KR101303336B1 - Pipe cleaning equipment for pellet boiler - Google Patents

Abstract

The present invention relates to a tubular washing apparatus for pellet boiler, which is in communication with the combustor of the boiler, the flow path is provided to flow the high-temperature combustion gas generated from the combustor therein, and installed in the receiving tank containing the heating water and the combustion gas and It is installed in the heat exchanger tube for heat-exchanging the heating water, the insertion member is inserted into the heat exchanger tube so as to be slidable in the longitudinal direction of the flow path, and the insertion member is installed in the insertion member, and on the inner wall surface of the heat exchanger tube by sliding the insertion member. At least one removal member extending in a direction adjacent to the inner wall surface of the heat exchange tube so that the edge is in contact with the foreign matter so as to remove the stuck foreign matter, and the drive to reciprocate the insertion member along the longitudinal direction of the flow path With a unit.
In the tubular washing apparatus for pellet boiler according to the present invention, since the removal member installed in the heat exchanger tube is reciprocated by the driving unit and removes the foreign matter stuck to the inner wall of the heat exchanger tube, the flow of the combustion gas in the heat exchanger tube is disturbed by the foreign matter. It has the advantage of preventing foreign matters and removing foreign matters without stopping the pellet boiler.

Description

Pipe cleaning equipment for pellet boiler

The present invention relates to a tubular washing apparatus for pellet boilers, and more particularly, to a tubular washing apparatus for pellet boiler to remove the foreign matter stuck to the inner wall of the heat exchange tube through which the combustion gas generated from the combustor passes.

Generally, as a fuel for heating, fossil fuels such as coal, petroleum, and natural gas are mostly used. However, the above fossil fuels pollute the environment due to various pollutants generated in the combustion process, and also have a limit of reserves.

Thus, in recent years, development of alternative energy and environmentally friendly fuel sources have been actively under way. Among them, pellet boilers capable of heating or obtaining hot water using a fuel source called Wood Pellet have been manufactured and used.

Wood pellets (hereinafter referred to as "pellets") are wood-based fuels produced by compacting wood by-products, which are processed and discarded at high pressure, into environmentally friendly fuels.

Pellet boiler is a combustor that burns wood pellets to generate a high temperature combustion gas, an accommodating tank containing heating water, and communicating with the combustor, are installed through the accommodating tank to penetrate the accommodating tank to generate hot combustion gas and heating water. It is provided with a plurality of heat exchanger tube for heat exchange. The hot combustion gas generated in the combustor heats the heating water by heat exchange with the heating water while passing through the heat exchange tube.

However, the bellows-type pellet boiler configured as mentioned above has a problem in that ash generated during combustion of wood pellets is fixed to the inner wall surface of the heat exchanger tube to hinder the flow of combustion gas in the heat exchanger tube, thereby reducing heat exchange efficiency.

An object of the present invention is to provide a tubular washing apparatus for a pellet boiler which removes foreign substances fixed to the inner wall of a heat exchanger tube installed in a heat exchanger tube.

Tube washing apparatus for pellet boiler according to the present invention for achieving the above object is in communication with the combustor of the boiler, the flow path is provided so that the high-temperature combustion gas generated from the combustor flows therein, the receiving tank containing the heating water It is installed in the heat exchange tube for heat exchange between the combustion gas and the heating water, the insertion member is inserted into the heat exchange tube so as to be slidable in the longitudinal direction of the flow path, and is installed in the insertion member, At least one removal member extending in a direction adjacent to an inner wall surface of the heat exchange tube such that an edge thereof is in contact with the foreign matter so as to remove the foreign matter stuck to the inner wall surface of the heat exchange tube by sliding of the insertion member; And a drive unit for reciprocating the insertion member in the longitudinal direction of the flow path. do.

The heat exchange tube is formed such that the flow path extends in the vertical direction, the insertion member extends in the vertical direction in parallel with the flow path, the lower end is installed to protrude below the heat exchange tube, the drive unit is A support member fixed to the lower end of the insertion member, a rotation shaft installed at both ends in a position spaced downward from the support member in the main body of the boiler in which the heat exchange tube is installed, and by the rotation of the rotation shaft, Lifting and lowering the support member, one end is fixed to the outer circumferential surface of the rotary shaft opposite to the support member, the lifting bar extending in a direction away from the rotary shaft so that the other end is in contact with the lower surface of the support member, and rotates the rotary shaft It is preferable to provide the rotating part to make.

In addition, the driving unit may further include a support roller installed at the other end of the elevating bar to reduce the friction between the elevating bar and the support member.

