KR20170116317A - Rotary Cutter Apparatus Using to remove Fragment of Old Aged Pipe - Google Patents

Abstract

A rotary cutter apparatus used for removing a coating film of an old duct according to the present invention comprises moving means in the form of a vehicle moving by the operation of a worker in a duct, a rotary motor provided on the base frame of the moving means, And a rotary cutter device connected to the rotary chain and rotated by receiving power, and a rotary cutter device integrally fastened to the rotary rotary device and rotated.

Description

TECHNICAL FIELD [0001] The present invention relates to a rotary cutter device used for removing a coating film on an old-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rotary cutter apparatus for removing a coating film formed on the inner wall of a water supply and sewage pipe. In general, water supply and drainage pipelines form a coating on the inner wall of pipelines over time, which interferes with the flow of the channels and is a cause of leakage. Therefore, the water supply and drainage pipelines should be remodeled will be.

The prior art related to the present invention is disclosed in Korean Patent No. 10-1096880 (issued on December 22, 2011). 1 is a configuration diagram of a scraper means applied to an old water pipe cleaning apparatus using the conventional round knife scraper means. 1, the scraper means applied to the conventional deteriorated water pipe cleaning apparatus includes a lead screw 12 constituting a center, a fixed block 14 sequentially fitted to the outer diameter of the lead screw 12, A support block and a round knife scraper 28. The fixed block 14 is inserted into the outer diameter of the lead screw 12 and is held in a fixed state without rotating with the lead screw 12. In the outer diameter of the block, And the other end of the guide link is connected to the bracket 26 for supporting the round knife scraper 28. The moving block is screwed on the outer diameter of the lead screw 12 and moves horizontally along a thread formed on the outer diameter of the lead screw 12 in accordance with the rotation operation of the lead screw 12. [ to be. The moving block is tapered such that the diameter of the moving block gradually narrows from one end to the other end so that the moving block has a wedge shape as a whole, so that the working rod 24, which will be described later, contacts the outer diameter of the moving block tapered So that it can be pushed outward according to the movement of the moving block. The support block is a block which is fitted to the outer diameter of the lead screw 12 and which does not rotate together with the lead screw 12 but remains fixed. At one end thereof, a tapered groove And a plurality of long holes are formed in the outer diameter thereof. The other end of the operating rod 24 is connected to the bracket 26 supporting the round knife scraper 28. The other end of the operating rod 24 is connected to the other end of the moving block 24, Pin coupling. The operation rod 24 is pushed outwardly through the tapered portion of the outer diameter of the moving block in accordance with the movement of the moving block so that the round knife scraper 28 can be brought into close contact with the inner diameter of the water pipe P, do. The round knife scraper 28 horizontally moves in contact with the inner diameter of the water pipe P and primarily scratches the coating layer formed on the inner diameter of the water pipe P, (24) and a bracket (28) to which the other end of the guide link is pin-coupled. The fixed block 12, the moving block and the supporting block, and the round knife scraper 28 have the same structure, and a plurality of the fixed blocks 12 are provided on the outer diameter of the lead screw 12. On the other hand, the plate scraper is located at a distance from the rear of the round knife scraper means described above, and is a means for scraping and removing a scratched coating layer by the round knife scraper means. The plate scraper spreads radially along the outer diameter of the cylindrical body, And so on.

In the conventional knife scraper configured as described above, the knife blade is rounded and two knife scrapers are formed at both ends, which is not effective in cutting and removing the coating film. When a coating film is formed on an actual water pipe, the shape of the coating film varies, so that even if the tube is circular, the actual coating film is not formed in a circular shape but formed in various shapes. Accordingly, the present invention provides a rotary cutter apparatus for efficiently cutting and removing a coating film formed in various shapes in a channel. It is another object of the present invention to effectively remove the coating film by making the structure simple and allowing the saw blade portion of the cutter to move back and forth so as to be in close contact with the inner wall of the channel.

