KR100906490B1 - Blasting apparatus for removing existing coating product or corrosion product the inside of a pipe - Google Patents

Abstract

The present invention relates to a blasting apparatus for removing existing coatings or corrosion products of a tube, the apparatus for removing the existing coatings or corrosion products from the inner surface of the tube, the moving body moving along the inside of the tube, and a rotating body It is installed to be possible, by the centrifugal force of the rotation by hitting the inner surface of the tube to remove the existing coating or corrosion products, generating a driving force for rotating the rotating impact body, the driving means installed on the moving body It includes. Accordingly, the present invention is to properly remove the corrosion products such as rust or scale generated from the existing coatings attached to the inner surface of the tube by centrifugal force blow and brushing to block the progress of corrosion of the tube for a long time, in the subsequent process Increasing the adhesion of the material to be coated on the inner side of the tube to maximize the anti-corrosion effect of the tube, it is possible to quickly remove the existing coating or generated corrosion products attached from the inner side of the tube It has the effect of reducing the time and cost of the process to prevent corrosion.

Moving object, rotating impact body, rotating member, impact weight, brush, driving means

Description

Blasting apparatus for removing existing coating product or corrosion product the inside of a pipe}

The present invention provides for the removal of existing coatings or corrosion products of a tube for quickly and properly removing corrosion products such as rust or scale produced from existing coatings attached to the inner side of the pipes by blow and brushing by centrifugal force. It relates to a blasting apparatus for.

In general, water pipes or gas pipes are cast iron pipes or steel pipes are used, buried underground to supply water or gas.

When cast iron pipes or steel pipes used in such water pipes or gas pipes are used for a long time, when the existing coatings adhered to the inside of the pipe are peeled off, the inside of the pipe is corroded and rust occurs, and the peeled existing coating or scale is deposited inside the pipe. It contaminates the feed through the inside of the pipe, hinders its flow to reduce the supply amount, and in the case of water pipes, it supplies red water mixed with rust, and in the case of gas pipes, holes are formed due to corrosion. This will cause gas leakage.

Therefore, if the tube is old, it must be removed from the existing coating or corrosion products such as rust or scales attached to it, or replaced with a new tube, which is expensive. To remove corrosion products such as rust or scale from existing coatings inside the pipe, and to prevent corrosion such as cement mortar or resin on the inner surface of the pipe where existing coatings to remove corrosion products such as rust or scale are removed. The method of applying the substance is used.

The scraper method of removing the rust by moving the plate-shaped scraper in contact with the inner surface of the tube by the method of removing the existing coating or the corrosion product such as rust or scale in the conventional tube, and the high pressure pump of 200-250kg / ㎠ pressure The water jet method which removes rust by spraying water inside a pipe, and the air sand method which removes rust by forming turbulence by a high pressure and high speed air flow, and spraying it with an abrasive to an inner surface of a pipe are mentioned.

As described above, in the conventional method of using a scraper, high pressure water spray, spraying abrasives, etc. to remove corrosion products such as rust or scale from existing coatings inside the tube, conventional coatings attached to the inside of the tube In addition to the limitations to cleanly remove the generated corrosion products, there was a problem that takes a long time to remove the corrosion products such as rust or scale generated from the existing coatings attached to the inner surface of the tube.

In addition, by not properly removing the existing coating or the resulting corrosion products attached to the inner surface of the tube not only causes the corrosion again in a short time, but also by applying a material to prevent corrosion in the subsequent process to reduce the adhesion of these materials during coating There was a problem that does not help prevent corrosion of the pipe.

The present invention is to properly remove the corrosion products such as rust or scale generated from the existing coatings attached to the inner surface of the tube to prevent the corrosion progress of the tube for a long time, and to prevent corrosion on the inner surface of the tube in a subsequent process Maximize the corrosion protection of the pipe by increasing the adhesion of the material to be made, the time required for the process of preventing corrosion of the pipe by quickly removing the existing coatings or generated corrosion products attached from the inner surface of the pipe And reduce cost.