The heat exchange tube is formed such that the flow path extends in the vertical direction, the insertion member extends in the vertical direction in parallel with the flow path, the lower end is installed to protrude below the heat exchange tube, the drive unit is A support member fixed to the lower end of the insertion member, a rotation shaft installed at both ends in a position spaced downward from the support member in the main body of the boiler in which the heat exchange tube is installed, and by the rotation of the rotation shaft, It may be provided with a lifting cam which is installed eccentrically on the rotating shaft in a position opposite to the supporting member so as to raise and lower the supporting member, and a rotating portion for rotating the rotating shaft.

The drive unit further comprises a guide portion to guide the lifting and lowering of the support member, the guide portion is installed on the main body in a position opposite to the side of the support member, and the guide rail extending in the vertical direction; And a guide roller rotatably installed on a side of the support member opposite to the guide rail such that an outer circumferential surface of the guide rail contacts the guide rail so that the support member can be lifted up and down along the guide rail.

The heat exchange tube is formed such that the flow path extends in the vertical direction, the insertion member extends in the vertical direction in parallel with the flow path, the lower end is installed to protrude below the heat exchange tube, the drive unit is A sliding bar slidably installed in a body of the boiler provided with a heat exchanger tube in a direction spaced downwardly from the heat exchanger in a direction crossing the extension direction of the insertion member, and the sliding bar at a position opposite to the insertion member; A first link fixed to an outer circumferential surface and extending upwardly, a lower end of which is hinged to an upper end of the first link, and an upper end of which is hinged to a lower end of the insertion member; It may be provided with an actuator for reciprocating along the sliding direction of the sliding bar.

The driving unit is installed in the main body under the heat exchange tube, the lower end of the insertion member protruding downward of the heat exchange tube in order to guide the insertion member sliding in the vertical direction to the insertion member through The guide plate may further include a guide plate which penetrates up and down at opposite positions and has a through hole having an inner diameter corresponding to an outer diameter of the insertion member.

On the other hand, the heat exchange tube is formed so that the flow path extends in the vertical direction, the insertion member is formed extending in the vertical direction parallel to the flow path, the plurality of removal members of the position spaced apart from each other along the vertical direction It is installed in the insertion member, is formed in a disk shape having an outer diameter corresponding to the inner diameter of the heat exchange tube so that the edge is adjacent to the inner wall surface of the heat exchange tube, the combustion gas introduced into the heat exchange tube can pass. Preferably, at least one through hole is formed.

In the tubular washing apparatus for pellet boiler according to the present invention, since the removal member installed in the heat exchanger tube is reciprocated by the driving unit and removes the foreign matter stuck to the inner wall of the heat exchanger tube, the flow of the combustion gas in the heat exchanger tube is disturbed by the foreign matter. It has the advantage of preventing foreign matters and removing foreign matters without stopping the pellet boiler.

1 is a perspective view of a boiler having a tubular washing device for pellet boiler according to the present invention;
2 and 3 is a cross-sectional view showing an operating state of the tube washing apparatus for pellet boiler according to the present invention,
4 is a cross-sectional view of a tube washing apparatus for a pellet boiler according to another embodiment of the present invention,
5 is a cross-sectional view of a tube washing apparatus for a pellet boiler according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in more detail the tubular washing apparatus 100 for pellet boiler according to the present invention.

1 to 3 there is shown a tube washing apparatus 100 for a pellet boiler according to the present invention.

Referring to the drawings, the pellet boiler 10 is a main body 11 provided with an accommodating space therein, a combustor which is installed in the main body 11 and generates a combustion gas of high temperature by burning pellets, and spaced apart from the combustor. It is installed in the main body 11 of the position, the receiving tank 12, the heating water is accommodated, and communicated with the combustor, is installed to penetrate the receiving tank 12 to the hot combustion gas and heating water generated from the combustor A plurality of heat exchange tubes 13 for heat exchange are provided.

At this time, the heat exchange tubes 13 are provided with a flow path 14 through which combustion gas flows, and the predetermined length is extended in the vertical direction so that the flow path 14 extends in the vertical direction, and the upper and lower ends are accommodated. It is preferable to correspond to or extend longer than the height of the receiving tank 12 to be exposed to the outside of the tank 12. The heat exchange tubes 13 are inserted through the receiving tank 12 so that the heating water and the combustion gas can easily exchange heat.

In addition, the heat exchange tube 13 is the upper end is in communication with the exhaust duct 15 of the combustor, the lower surface exposed to the outside of the receiving tank 12 is formed to be open. The combustion gas generated from the combustor is introduced into the heat exchange tubes 13 through the discharge duct 15, and heats the heating water by heat exchange with the heating water contained in the receiving tank 12 while passing through the heat exchange tubes 13. . The combustion gas passing through the heat exchange tubes 13 is discharged to the outside of the main body 11 through the exhaust port 16 formed on the outer surface of the main body 11.