A rotary cutter apparatus used for removing a paint film of an old pipe line according to the present invention having the above-described objects includes a moving means in the form of a vehicle moving by the operation of a worker in a duct, a rotary motor installed on a base frame of the moving means, And a rotary cutter device connected to the rotary chain and rotated by receiving power, and a rotary cutter device integrally coupled to the rotary rotary device and rotated.

The rotary cutter apparatus used for removing the coating film of the old pipe having the above-described structure according to the present invention has a saw blade made of a plurality of circular saw blades and a saw blade attached to the inner wall of the duct due to the angle of the saw blade closely contacting the inner wall of the duct, , Primer (s), residue (s). It is possible to effectively remove contaminants and the like. In addition, the rotary cutter apparatus of the present invention is simple in structure and light in weight, easy maintenance, low in energy consumption, and easy to move in a pipeline.

1 is a schematic view of a scraper means applied to a conventional deteriorated water pipe cleaning apparatus,
FIG. 2 is a perspective view showing a vehicle-like moving means and a rotary means according to the present invention,
3 is an overall perspective view of a paint film removing apparatus equipped with the rotary cutter apparatus and the air gasket scraper apparatus of the present invention,
4 is an exploded view of a rotary means applied to the present invention,
5 is an overall perspective view of the air gasket scraper device of the present invention,
6 is an exploded perspective view of the air gasket scraper apparatus of the present invention,
7 is an overall perspective view of the rotary cutter apparatus of the present invention,
8 is an exploded perspective view of the rotary cutter apparatus of the present invention,
9 is a side view of the rotary cutter apparatus according to the present invention
10 is a front structural view of the rotary cutter apparatus of the present invention,
11 is a state in which the air gasket scraper device and the rotary cutter device of the present invention are used to work in a pipeline.

The rotary cutter apparatus used for removing the coating film of the old duct according to the present invention having the above-described object will now be described with reference to FIGS. 2 to 11. FIG.

Fig. 2 is a perspective view of a vehicle-like moving means and rotary means applied to the present invention. 2, the vehicle-type moving means 100 according to the present invention includes a first wheel shaft 110 and a driving wheel 112 that is coupled to the first wheel shaft 110 so as to rotate at both ends of the first wheel shaft, A first chain 114 that transmits power to the first wheel shaft; a gear 116 that is connected to the first chain 114 and is a first deceleration that operates to decelerate the rotation speed; A first motor 119 connected to the first wheel shaft 116 via a first chain 118 and transmitting a rotational force to the first wheel shaft 120 and a second motor shaft 119 connected to the second wheel shaft 120 to rotate at both ends of the second wheel shaft 120 A second chain that transmits power to the second wheel axle 120; a gear that is connected to the second chain and is operated to decelerate the rotation speed; And a second motor 129 connected to the 2-speed reduction gear by a 2nd-1 chain 128 to transmit a rotational force. will be. The first chain, the second chain, and the first reduction gear and the second reduction gear are of the same structure. The rotary means 200 according to the present invention includes a rotary motor 210 installed on a base frame 202 constituting an upper portion of the moving means, a rotary long axis 220 rotated by receiving the rotational power of the rotary motor, A rotary chain 212 for transmitting the rotational force of the rotary motor to the rotary long shaft, and a rotary gear 222 connected to the rotary chain and inserted into the rotary long shaft. A first bearing portion 214 inserted into the front surface of the rotary gear, a signal rotor 216 formed on the front surface of the first bearing portion and inserted and installed to prevent twisting of electric wires, A first arm fixing bracket 224 to which a scraper device is fixed and a second arm fixing bracket 218 to which a scraper device is fixed, And a second insertion ring 228 inserted between the second arm fixing bracket 218 and the signal rotor 216. The first insertion ring 226 is inserted between the second arm fixing bracket 218 and the second fixing arm bracket 218, A second bearing part 230 inserted into the rear end of the rotary gear 222 for smooth rotation of the major axis, a first support 232 inserted into the rear end of the second bearing part, Inserted into the rear end of the support 2 supporting portion 234 and a third supporting portion 236 inserted into the rear end of the second supporting portion 233 and a fourth supporting member 238 inserted into the rear end of the third supporting portion 238, And a third insertion ring 242 inserted between the rotor gear 222 and the first bearing portion 214. The third insertion ring 242 is inserted between the rotor gear 222 and the first bearing portion 214. [