The blasting apparatus for removing existing coatings or corrosion products of the tube according to the present invention is a device for removing the existing coatings or corrosion products from the inner surface of the tube, the movable body moving along the inside of the tube, and rotatable to the mobile body It is installed, by the centrifugal force of the rotation by hitting the inner surface of the tube to remove the existing coating or corrosion products, and generating a driving force for rotating the rotating striking body, including a driving means installed on the moving body do.

The present invention is to properly remove the corrosion products such as rust or scale generated from the existing coatings attached to the inner surface of the pipe by centrifugal force blow and brushing to block the corrosion progress of the pipe for a long time, and in the subsequent process Increasing the adhesion of the coating material to prevent corrosion on the inner side to maximize the corrosion protection of the tube, and to quickly remove the existing coatings or generated corrosion products attached from the inner side of the tube to the corrosion of the tube It has the effect of reducing the time and cost of the process for prevention.

The present invention is a rotating product installed rotatably on a moving body moving along the inner side of the tube is rotated by the drive means by hitting the inner surface of the tube by centrifugal force to the existing coating to the resulting corrosion product To be removed quickly and properly.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

1 to 3 are side, front and back views of a blasting apparatus for removing an existing coating to corrosion products of a tube according to a first embodiment of the invention. As shown, the blasting apparatus 100 for removing the existing coating to corrosion products of the tube according to the present invention is a moving object 110, a rotating striking body 120 rotatably installed on the moving body 110, It includes a drive means 130 for rotating the rotating striking body (120).

The moving body 110 moves along the inside of a cast iron pipe or steel pipe, such as a water pipe or a gas pipe, by a plurality of wheels 111 provided at a lower portion thereof, but is connected to a wire to move along the pipe by pulling the wire, It is preferable to move along the tube, and for this purpose, the wheel 111 is moved along the tube by transmitting the rotational force of the motor to a fixed shaft through a power transmission member such as a chain or a gear.

Rotational striking body 120 is rotatably installed on the moving body 110 by hitting the inner surface of the tube by the centrifugal force by the rotation by the existing coatings attached to the inner surface of the tube to the corrosion products such as rust or scale produced To remove it.

As shown in FIG. 4, the rotating striking body 120 is provided with a rotating member 121 installed to rotate by receiving rotational force from the driving means 130 and the rotating member 121 of the rotating member 121. It includes a plurality of striking member 122 for striking the inner surface of the tube by the centrifugal force by the rotation.

The rotating member 121 is provided with a rotating shaft 121a at the center thereof so as to be rotatably supported by the moving body 110, and one or two or more fixed shafts 121b are arranged to be parallel to the rotating shaft 121a on the outer side of the rotating shaft 121a. A plurality of striking members 122 are arranged and fixed on the fixed shaft 121b so as to have a gap by the spacer 121c. At this time, the striking members 122 on the adjacent fixed shaft 121b are arranged in a zigzag manner so as to be shifted from each other.

The striking member 122 has a ring-shaped end portion of the steel wire 122a by a fastening means such as a clamp, and a plurality of ring-shaped ends are inserted into the fixed shaft 121b, and are spaced from each other by a spacer 121c therebetween. The spacing is maintained, and the impact weight 122b for increasing the load is fixed to the end of the steel wire (122a) to increase the impact force of the tube.

The steel wire 122a is prevented from being damaged by an impact caused by the impact weight 122b of the other steel wire 122a by fitting one or more covers 122c to the outer circumferential surface thereof.

The striking weight 122b may be formed in various forms having a polyhedron such as a cube or a cube, or a combination of a curvature surface and a plane.

On the other hand, it may further include a plurality of brushes 123 to remove the existing coating to the corrosion product existing on the inner surface of the tube by the centrifugal force by the rotation.

Brush 123 may be installed on a separate rotating body that rotates by the power of the motor, it is preferably installed on the rotating member 121 of the rotary striking body (120).

