided to inject steam into the boiler, and furthermore, the rear portion which is rearward from the rear end of the lance tube 15 at the position where the lance tube 15 is pulled out from the boiler furnace and is most retracted. A drain trap 28 is provided in the steam chamber 17, and drain collected in the rear steam chamber 17 is discharged to the outside by a drain pipe 29 connected to the drain trap 28.

Further, a third seal 27 is provided between the first seal 25 and the second seal 26, and more preferably, is installed close to the second seal 26, and
5 and the second seal 26, the lance tube 15
A sliding surface is formed between the outer peripheral surface of the outer cylinder 14 and the inner peripheral surface of the outer cylinder 14, and the outer peripheral steam chamber 18 is partitioned back and forth. A steam outlet pipe 30 is provided between the outer peripheral steam chamber 18 behind the outer peripheral steam chamber 18 separated by the third seal 7 and the second seal 26 and the inside of the boiler furnace.

FIG. 2 shows a method of installing a suit blower according to the present embodiment. The suit blower configured as described above is provided with a traction drive 24 provided at the tip of the outer cylinder 14 from a position E where the lance tube 15 is most out of the boiler furnace.
It is installed so that the height is y upward in the distance x ₂ to the position.

At this time, on the tip of the lance tube 15,
FIG. 3 shows an example of the downward position. As shown in the figure, the lance tube 15 is installed as shown in FIG. 2 during the travel of inserting the lance tube 15 into the boiler furnace from the position of the lance tube 15 most outside the boiler furnace. The displacement occurring in the lance tube 15 is δ, but it can be understood from this figure that the lance tube 15 has a sufficient correction function.

When the suit blower is started, the lance tube 15 is located at the most retracted position.
Drain is retained in the rear steam chamber 17, and this drain can be discharged to the outside from the drain trap 28 via the drain pipe 29 at any time. Further, in the installation of the lance tube 15 of the present embodiment, no torque is generated in the seal portion, and since the third seal 27 is provided between the first seal 25 and the second seal 26, the outer peripheral steam chamber 18 is provided. Can be expected to have stable sealing performance.

That is, even when the lance tube 15 is inserted into the boiler furnace and the amount of overhang increases,
The lance tube 15 is attached to the boiler frame.
The outer cylinder 14 is arranged so that it can move freely in the axial direction and the rotating direction, and is disposed so as to be inclined higher from the rear end toward the front end, and is driven by a traction drive 24 provided at the front end of the outer cylinder 14. Since the tip of the lance tube 15 moving in the axial direction is disposed so as to be higher as it advances in the direction of insertion into the boiler furnace, no excessive torque is generated in the seal portion.

The rear end of the outer peripheral steam chamber 18 is provided at the rear end of the lance tube 15 and is formed between the outer peripheral surface of the lance tube 15 and the inner peripheral surface of the outer cylinder 14. A first seal forming a sliding surface between the outer peripheral surface of the lance tube and the inner peripheral surface of the outer cylinder when the axial movement of the lance tube in the outer cylinder; and a traction drive provided at a tip of the outer cylinder. Outer cylinder 1 adjacent to the rear of
4, a second seal 26 defining a sliding surface, similar to the first seal 25, and defining the outer end between the first seal 25 and the second seal 26. A third seal 27 that is provided in the steam chamber and divides the outer peripheral steam chamber 18 into two front and rear steam chambers and forms a sliding surface similar to the first seal 25 and the second seal 26.
By providing the above, stable sealing performance can be expected.

In particular, since the sealing performance of the first seal 25 and the second seal 26 is exhibited without deteriorating the sealing performance, the inflow of steam from the rear steam chamber 17 to the outer peripheral steam chamber 18 is prevented. Thus, leakage of steam from the second seal 26 to the outside can be prevented.

Further, an outer peripheral steam chamber 18 formed between the outer peripheral surface of the lance tube 15 and the inner peripheral surface of the outer cylinder 14 communicates with the inside of the boiler furnace into which the lance tube 15 is inserted from the front end. When the steam introduced into the outer peripheral steam chamber 18 is sent into the boiler furnace by adjusting the pressure to reduce the sealing performance of the seal 25 or the load on the traction drive 24, and the sealing performance of the second seal deteriorates. But
A steam outflow pipe is provided to prevent the outflow of steam from the second seal to the outside. In addition to preventing outflow of steam to the outside, the differential pressure between the rear steam chamber 17 and the outer peripheral steam chamber 18 is maintained as adjusted, and the traction drive is performed. 24 power can be reduced.

The lance tube 15 is most pulled out of the boiler furnace, and the lance tube 15 is retracted to the rearmost position in the outer tube 14 into the rear steam chamber 18 located rearward from the rear end of the lance tube 15. Since a drain trap 28 for discharging the drain generated by the steam introduced into the steam chamber 17 to the outside is provided, the drain remaining in the rear steam chamber 18 is immediately removed after the use of the suit blower, and the outer steam chamber 18 is removed. Is discharged into the boiler furnace by the steam outflow pipe 30, so that the drain does not stay in the suit blower, corrosion due to the drain can be reduced, and the drain is removed at the time of starting the suit blower. Can be started smoothly.