FIG. 3 is a perspective view showing the entire air-scrubbing apparatus equipped with the air-gasket scraper device and the rotary cutter device according to the present invention. 3, the paint film removing apparatus 1000 equipped with the inventive air gasket scraper apparatus 300 and the rotary cutter apparatus 400 includes a moving means 100 in the form of a vehicle moving in a duct, (200) installed on a base frame (202) to be installed, an air gasket scraper device (300) mounted on a first arm fixing bracket (224) of the rotary device (200) And a rotary cutter device 400 mounted on the arm fixing bracket 218 is mounted.

4 is an exploded configuration diagram of the rotary means applied to the present invention. 4, the rotary device 200 according to the present invention includes a rotary motor 210 mounted on a base frame 202 formed on an upper portion of the moving device, a rotary motor 210 rotatably receiving rotary power of the rotary motor, A rotary chain 212 for transmitting the rotational force of the rotary motor to a rotary long axis, a rotary sprocket (not shown) connected to the rotary chain and inserted into the rotary long shaft 222) and. A first bearing part 214 inserted into the front surface of the rotating spoiler 222, a signal rotary joint 216 formed on the front surface of the first bearing part and inserted and installed to prevent twisting of electric wires, A first arm fixing bracket 228 inserted into the rotary long shaft and rotated by being fastened with a scraper device, and a second arm fixing bracket 224 inserted and fixed to the rotary long shaft, A first arm fixing plate power lock 226 interposed between the arm bracket 224 and the second fixing arm bracket 218 and a second arm fixing plate 228 fixed to the second arm fixing bracket 218 and the signal rotor A second arm fixing plate power lock 228 interposed between the first and second arm support plates 216 and 216, a second bearing portion 230 and 230-1 inserted in the rear end of the rotation spool racket 222 to facilitate rotation of the long axis, , The second bearing portion A second rotary joint seal and seal inlet 234 inserted into the rear end of the rotary joint end plate 234 and a second rotary joint seal and seal inlet 234 inserted into the rear rotary joint joint end plate 234, A fourth rotary joint valve inserting portion 238 inserted into a rear end of the third rotary joint syringe and seal portion and a third rotary joint valve inserting portion 238 inserted into a rear end of the fourth rotary joint valve inserting portion 238, And a rotating spoiler fixed power lock 242 inserted between the rotating spoiler 222 and the second bearing 214. The rotating spoiler fixing power lock 242 is installed between the rotating sprocket 222 and the second bearing 214. [

5 is an overall perspective view of the air gasket scraper device of the present invention. 5, the air gasket scraper apparatus 300 includes a blade unit 310 which can move up and down, a scraper fixing bracket 320 to be fastened to the blade unit, a scraper fixing bracket 320, A scraper angle joint box 330 which is fastened so that the connecting joint 335 is positioned inside the scraper angle joint box 330, a second arm 350 which is integrally fastened to the scraper angle joint box 330, And the arm cylinder 380 is fastened to the cylinder support holder 362 of the first arm and the cylinder fixing bracket 352 of the second arm. The air gasket scraper configured as described above shows that the blade unit 310 can be moved up and down and then fastened. The arm cylinder 380 is rotated by the compressed air supplied through the rotary long shaft 220, And the hinge portion of the second arm 350 is rotatable by the support holder of the first arm 360 when the piston moves in and out, thereby rotating the blade portion 310 in the forward and backward directions. That is, the blade unit 310 functions to rotate back and forth in the horizontal direction of the channel from the channel wall surface inside the channel. The scraper arm connection joint 335 is installed at an angle of 0 degree to 5 degrees with respect to the second arm 350 so that the blade 310 is inclined at about 0 degree to about 5 degrees. The inclination angle can reduce the rotational load during rotation and enhance the durability of the equipment. The arm cylinder 380 supplies the air supplied through the air distributing means such as the air distribution plug 204 constituted on the rotary long shaft 220 of the rotary means to each of the arm cylinders, So that the blade portion 310 can be rotated forward and backward by allowing the piston of the blade portion 380 to move in and out. The air distributed from the air distribution plug 204 of the rotary long shaft 220 is supplied to the air plug formed in the circular bar 316 of the blade portion so that the blade portion moves up and down while hitting the coating film at a high speed, So that the coating film can be efficiently removed. The air supplied to the rotary long axis in the above can be supplied to the cylinder and the air plug from the air distribution plug through the air hose, respectively.