On the other hand, on the upper surface of the main body 11 opposite to the upper side of the heat exchange tubes 13, a maintenance tool so that the manager can easily replace the tube washing apparatus 100 for pellet boiler according to the present invention installed in the heat exchange tube 13 Formed. At this time, it is preferable that a through hole having an area corresponding to the repair tool is also formed in the discharge duct 15 facing the repair tool.

In addition, a cover is rotatably provided on the upper surface of the main body 11 to selectively open and close the repair tool. At this time, the cover is formed with a larger area than the repair tool, although not shown in the figure, it is preferable that the sealing member is installed at the edge of the cover to prevent the combustion gas flowing in the discharge duct 15 to flow out.

Pellet boiler tube washing apparatus 100 according to the present invention is installed in the heat exchange tube 13 to remove the foreign matter adhered to the inner wall surface of the heat exchange, insert member 110, removal member 120 and the drive unit 200.

The insertion member 110 is inserted into the flow path 14 of the heat exchange tubes 13 so as to be slidable up and down in parallel with the extending direction of the flow path 14. Insertion member 110 is formed in an annular bar shape having an outer diameter smaller than the inner diameter of the heat exchange tube 13, the upper and lower ends longer than the length of the heat exchange tube 13 so as to protrude to the outside of the heat exchange tube 13 It is preferred to extend to.

Removal member 120 is to remove the foreign matter fixed to the inner wall surface of the heat exchange tube 13 by the sliding of the insertion member 110, a plurality of the insertion member 110 in the position spaced apart from each other along the vertical direction. Is installed. The removal member 120 is formed so as to extend in the direction adjacent to the heat exchange tube 13 so that the edges are in contact with the foreign matter adhered to the inner wall surface of the heat exchange tube 13, preferably the inner diameter of the heat exchange tube 13 It is formed into a disc shape having an outer diameter corresponding to.

At this time, the removal member 120 has a plurality of through-holes are formed so that the combustion gas introduced into the heat exchange tube (13) can pass. Meanwhile, in the illustrated example, the removal member 120 has been described in a disk-shaped structure, but the removal member 120 is not limited to the illustrated example, but the movement of the heat exchange tube 13 according to the movement of the insertion member 110. Any shape can be used as long as it can remove the foreign matter stuck to the inner wall.

The driving unit 200 as the insertion member 110 to raise and lower the insertion member 110 along the flow path 14, the support member 210, the rotating shaft 220, the lifting bar 230, the guide and The rotating unit 240 is provided.

The support member 210 includes a plurality of first fixing bars 211 extending in the left and right directions, and second fixing bars 212 extending in the front and rear directions and fixed to both ends of the first failure bars, respectively.

The first fixing bar 211 is spaced apart from each other along the front and rear directions so as to correspond to the arrangement of the heat exchange tubes 13 spaced apart from each other in the front and rear directions, the lower end portion of the insertion member 110 protruding downward of the heat exchange tube 13 It is fixed. The second fixing bars 212 are fixed to both ends of the first fixing bars 211 so that the first fixing bars 211 are integrally moved.

Meanwhile, an upper surface of the second fixing bar 212 at a position opposite to the removal member 120 positioned at the lowermost side of the removal member 120 installed in the insertion member 110 is removed through the removal member 120 to fall downward. The mounting plate 213 is formed so that the foreign matter to be seated on the upper surface. The mounting plate 213 is formed in a disc shape having an outer diameter corresponding to the outer diameter of the removal member 120. The foreign matter drawn out from the heat exchange tube 13 by the seating plate 213 is minimized to be introduced into the rotating shaft 220 or the rotating part 240.

The rotating shaft 220 extends in the front-rear direction in parallel with the second fixing bar 212, and both ends thereof are rotatably installed at the main body 11 at a position spaced below the support member 210. It is preferable that the plurality of rotating shafts 220 are respectively provided at positions opposite to left and right ends of the first fixing bar 211.

One end of the elevating bar 230 is fixed to an outer circumferential surface of the rotating shaft 220 at a position opposite to the first fixing bar 211, and is moved away from the rotating shaft 220 so that the other end is in contact with the lower surface of the first fixing bar 211. Extend in the direction. At the other end of the elevating bar 230, the support roller 231 is rotatably installed to reduce friction with the first failure bar. At this time, the lifting bar 230 is preferably installed in each position opposite to the first fixing bar 211 of the rotary shaft 220.