[0044]

As described above, the suit blower of the present invention has the following features. (1) The lance tube is most pulled out from the boiler furnace, and the lance tube is retracted to the rearmost position in the outer cylinder. A drain trap for discharging drain generated by steam introduced into the rear steam chamber to the outside is provided in the rear steam chamber at a position rearward from the end. Further, the second suit blower of the present invention comprises: (2) an outer cylinder mounted on a boiler frame and having a lance tube movable freely in an axial direction and a rotating direction, from the rear end to the front end. The lance tube is driven by a traction drive provided at the tip of the outer cylinder, and is moved upward in the direction of insertion into the boiler furnace. . The third suit blower of the present invention is provided at (3) the rear end of the lance tube, and the rear end of the outer peripheral steam chamber formed between the outer peripheral surface of the suit blower and the inner peripheral surface of the outer cylinder. And a first seal that forms a sliding surface between the outer peripheral surface of the lance tube and the inner peripheral surface of the outer cylinder when the lance tube moves in the axial direction in the outer cylinder, and is provided at the tip of the outer cylinder. A second seal provided in the outer cylinder adjacent to the rear of the traction drive and defining a front end of the outer cylinder steam chamber and forming a sliding surface similar to the first seal; a first seal and a second seal; And a third seal that forms the same sliding surface as the first seal and the second seal, while dividing the outer steam chamber into two front and rear steam chambers. did. A fourth aspect of the present invention is a suit blower, wherein (4) an outer peripheral steam chamber formed between the outer peripheral surface of the lance tube and the inner peripheral surface of the outer cylinder, and a boiler furnace into which the lance tube is inserted from the tip. In order to reduce the sealing performance of the first seal or reduce the load on the traction drive, the pressure is adjusted and the steam introduced into the outer peripheral steam chamber is sent into the boiler furnace, and the sealing performance of the second seal is improved. A steam outflow pipe is provided to prevent the outflow of steam from the second seal to the outside even in the case of deterioration.

Thus, even when the lance tube is most inserted into the boiler furnace wall, that is, when the overhang amount of the lance tube becomes large, a sealing device for sealing between the inner peripheral surface of the outer cylinder and the outer peripheral surface of the lance tube. The sealability of the lance tube is not deteriorated, the steam does not flow out, and the load on the traction drive for operating the lance tube can be reduced.

Further, even if steam remains in the rear steam chamber or the outer peripheral steam chamber and becomes a drain, the steam can be quickly discharged, or the steam which causes the generation of the drain can be quickly discharged, thereby preventing corrosion. It is possible to provide a suit blower that can be reduced and the life can be extended, and can be started smoothly at the time of soot removal.

[Brief description of the drawings]

FIG. 1 is a sectional view showing a first embodiment of a suit blower according to the present invention;

FIG. 2 shows an installation state of the suit blower shown in FIG.

When the lance tube shown in FIG. 1 is set in the installation state shown in FIG. 2, the lance tube in the middle of travel for inserting the lance tube 15 into the boiler furnace from the position of the lance tube most outside the boiler furnace. FIG.

FIG. 4 is a side view showing an example of a conventional suit blower with a partially broken section;

5 is a cross-sectional view taken along line AA of FIG.

FIG. 6 is a view showing a traveling path of a traveling carriage of the suit blower shown in FIG. 4;

FIG. 7 is a side view showing a suit blower proposed by the present applicant in a partially broken cross-section.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Frame 2 Tip lug 3 Pin 4 Mounting tool 5 Pin 6 Lance tube 7 Nozzle hole 8 Head valve 9 Feed pipe 10 Revolving roller 11 Traveling carriage 12 Seal 13 Wheel 14 'Traveling track 14 Outer cylinder 15 Lance tube 16 Nozzle hole 17 Rear steam chamber 18 Outer peripheral steam chamber 19 Flange 20 Head valve 21 Steam pipe 22 Flow control valve 23 Pressure control valve 24 Traction drive 25 First seal 26 Second seal 27 Third seal 27 'Pressure detection line 28 Drain trap 29 Drain pipe 30 Steam outflow pipe

Claims (4)

[Claims] 1. A lance tube attached to a frame of a boiler, a lance tube movable in the outer tube in an axial direction and a rotational direction, and provided with a nozzle for ejecting steam at a distal end portion, a rear end of the lance tube. A rear steam chamber provided in the outer cylinder and a peripheral steam chamber provided in the outer cylinder on the outer peripheral side of the lance tube, and installed at the tip of the outer cylinder, the lance tube being axially and In a suit blower provided with a traction drive that is driven in the rotation direction to enter and exit the boiler furnace wall, a drain trap is provided in the rear steam chamber at a position rearward of a rear end of the lance tube that is retracted to the rearmost end. Suit blower characterized by the following. 2. The lance tube, wherein the outer cylinder is disposed so as to be inclined from the rear end portion toward the front end portion and is driven by the traction drive, and the tip end of the lance tube moving in the axial direction becomes higher as it advances. The suit blower according to claim 1, characterized in that: 3. A rear end portion of the lance tube, which defines a rear end of the outer peripheral steam chamber, and forms a sliding surface when the lance tube moves in the outer cylinder in the axial direction. A first seal, a second seal provided adjacent to the rear of the traction drive and defining a front end of the outer peripheral steam chamber and forming the sliding surface; and the first seal and the second seal. 2. The suit blower according to claim 1, further comprising a third seal provided between the front and rear sides, the outer peripheral steam chamber being divided into two front and rear portions, and a third seal forming the sliding surface. 4. A steam that communicates the outer peripheral steam chamber with the inside of the boiler furnace, feeds the steam in the outer peripheral steam chamber into the furnace wall, and prevents the outflow of steam from the second seal to the outside. The suit blower according to claim 3, further comprising an outflow pipe.