6 is an exploded perspective view of the air gasket scraper device of the present invention. 6, the air gasket scraper apparatus 300 according to the present invention includes a bolt 302 mounted on a C-shaped blade frame 314 such that a plurality of blades 312 of a fan-shaped plate shape (which is shaped so as to be in close contact with a wall surface of a duct) And a hole 318 into which the circular bar 316 is inserted and a fixing pin 311 are inserted into the blade frame 316. The circular bar 316 is inserted into the blade frame 314, A scraper fixing bracket 320 having a plurality of tabs 315 formed with side holes 313 and having a pin hole 317 formed at one side thereof for fastening an angle joint pin 322, A scraper angle joint box 330 which is padded on one side of the scraper fixing bracket 320 and into which a scraper arm connection joint 335 which is integrally fastened with the second arm is inserted and a joint pin hole 319 is formed on one side, , And a scraper angle joint box (330) An angle joint pin 322 which is fastened through a pin hole 317 formed in a connecting joint hole 337 formed in the pin hole 332 and the scraper arm connecting joint 335 and the scraper fixing bracket 320, A scraper arm connecting joint 335 formed on the upper portion of the body portion 352 and a cylinder fixing bracket 354 formed on a side surface of the body portion 352. The cylinder fixing bracket 354 is formed at a lower portion of the body portion, A support arm 364 which is fastened to the hinge part 358 of the second arm 350 and a support holder 364 integrally fastened to the support arm 364. The second arm 350 is composed of a hinge part 358, And a first arm 360 formed by a cylinder support holder 368 formed at the side of the body portion and a support 361 formed at a lower portion and fastened to a second arm fixing bracket of the rotary means. A cylinder fixing bracket 354 of the second arm 350 and a cylinder support holder 36 of the first arm 360 8, and the arm cylinder 380 through which the piston moves in and out. The air gasket scraper 300 configured as described above is constructed such that the angle joint pin 322 is loosened and the blade 310 is moved up and down with the fixing pin 311 removed and then the angle joint pin 322 is inserted, When the fixing pin 311 is fastened to the side hole 313 of the tab, the blade 310 can be moved up and down and then fastened. In addition, the piston of the arm cylinder 380 moves the piston by the compressed air supplied through the rotary long shaft 220, and when the piston moves in and out, the hinge portion 358 of the second arm rotates, (368) so as to rotate the blade unit (310) in the forward and backward directions. That is, the blade unit 310 receives the compressed air through the air distribution plug 204 of the rotary long shaft 220 to the air plug of the circular bar 316. Therefore, when the air pressure is adjusted, And can also be rotated back and forth in the horizontal direction by the operation of the arm cylinder 380. [