The guide part 250 guides the lifting and lowering of the support member 210, and includes a plurality of guide rails 251 and a plurality of guide rollers 252.

The guide rail 251 is fixed to the inner wall surface of the main body 11 opposite to the side of the second fixing bar 212 and extends in the vertical direction. The guide rails 251 are preferably formed to be spaced apart from each other along the front and rear directions. In addition, the guide rail 251 is formed to be narrower in cross section closer to the second fixing bar 212 to guide the guide roller 252 easily.

A plurality of guide rollers 252 are rotatably installed on the side of the second fixing bar 212 at each position facing the guide rails 251 so that an outer circumferential surface thereof may contact the guide rails 251. The guide roller 252 is preferably formed such that the outer diameter of the guide roller 252 is smaller toward both the center and the center to prevent the guide roller 251 from being separated from the guide rail 251 when moving along the guide rail 251.

The rotating unit 240 may include a driving motor 241 for generating a rotational force by a power source applied from the outside, a driven sprocket 242 fastened to ends of the rotating shafts 220 protruding outside the main body 11, and the driving unit. A plurality of drive sprockets 243 fastened to the drive shaft of the motor 241 and a plurality of connection chains 244 connecting the drive sprockets 243 and the driven sprocket 242 to each other are provided.

Referring to the operation of the pellet washing machine 100 for pellet boiler according to the present invention configured as described above in detail.

The drive shaft 241 is operated to rotate the rotating shaft 220 in order to remove the fixed matter fixed to the inner wall surface of the heat exchange tube 13. The lifting bar 230 rotates by the rotation of the rotary shaft 220, the support position of the lifting bar 230 with respect to the support member 210 is changed, and the support member 210 is raised and lowered according to the change of the support position. do. The insertion member 110 and the removal member 120 are raised and lowered in the heat exchange tube 13 by the lifting and lowering of the support member 210, and the removal member 120 is fixed to the inner wall surface of the heat exchange tube 13. Scrape off.

In the tubular washing apparatus 100 for pellet boiler according to the present invention, the removal member 120 installed in the heat exchanger tube 13 reciprocates by the driving unit 200 and fixes foreign substances fixed to the inner wall surface of the heat exchanger tube 13. The removal of the foreign matter prevents the flow of the combustion gas in the heat exchange tube 13 by the foreign matter, and the foreign matter removal operation is possible even without stopping the pellet boiler 10.

On the other hand, Figure 4 shows a drive unit 300 according to another embodiment of the present invention.

Elements having the same functions as those in the previous drawings are denoted by the same reference numerals.

Referring to the drawings, the driving unit 300 includes a support member 210, a rotating shaft 220, a lifting cam 301, a guide part 250, and a rotating part 240. At this time, the support member 210, the rotating shaft 220, the guide portion 250 and the rotating portion 240 is the support member 210, the rotating shaft 220, the guide portion 250 and the rotating portion ( Since the configuration is the same as 240, a detailed description thereof will be omitted.

A plurality of lifting cams 301 are installed eccentrically on the rotating shaft 220 at positions opposite to the first fixing bars 211 of the supporting member 210. When the first fixing bar 211 is supported on the edge of the elevating cam 301 at the position farthest from the rotating shaft 220 by rotating the rotating shaft 220, the supporting member 210 is elevated to remove the removal member 120. When the first fixing bar 211 is supported on the edge of the elevating cam 301 which is closest to the elevating cam 220 from the heat exchanger tube 220, the support member 210 is lowered to remove the member 120. Is lowered in the heat exchange tube (13). As mentioned above, the removal member 120 is moved up and down in the heat exchange tube 13 by the rotation of the rotary shaft 220 to remove foreign matters fixed on the inner wall surface of the heat exchange tube 13.

On the other hand, Figure 5 shows a drive unit 400 according to another embodiment of the present invention.

Referring to the drawings, the driving unit 400 includes a sliding bar 401, a first link 402, a second link 403, an actuator 404, and a guide plate 405.

The sliding bar 401 is located on the bottom surface of the main body 11 at a position spaced downwardly with respect to the insertion member 110, and extends in the left and right directions according to the arrangement of the heat exchange tubes 13, and slides along the extension direction. Is installed. On the other hand, although the sliding bar 401 has been described in the structure extending in the left and right direction, the sliding bar 401 is not limited to this but extends in the front and rear direction, may be installed in the main body 11 to be slidable along the extension direction. have.

One end of the first link 402 is fixed to an outer circumferential surface of the sliding bar 401 at a position opposite to the insertion member 110 and extends to protrude upward. The second link 403 is hinged so that one end is rotatable in the left and right directions parallel to the sliding direction of the sliding bar 401 on the upper end of the first link 402, the other end is left and right on the lower end of the insertion member 110 It is hinged to be rotatable in the direction.