As shown in FIG. 4, a plurality of brushes 123 are inserted and fixed at intervals along the installation shaft 121d installed to be parallel to the fixed shaft 121b on the rotating member 121. The strands are made of twisted steel wire and the ends are loosened for brushing.

On the other hand, the rotating striking body 120 is made up of a number to be installed so as to rotate around the direction orthogonal to the moving direction of the moving body 110, so that the movable body 110 is arranged in a polygon, such as a square as in this embodiment Each of the rotating members 121 is installed to be adjacent to the inner surface of the tube so that the striking member 122 strikes the inner surface of the tube during rotation.

2 and 3, the rotating striking body 120 is installed so that the rotation shaft 121a is rotatably supported by the rotation support brackets 112 and 113 provided at the front and rear sides of the moving body 110 to form a polygon. However, it is preferable that the positions of the vertices are arranged to be different between the polygons arranged on the front and rear sides of the moving body 110, respectively. Therefore, the spaces of the hitting portions by the rotary strikers 120 located on the front side of the movable body 110 are filled with the rotary striking bodies 120 positioned on the rear side of the movable body 100 so as to cover the entire region inside the tube. Removal of the existing coatings to the resulting corrosion products is effected.

The rotating striking body 120 is gear-coupled to the bevel gear 124 of the rotating shafts 121a, which are located at the vertices when arranged in a polygon, that is, at a point where they meet each other. Even if this is transmitted, the rest connected to the bevel gear 124 also rotates together.

The driving means 130 generates a driving force for rotating the rotary striking body 120, is installed on the moving body 110, the rotary striking body 120, as in the present embodiment, respectively on the front and rear of the moving body 110 In the case of positioning, using a single motor rotational force, such as a chain, belt, gear, and other power transmission members, it is possible to simultaneously rotate the rotating striking bodies 120 respectively positioned on the front and rear sides of the moving body 110. Two motors 132 to rotate the rotary striking body 120 located on the front side of the 110 and the rotary striking body 120 located on the rear side independently of each other using the sprocket 131, belt, gear, etc. May be used.

On the other hand, the driving means 130, when the point where the rotating striking body 120 meets, that is, the portion where the rotation shaft 121a meets as the gear is coupled to the bevel gear 124, as in this embodiment, the rotational force of the motor 132 chain Another rotational blow connected to the bevel gear 124 by transmitting to a rotating shaft 121a of any one of the rotating blowers 120 connected to each other by the bevel gear 124 using a power transmission member such as a belt and a gear. Sieve 120 is also rotated together.

The operation of the blasting apparatus 100 for removing the existing coating or corrosion products of the tube according to the first embodiment of the present invention is as follows.

The moving body 110 is moved along the pipe by rotating the wheel 111 by a motor and a power transmission member provided therein. At this time, the rotary striking body 120 located in front and rear of the moving body 110 is rotated by the driving means 130, so that the striking weight 122b of each of the striking members 122 is driven by the centrifugal force. Strike the inner side to separate the existing coatings attached to the inner side of the tube to the corrosion products such as rust or scale produced.

At this time, the brush 123 is brushed while pressing the inner surface of the tube by the rotation of the rotating member 121, separated from the inner surface of the tube by the impact of the striking weight 122b, and simply attached to the existing coating or corrosion. The product is completely separated off.

In addition, due to the plurality of rotating striking body 120 arranged in a polygon different from each other in the position of the vertex on the front and rear of the moving body 110, the rotating striking body 120 located on the front side of the moving body 110 is already hit The rotary striking body 120 located at the rear side of the movable body 110 may not be able to hit or brush the incompletely damaged portion, thereby completely removing the existing coating or the generated corrosion product attached to the entire area of the inner side of the tube. To be done.

When the driving means 130 rotates any one of the rotating striking bodies 120 by the bevel gear 124 provided at a portion where the rotating striking bodies 120 meet each other when arranged in a polygon, the bevel gears 124. The other rotating striking body 120 is connected together to rotate together.