7 is an overall perspective view of the rotary cutter apparatus of the present invention. 7, the rotary cutter apparatus of the present invention includes a support 461 fastened to the second arm fixing bracket 318 of the rotary joint unit 200, a first arm 460 fastened to the support, A first arm 450 coupled to the first arm 460 so as to be rotatable and a cutter angle joint joint 435 that is inclined to the first arm by a cutter arm connection joint 435 that is inclined at an angle of 3 to 5 degrees with respect to the second arm. A saw blade 410 to be fastened to the box 430 and the cutter angle joint box 430 and a rotary motor 440 to be fastened to the rear of the second arm 450, And the arm cylinder 480 connected to one side of the two arms 450. As shown in FIG. When the rotary motor of the rotary motor unit 440 is rotated, the rotary cutter apparatus 400 having the above-described structure rotates the rotary gear 441, the chain 442 and the saw blade gear 412 and the saw blade shaft 414, So that the saw blade 416 can rotate. The arm cylinder 480 supplies the air supplied through the air distribution plug 204 at the rotary long shaft 220 of the rotary means to each of the arm cylinders and supplies the air to the respective arm cylinders through the air control So that the saw blade 410 can be rotated forward and backward by advancing and retreating the piston. The air supplied to the rotary long axis in the above can be supplied through the cylinder and the air hose.

8 is an exploded perspective view of the rotary cutter apparatus of the present invention. 8, the rotary cutter apparatus according to the present invention includes a saw blade having a plurality of circular saw blades 416 formed on a saw blade shaft 414 of a bobbin type saw blade card 410-1, A saw blade supporting portion 415 formed on one side of the saw blade shaft and a saw blade supporting portion 417 formed on the other side of the saw blade shaft and installed to rotate the saw blade shaft; A saw blade portion 410 connected to the saw blade 412 for receiving power and a saw blade frame 419 for fastening the saw blade bearing portion to the saw blade shaft and the saw blade support portion; Shaped cutter arm connecting joint 435 constituted by a connecting joint pin hole 437 into which two angle joint pins 422 are inserted is positioned and the angle joint pins 422 are inserted from the outside, A cutter angle joint box 430 in which two joint pin holes 423 are formed and a cutter arm joint box 435 and a saw blade joint joint box 435 located inside the cutter angle joint box 430, Two angle bracket pins 422 for fastening the saw blade frame 419 of the cutter angle joint box 410 and a body portion 452 integrally fastened to the cutter arm connection joint 435 inserted into the cutter angle joint box, A second arm 450 having a cylinder fixing bracket 454 formed at one side thereof and a hinge portion 456 at which a second arm is rotatable at a lower portion thereof and a second arm 450 formed at a rear portion of the body portion 452 of the second arm, And a rotary motor 444 constituted by a support shaft 441 of the rotary motor and the support shaft 441 to transmit a rotary force and to which a chain 442 is wound, 440) and a hinge part (456) of the second arm are fastened with a hinge bolt (457) A body portion 462 integrally formed with the support holder 462 and the support holder 462 and a cylinder support holder 468 formed at one side of the lower portion of the body portion 462 and fastened to the second arm connection bracket A first arm 460 constituted by a support 461 for supporting the cylinder fixing bracket 454 and a cylinder cylinder 480 fastened to the cylinder fixing bracket 454 and the cylinder support holder 468, . The rotary cutter apparatus 400 of the present invention configured as described above controls the air supplied to the arm cylinder 480 so that the second arm 450 rotates forward and backward through the hinge portion 456 by advancing and retreating the piston, 410) can be rotated within a predetermined range in forward and backward directions. The arm connecting joint fastened to the second arm is configured to be tilted to one side in the range of 0 to 5 degrees from the vertical.

9 is a side view of the rotary cutter apparatus of the present invention. 9, the rotary cutter 400 of the present invention includes a support 461 fastened to a second arm fixing bracket of a rotary means, a first arm 460 integrally fastened to the support, A cutter angle joint box 430 which is coupled to the second arm so as to be tilted from one side to the other at an angle of 0 to 5 degrees and a saw blade unit 420 which is integrally fastened to the cutter angle joint box, A rotating motor unit 440 for rotating the saw blade unit, and a chain 442 for transmitting the power of the rotating motor unit to the saw blade unit. The rotary cutter apparatus configured as described above has a structure capable of rotating forward and backward by operation of the arm cylinder.

