JP5121274B2 - Method and apparatus for treating inner surface of cylindrical body - Google Patents

Description

  In addition to scrubbing and removing contaminated parts due to harmful substances such as asbestos layers and dioxins formed on the inner wall of the chimney and flue of incinerators and heating furnaces, the present invention also cleans and grinds the inner surface of various cylinders The present invention relates to a method and an apparatus for treating the inner surface of a cylinder, which can effectively perform a treatment such as polishing.

In various furnaces such as incinerators and heating furnaces, the inner surface of the chimney or flue is formed of a heat insulating material. Conventionally, asbestos has been used in most facilities as a heat insulating material. In some conventional furnaces, the inner wall surface is contaminated with harmful substances such as dioxin generated during operation. These facilities cannot be operated. There are many things left undissolved. In order to dismantle, it is necessary to remove the asbestos layer and the contaminated layer in advance to ensure the safety of workers and prevent the scattering of harmful substances during dismantling. Similarly, the removal work must ensure the safety of workers and prevent the diffusion of harmful substances.
In addition, the chimney and flues must be cleaned to remove deposits such as soot. Equipment that needs cleaning extends to various pipes.

  Various techniques are known as means for treating the inner surface of a long cylindrical body such as a chimney. As a technique related to the present invention, there is a technique of cleaning the inner surface of a cylindrical body such as a pipe by a chain. For example, Patent Document 1 discloses that two or more motors and a chain or a chain-like object interlocking with each other in a steel pipe are rotated in reverse to bring the chain or the chain-like substance into contact with an inner wall surface. A method and apparatus for removing wall rust is disclosed.

The inventor has also proposed the technique of Patent Document 2. That is, a plurality of heads arranged in a cylindrical structure are rotated around a substantially vertical axis of the inner wall surface, revolved around the cylindrical axis, and the bristle tips held by each head are pressed against the inner wall surface. This is a technique of scraping the inner wall surface or cutting with a cutting blade in the same manner. It is preferable that each head is arranged in two stages in the cylindrical axis direction and the heads in each stage are revolved in directions opposite to each other.
Japanese Patent Laid-Open No. 50-44660 JP 2004-108714 A

  It is desirable to be able to work safely and with the simplest possible means in removing contaminated parts such as asbestos layers and dioxins forming the inner surface layer of an incinerator or heating furnace or the inner surface of a flue. As a simple means, it is possible to rotate the chain inside the cylinder and hit it against the inner surface as disclosed in Patent Document 1, but it is not effective.

  Therefore, the problem to be solved by the present invention is to safely and effectively protect the contaminated part due to harmful asbestos layer or dioxin formed as a heat insulating material on the inner surface layer of the chimney or flue in various furnaces such as incinerators and heating furnaces. In addition to removing the surface layer, it is also intended to cover a cylindrical body including various pipes, and effectively perform processing such as cleaning, grinding, and polishing in addition to surface layer removal.

The method of the present invention for solving the above-described problem is that two inner plates facing each other across a roller and two outer plates sandwiching the inner plate are joined at a portion where inner and outer plate end portions overlap each other. A plurality of roller chain expansion and contraction bodies that extend repeatedly by repeating the form of connecting with pins 7 that pass through the rollers and serve as roller support shafts, are arranged at equal intervals in the circumferential direction on the periphery of the rotating disk;
A plurality of plates are mounted with a brush processing tool from the tip of each roller chain expansion / contraction body, a tension coil spring is passed as an elastic body between each roller of the roller chain, and a hook at one end of the spring is attached to the rotating disk. By hooking the hook at the other end of the spring to the roller at the end of the plate that is closest to the turntable of the plate closest to the turntable, among the plurality of plates mounted with the brush processing tool, The roller chain expansion and contraction is shortened when the turntable is not rotating.
When each telescopic body is extended by centrifugal force by rotating the turntable around the cylinder axis, each brush treatment tool attached to a plurality of plates from the tip of each roller chain telescopic body is almost evenly distributed. A cylindrical body characterized by sliding uniformly on the inner surface of the cylindrical body while sliding against the inner surface of the cylindrical body and brushing the entire inner surface of the cylindrical body with certainty by moving the rotating disk in the axial direction of the cylindrical body. This is an inner surface treatment method.