On the other hand, the movement of the moving body 110 and the rotation of the rotary striking body 120 can be remotely controlled from the ground or spaced places.

5 and 6 are side and front views illustrating a blasting apparatus for removing an existing coating to corrosion products of a tube according to a second embodiment of the present invention. As shown, the blasting apparatus 200 for removing the existing coating to the corrosion products of the tube according to the second embodiment of the present invention, as in the first embodiment, to the moving body 210 and the moving body 210. Rotational striking body 220 is rotatably installed, and a driving means 230 for rotating the rotary striking body 220.

The movable body 210 is provided with a plurality of wheels 211 for movement in the lower portion, a deflection portion 212 hinged to pass through the bent tube in the center is provided, the chain 213 on the axis of the wheel 211 The rotational force of the motor 214 is transmitted through) to move along the pipe (P).

The rotary striking member 220 has a first rotating member 221 which is installed to rotate by the driving means 230 around the moving direction of the moving body 210 and the driving means at the edge of the first rotating member 221. The plurality of second rotating members 222 installed to rotate by the 230 and the outer circumferential surface of the second rotating member 222 are fixed along with the centrifugal force by the rotation of the second rotating member 222. And a striking member 223 striking the inner surface of P).

The first rotating member 221 has a shape of a disk having a diameter larger than the second rotating member 222, a plurality of second rotating member 222 is provided along the edge spaced apart.

The second rotating member 222 is installed to rotate on the rotating first rotating member 221, respectively, a plurality of striking member 223 is installed on the outer peripheral surface.

As shown in FIG. 7, the striking member 223 is fixed to the end of the steel wire 223a to increase the weight by the centrifugal force, the striking weight 223b is fixed, the striking weight 223b is the first Like the embodiment, it may be formed in various forms having a combination of a polyhedron such as a cube or a cube, or a curvature surface and a plane.

The striking member 223 may further include a screw coupling member 223c fixed to the steel wire 223a and screwed to the second rotating member 222. Therefore, since the screwing member 223c is easily separated from the second rotating member 222, replacement and adjustment of the number of the hitting members 223 as necessary is easy.

The rotating striking member 220 is fixed along the outer circumferential surface of the first rotating member 221 or the second rotating member 222 and a plurality of brushes 224 for brushing the inner surface of the pipe P by centrifugal force by rotation. ) May further include, in the present embodiment, the brush 224 is fixed to the outer circumferential surface of the first rotating member 221.

Brush 224 is made of a steel wire, as shown in Figure 8, the end is loosened to enable brushing, screwing member 224a screwed to the first rotating member 221 or the second rotating member 222 The other end is fixed to the first rotation member 221 or the second rotation member 222 to facilitate separation and coupling.

The driving means 230 includes a hollow first rotating shaft 231 connected to the first rotating member 221, a first motor 232 for rotating the first rotating shaft 231, and a first rotating shaft 231. The second rotary shaft 233 is installed so as to rotate inside the end is inserted into the first rotary member 221, the second motor 234 for rotating the second rotary shaft 233, and the second rotary shaft 233 It includes a power transmission means 235 for transmitting the rotational force of each of the second rotating member 222.

The first rotating shaft 231 is fixed to the center of the first rotating member 221 is supported to be rotatable on the movable body 210 via a bearing to one or more shaft support 215.

The first motor 232 transmits the rotational force to the first rotating shaft 231 through a gear box 232a such as a speed reducer to rotate the first rotating member 221 to 5 to 20 RPM, preferably 10 RPM. The sprockets 232b and 232c are respectively fixed to the shaft of the gearbox 232a and the first rotational shaft 231, and the sprockets 232b and 232c are connected to each other by a chain 232d.

The second rotary shaft 233 is inserted into the hollow first rotary shaft 231 and installed to rotate separately from the first rotary shaft 231 via a bearing, and one side is inserted into the inner space of the first rotary member 221. The other side protrudes from the first rotation shaft 231, and a universal joint 233a is installed in the middle.