10 is a front view of the rotary cutter apparatus of the present invention. 10, the rotary cutter 400 includes a saw blade 410, a rotary motor 440 for rotating the saw blade of the saw blade, a chain 442 for transmitting power from the rotary motor to the saw blade, A second arm 450 integrally fastened through the saw blade unit 410, the cutter angle joint box 430 and the cutter arm connection joint 435, and a second arm 450 fastened to the second arm 450 1 arm 460, and an arm cylinder 480 mounted on the side surfaces of the first and second arms to rotate the second arm. A saw blade bearing portion 415 is formed on one side of the saw blade card 410-1 and a saw blade supporting portion 415 is provided on the other side of the saw blade card 410 So that the rotational force transmitted through the chain 442 acts to rotate the saw blade 416 of the saw blade portion 410.

11 is a state in which the rotary cutter apparatus and the air gasket scraper apparatus of the present invention are used to work in a pipeline. 11, the air gasket scraper device and the rotary cutter device of the present invention generate high-pressure air from the outside of the duct to generate a gasket scraper device for removing the coating film while moving inside the duct, and a rotary cutter device The operator can control the operation of the arm cylinder by adjusting the air control valve and the turbid air inside the pipe can be discharged to the outside through the discharge pipe and the devices for generating the high pressure air outside the pipe An air compressor, a dryer, and a receiver tank. In the above, the rotary cutter can be replaced with a diamond scraper.

100: moving means, 200: rotary means,
300: air gasket scraper device, 400: rotary cutter device,
410: saw blade portion, 440; A rotary motor unit,
450: second cancer, 460 first cancer

Claims (10)