The actuator 404 is installed at the end of the sliding bar 401 to reciprocate the sliding bar 401 by expansion and contraction of both ends, and is any one of a screw jack, a hydraulic cylinder, or a pneumatic cylinder operated by an applied power source. It is preferable.

The guide plate 405 guides the lifting and lowering of the insertion member 110, and is installed in the main body 11 at a position spaced downwardly from the heat exchange tube 13, and protrudes downward from the heat exchange tube 13. The through holes 406 penetrated in the vertical direction are formed at positions opposite to the insertion members 110 so that the lower end of the member 110 may pass therethrough. At this time, the through-hole 406 is formed to have an inner diameter corresponding to the outer diameter of the insertion member 110, the guide plate 405 is to prevent the second link (403) to interfere with the operation of the second link ( It is preferable to be located above the raising / lowering range of 403).

When the operator operates the actuator 404, the sliding bar 401 reciprocates in the horizontal direction. When the first link 402 is adjacent to the insertion member 110, the second link 403 is in an upright position. The member 110 is lifted and the insertion member 110 is lowered because the second link 403 is inclined when the first link 402 moves away from the insertion member 110. By the lifting and lowering of the insertion member 110, the removal member 120 scrapes off and removes the foreign matter adhered to the inner wall surface of the heat exchange tube (13).

On the other hand, although not shown in the drawings, the drive unit 400 is a pulley rotatably installed in the main body 11 at a position spaced upwardly with respect to the heat exchange tube 13, and supported by the pulley, one end of the insertion member A wire fixed to the upper end of the 110, rotatably installed on the main body 11, the drum is wound on the other end of the wire on the outer peripheral surface, and may be provided with a rotating motor for rotating the drum.

Although the present invention has been described with reference to the embodiments illustrated in the drawings, these are merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent embodiments thereof are possible.

Accordingly, the true scope of protection of the present invention should be determined only by the appended claims.

100: pipe washing machine for pellet boiler
110: insertion member
120: removal member
200: drive unit
210: support member
220: rotation axis
230: lift bar
231: support roller
240: rotating part

Claims (8)

It is in communication with the combustor of the boiler, a flow path extending in the vertical direction so that the high temperature combustion gas generated from the combustor flows therein, and is installed in the receiving tank containing the heating water to heat exchange the combustion gas and the heating water. An insertion member installed in the heat exchange tube and extending in parallel with the flow path to be slidable in the longitudinal direction of the flow path, the insertion member being inserted into the heat exchange tube such that a lower end thereof protrudes below the heat exchange tube;
Installed in the insertion member and extending in a direction adjacent to an inner wall surface of the heat exchange tube so that an edge thereof comes into contact with the foreign matter so as to remove the foreign matter stuck to the inner wall surface of the heat exchange tube by sliding of the insertion member. At least one removal member;
And a drive unit for reciprocating the insertion member in the longitudinal direction of the flow path.
The drive unit
A support member fixed to the lower end of the insertion member;
A rotating shaft rotatably installed at both ends in a main body of the boiler in which the heat exchange tube is installed, at a position spaced downwardly with respect to the support member;
Lifting and lowering the support member by the rotation of the rotary shaft, one end is fixed to the outer circumferential surface of the rotary shaft opposite to the support member, extending in a direction away from the rotary shaft so that the other end is in contact with the lower surface of the support member Lift bar,
A rotating part for rotating the rotating shaft;
Further provided with a guide to guide the lifting and lowering of the support member,
The guide portion
A guide rail installed in the main body at a position opposite to the side surface of the support member and extending in the vertical direction, the guide rail being formed to have a smaller cross section closer to the support member;
It is rotatably installed on the side of the support member facing the guide rail so that the outer peripheral surface is in contact with the guide rail so that the support member can be moved up and down along the guide rail, both ends to prevent the departure from the guide rail Pipe washing apparatus for pellet boiler characterized in that it comprises a guide roller formed so that the outer diameter becomes smaller toward the heavy portion.
delete The method of claim 1,
The driving unit further comprises a support roller installed on the other end of the lifting bar in order to reduce the friction between the lifting bar and the support member.
delete delete delete delete The method of claim 1,
The removal member is installed in the insertion member of the plurality of spaced apart from each other along the vertical direction, and formed in a disc shape having an outer diameter corresponding to the inner diameter of the heat exchange tube so that the edge can be adjacent to the inner wall surface of the heat exchange tube And, at least one through hole is formed to allow the combustion gas introduced into the heat exchange tube to pass therethrough.

Images