The second motor 234 transmits rotational force to the second rotation shaft 233 through a gearbox 234a such as a speed reducer, and for this purpose, a pulley (a pulley) is formed on the shaft of the gearbox 234a and the protrusion of the second rotation shaft 232. 234b and 234c are fixed, and pulleys 234b and 234c are connected to each other with a belt 234c.

As shown in FIG. 6, the power transmission means 235 is provided at the end of the second rotating shaft 233 inserted into the inner space of the first rotating member 221 and the rotating shaft 222a of each of the second rotating members 222. Second rotation by rotation of the second rotation shaft 233 by fixing the first and second pulleys 235a and 235b, respectively, and connecting the first and second pulleys 235a and 235b with the belts 235c and 235d. The members 222 to rotate, and the second rotating member 222 is preferably rotated to 200 ~ 400RPM.

Meanwhile, in the present exemplary embodiment, two pulleys among four second pulleys 235b fixed to each of the rotation shafts 222a of the second rotation member 222 are fixed to the second rotation shaft 233. The second rotation shaft by connecting the second pulley 235b connected to the first belt 235c to the second belt 235d to each of the remaining second pulleys 235b to the 235b. Rotation of 233 causes all of the second rotating members 222 to rotate.

Referring to the operation and operation according to the second embodiment of the present invention having such a configuration as follows.

The movable body 210 is driven by the first and second motors 232 and 234 of the driving means 230 while the movable body 210 moves along the pipe P by rotating the wheel 211 by the inner motor and the power transmission member. The first rotating member 221 located in front of the 210 rotates, and the second rotating member 222 located at the edge of the first rotating member 221 rotates, so that the strike weight of each of the striking members 223 223b strikes the inner surface of the tube P by the centrifugal force, thereby causing the corrosion products such as rust or scale generated from existing coatings attached to the inner surface of the tube P to be separated.

At this time, the brush 224 provided on the outer circumferential surface of the first rotating member 221 or the second rotating member 222 is rotated together to rotate and brush in close contact with the inner surface of the pipe (P) to strike the weight It is separated from the inner surface of the pipe (P) by the impact of (223b) to properly separate and remove the existing coating or corrosion products simply attached.

As described above, specific embodiments have been described in the detailed description of the present invention, but it is obvious that the technology of the present invention can be easily modified by those skilled in the art, and such modified embodiments are defined in the claims of the present invention. It will be included in the technical idea described.

1 is a side view showing a blasting apparatus for removing an existing coating to corrosion products of a tube according to a first embodiment of the present invention,

2 is a front view showing a blasting apparatus for removing an existing coating to corrosion products of a tube according to a first embodiment of the present invention,

3 is a rear view showing a blasting apparatus for removing an existing coating to corrosion products of a tube according to a first embodiment of the present invention,

4 is a cross-sectional view taken along line AA ′ of FIG. 2;

5 is a side view showing a blasting apparatus for removing an existing coating to corrosion products of a tube according to a second embodiment of the present invention,

6 is a front view showing a blasting apparatus for removing an existing coating to corrosion products of a tube according to a second embodiment of the present invention,

7 is a cross-sectional view showing the striking member of the blasting apparatus for removing the existing coating to the corrosion product of the tube according to the second embodiment of the present invention,

FIG. 8 is a cross-sectional view of a brush of a blasting apparatus for removing an existing coating or corrosion product of a tube according to a second embodiment of the present invention.