A rotary cutter apparatus used for removing a coating film on an old duct by moving inside a duct by a moving means,
The rotary cutter device used for removing the coating film of the old channel is provided with:
A first arm 460 fastened to the second arm fixing bracket 318 of the rotary joint unit 200 fastened to the moving means;
A second arm 450 rotatably coupled to the first arm 460;
A cutter angle joint box 430 tilted to one side by a cutter arm connecting joint 435 fastened to the second arm;
A saw blade portion 410 fastened to the cutter angle joint box 430;
A rotary motor 440 coupled to a rear portion of the second arm 450,
A chain (442) for transmitting the power of the rotary motor part to the saw blade part;
And an arm cylinder (480) connected to one side of the first arm (460) and the second arm (450).
The method according to claim 1,
The first arm
A support holder 462 fastened to the hinge portion 456 of the second arm by a hinge bolt 457;
A body portion 462 integrally formed with the support holder 462;
A cylinder support holder 468 formed at a lower side of the body portion 462;
And a support (461) for fastening the second arm connection bracket to a lower portion of the rotary cutter.
The method according to claim 1,
The second arm
A body portion 452 integrally fastened to the cutter arm connecting joint 435 inserted into the cutter angle joint box;
A cylinder fixing bracket 454 formed at one side of the body portion;
And a hinge portion (456) for rotating the second arm at a lower portion thereof.
The method according to claim 1,
The cutter angle joint box 430, which is inclined to one side by the cutter arm connecting joint 435 fastened to the second arm,
And wherein the rotary cutter apparatus is inclined from one side to the other by about 0 to about 5 degrees.
The method according to claim 1,
The cutter angle joint box 430, which is inclined to one side by the cutter arm connecting joint 435 fastened to the second arm,
Shaped cutter arm connecting joint 435 formed inside the cutter angle joint box and formed with a connecting joint pin hole 437 into which two angle joint pins 422 are inserted, The two angle joint pins 422 are inserted into the joint pin holes from the outside of the cutter angle joint box and are inserted into the connecting joint pin holes 437 and the inside of the cutter angle joint pin box Is inserted into the joint pin hole of the saw blade frame (419) and fastened to the saw blade frame (419).
The method according to claim 1,
The saw blade
A saw blade formed by overlapping a plurality of circular saw blades 416 constituting a saw blade axis 414 of the bobbin type saw blade card 410-1;
A saw blade shaft integrally fastened to the center of the saw blade;
A saw blade bearing portion 415 formed on one side of the saw blade shaft;
A saw blade support 417 formed on the other side of the saw blade shaft and installed to rotate the saw blade shaft;
A saw blade 412 formed at one side of the saw blade shaft and connected to the saw blade chain to receive power;
And a saw blade frame (419) for fastening the saw blade bearing part, the saw blade shaft and the saw blade supporting part to each other.
A rotary cutter apparatus used for removing a coating film on an old duct by moving inside a duct by a moving means,
The rotary cutter device used for removing the coating film of the old channel is provided with:
A support holder 462 fastened to the second arm fixing bracket 318 of the rotary joint part 200 fastened to the moving means and fastened to the hinge part 456 of the second arm with a hinge bolt 457, A cylinder support holder 468 formed at a lower portion of the lower portion of the body portion 462 and a support 461 for fastening the second arm connection bracket to the lower portion of the body portion 462, A first arm 460;
A body portion 452 which is integrally fastened to the cutter arm connecting joint 435 inserted into the cutter angle joint box and coupled to the first arm 460 so as to be rotatable and a cylinder fixing bracket 454) and a hinge portion (456) for allowing the second arm to rotate at a lower portion thereof;
Shaped cutter arm connecting joint 435 formed with a connecting joint pin hole 437 which is inserted into the cutter angle joint box and is inserted into the cutter angle joint box and into which two angle joint pins 422 are inserted, The two angle joint pins 422 are inserted into the joint pin holes from the outside of the cutter angle joint box by fastening the cutter angle joint box composed of two joint pin holes 423 respectively inserted into the joint pin holes A cutter angle joint box 430 inserted into the joint pin hole at the inner side and fastened to the saw blade frame 419;
A saw blade formed by superimposing a plurality of circular saw blades 416 formed on the saw blade axis 414 of the bobbin type saw blade card 410-1 fastened to the cutter angle joint box 430 and integrally fastened to the center of the saw blade A saw blade supporting portion 415 formed on one side of the saw blade shaft and a saw blade supporting portion 417 formed on the other side of the saw blade shaft and installed so as to rotate the saw blade shaft and connected to the saw blade chain at one side of the saw blade shaft; A saw blade portion 410 having a saw blade gear 412 to receive power and a saw blade frame 419 for fastening the saw blade bearing portion to the saw blade shaft and the saw blade support portion;
A rotary motor 440 coupled to a rear portion of the second arm 450,
A chain (442) for transmitting the power of the rotary motor part to the saw blade part;
And an arm cylinder (480) connected to one side of the first arm (460) and the second arm (450).
8. The method of claim 7,
The cutter angle joint box 430, which is inclined to one side by the cutter arm connecting joint 435 fastened to the second arm,
And wherein the rotary cutter apparatus is inclined from one side to the other by about 0 to about 5 degrees.
An apparatus for removing paint film from an old pipe used for removing a film on an old pipe while moving inside a pipe,
The apparatus for removing old film used for removing the coating film of the old channel,
A moving means (100) in the form of a vehicle moving inside the duct;
A rotary means (200) installed on a base frame (202) installed on an upper portion of the moving means and transmitting rotational force of the rotary motor;
An air gasket scraper device 300 mounted on the first arm fixing bracket 224 of the rotary device 200 and operated by supplying air to the rotary long axis;
And a rotary cutter device (400) mounted on the second arm fixing bracket (218) of the rotary means.
10. The method of claim 9,
The rotary cutter device includes:
A first arm 460 fastened to the second arm fixing bracket 318 of the rotary joint unit 200 fastened to the moving means;
A second arm 450 rotatably coupled to the first arm 460;
A cutter angle joint box 430 tilted to one side by a cutter arm connecting joint 435 fastened to the second arm;
A saw blade portion 410 fastened to the cutter angle joint box 430;
A rotary motor 440 coupled to a rear portion of the second arm 450,
A chain (442) for transmitting the power of the rotary motor part to the saw blade part;
And an arm cylinder (480) connected to one side of the first arm (460) and the second arm (450) to remove the paint film on the old channel.

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