<Description of the code | symbol about the principal part of drawing>

110: moving body 111: wheel

120: rotating hitting body 121: rotating member

121a: rotating shaft 121b: fixed shaft

121c: Spacer 121d: Mounting shaft

122: striking member 122a: steel wire

122b: Strike weight 122c: Cover

123: brush 124: bevel gear

130: driving means 131: sprocket

132 motor 210: moving body

211 wheel 212 refracting portion

213: chain 214: motor

215: axle support 220: rotating hitting body

221: first rotating member 222: second rotating member

222a: rotating shaft 223: striking member

223a: Steel wire 223b: Strike weight

223c: screwing member 224: brush

224a: screwing member 230: driving means

231: first rotating shaft 232: first motor

232a: Gearbox 232b, 232c: Sprocket

232d: chain 233: second axis of rotation

233a: universal joint 234: second motor

234a: gearbox 234b, 234c: pulley

234c: belt 235: power transmission means

235a: first pulley 235b: second pulley

235c: first belt 235d: second belt

Claims (13)

delete delete A device for removing existing coatings or corrosion products from the inner side of a tube, A movable body moving along the inner side of the tube, and a rotatable striking body rotatably installed on the movable body and removing the existing coating or corrosion product by striking the inner surface of the tube by centrifugal force by rotation; In the blasting apparatus for generating a driving force for rotating the rotating striking body, the existing coating of the tube including the driving means installed on the movable body to remove the corrosion products, The rotary striking body, A rotating member installed to rotate by the driving means; Is installed on the rotating member includes a plurality of striking member to strike the inner surface of the tube by the centrifugal force by the rotation, The rotating member, With one or more fixed shafts, The blasting apparatus for removing the existing coating to the corrosion product of the pipe, characterized in that the striking member is arranged in a plurality arranged so as to be spaced by a spacer along the fixed axis. The method of claim 3, wherein The striking member, The strike weight being fixed to the end of the steel wire Blasting apparatus for removing existing coatings to corrosion products of the tube. The method of claim 3, wherein A plurality of brushes for brushing the inner side of the tube by centrifugal force by rotation Blasting apparatus for removing the existing coating to the corrosion product of the tube further comprising. In the third, The rotary striking body, It is composed of a plurality of the direction perpendicular to the moving direction of the movable body as the axis Installed to rotate, but arranged to be arranged in a polygon on the movable body Blasting apparatus for removing existing coatings to corrosion products of the tube. The method of claim 6, The rotary striking body, It is installed to be arranged in a polygon respectively on the front and rear sides of the moving body, the arrangement of the vertices between the polygons respectively arranged on the front and rear of the moving body is different Blasting apparatus for removing existing coatings to corrosion products of the tube. The method of claim 6, The rotary striking body, Geared with bevel gears in contact with each other Blasting apparatus for removing existing coatings to corrosion products of the tube. The method of claim 3, wherein The rotary striking body, A first rotating member installed to rotate by the driving means with an axis of movement of the movable body as an axis; A plurality of second rotating members installed on the edge of the first rotating member by the driving means; A striking member fixed along an outer circumferential surface of the second rotating member and striking the inner surface of the tube by centrifugal force by the rotation of the second rotating member. Blasting apparatus for removing existing coatings to corrosion products of the tube comprising a. The method of claim 9, The striking member, The strike weight being fixed to the end of the steel wire Blasting apparatus for removing existing coatings to corrosion products of the tube. The method of claim 10, The striking member, A screw coupling member fixed to the steel wire and screwed to the second rotating member Blasting apparatus for removing the existing coating to the corrosion product of the tube further comprising. The method of claim 9, The rotary striking body, A plurality of brushes are fixed along the outer circumferential surface of the first rotating member or the second rotating member, and brushing the inner surface of the tube by centrifugal force by rotation. Blasting apparatus for removing the existing coating to the corrosion product of the tube further comprising. The method of claim 9, The drive means, A hollow first rotating shaft connected to the first rotating member; A first motor for rotating the first rotation shaft; A second rotary shaft installed to rotate inside the first rotary shaft and having an end inserted into the first rotary member; A second motor for rotating the second rotation shaft; Power transmission means for transmitting the rotational force of the second rotating shaft to each of the second rotating member Blasting apparatus for removing existing coatings to corrosion products of the tube comprising a.

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