In the method of the present invention,
Even more stages are provided in the rotation axis direction, that is, in the axial direction of the cylinder to be internally treated , and the odd numbered rotation disk and the even numbered rotation disk are rotated in the reverse direction. The effect is demonstrated.
A preferred specific means is that two inner plates facing each other across the roller and two outer plates sandwiching the inner plate pass through the roller at the portion where the inner and outer plate ends overlap each other. A plurality of roller chain expansion and contraction bodies that are repeatedly extended in the form of being connected by pins 7 serving as roller support shafts, are arranged at equal intervals in the circumferential direction on the periphery of the rotating disk,
A plurality of plates are mounted with a brush processing tool from the tip of each roller chain expansion / contraction body, a tension coil spring is passed as an elastic body between each roller of the roller chain, and a hook at one end of the spring is attached to the rotating disk. By hooking the hook at the other end of the spring to the roller at the end of the plate that is closest to the turntable of the plate closest to the turntable, among the plurality of plates mounted with the brush processing tool, The roller chain expansion and contraction is shortened when the turntable is not rotating.
When each telescopic body is extended by centrifugal force by rotating the turntable around the cylinder axis, each brush treatment tool attached to a plurality of plates from the tip of each roller chain telescopic body is almost evenly distributed. While sliding against the inner surface of the cylinder while brushing,
In addition, the cylindrical inner surface treatment apparatus is configured to surely and uniformly brush the entire inner surface of the cylinder by moving the rotating disk in the cylinder axis direction.

Moreover, the device of the present invention for solving the above problems is as follows.
A rotating mechanism is provided with an even number of stages in the direction of the axis of rotation, that is, the axial direction of the cylinder to be internally treated, and a rotating mechanism that rotates the odd numbered stage rotating disk and the even numbered stage rotating disk in the reverse direction. A cylindrical body inner surface treatment apparatus.

  In accordance with the present invention, the asbestos insulation layer formed on the inner surface of chimneys and flues of various furnaces such as incinerators and heating furnaces, and contaminated parts due to dioxins, etc. can be removed safely and very effectively by simple means. Can do. In addition, on the inner surface of the cylindrical body such as various pipes, in addition to removing the surface layer such as asbestos, treatments such as cleaning, grinding, and polishing can be similarly performed. The device configuration is relatively simple, versatile, and easy to handle. It is also possible to remove the asbestos layer in the small-diameter chimney that could not be achieved with the prior art. Asbestos removal is also possible with a small-sized chimney whose inner diameter of the asbestos layer is 220 mmφ by a small device. During processing, the inside of the cylinder can be unmanned, so that worker safety is ensured.

The most important feature of the present invention is that an elastic body such as a coil spring is provided on a stretchable body such as a roller chain. As a result, a long roller chain or the like is shortened when the rotating disk is not rotating, and is not only easy to attach to and remove from the cylinder, but also extends when rotating and is treated by a processing tool such as a brush attached to the tip. The cylindrical body inner surface processing capability such as scraping is remarkably improved, and an excellent effect that uniform and satisfactory processing can be performed is exhibited.
For this reason, even if the inner circumference of the cylinder is not a perfect circle, even if the inner diameter slightly varies in the length direction, or even if there are some irregularities, the entire surface can be processed uniformly.

Further, it is possible to process a cylindrical body having a slightly different inner diameter without replacing parts. A cylinder with a wider range of inner diameter differences can be processed by component replacement or component adjustment.
In addition, by providing an even number of turntables and rotating each turntable in the reverse direction, each turntable is less likely to sway and can be stably operated, and the same location on the inner surface of the cylinder can be turned in multiple directions. It can be slid, and more excellent treatment effects such as abrasion are exhibited.
In removing a relatively soft surface layer such as asbestos, by using a wire brush or the like as a processing tool, the surface layer can be scraped away while suppressing the abrasion of the cylindrical body such as concrete or steel.

1 to 5 show examples of the present invention in which a brush 2 is used as a processing tool, a roller chain 3 is used as an elastic body, and a coil spring 8 is used as an elastic body.
As shown in FIG. 1A, a plurality of stretchable bodies such as a roller chain 3 are arranged at equal intervals in the circumferential direction on the periphery of the rotating disk 1. In this example, three variable length joints 13 are arranged at intervals of 120 °.
A processing tool such as a brush 2 is attached to the tip of each roller chain 3. Each roller chain 3 includes an elastic body such as a coil spring 8 as shown in FIGS. 2 and 3, and is shortened as shown in FIGS. 1B and 3 when the rotating disk 1 is not rotated. . 2 and 3, the variable length joint 13 is not used and the joint 14 is attached to the turntable 1.
As shown in FIG. 1A, the rotating disk 1 is rotated about the cylinder shaft 12 so that each roller chain 3 is extended, and each brush 2 is slid on the inner surface of the cylinder 10 so that the circumferential direction is increased. Perform internal treatment. And it is made to move to the direction of the rotating shaft 11, and the inner surface process of a cylindrical body axial direction is performed.

2 and 3 are specific examples in which a coil spring 8 is provided on the roller chain 3. FIG. 2 is a perspective view showing a state in which the turntable 1 is extended by the rotation of the turntable 1, and FIG. 3 is a plan view showing a state in which the turntable 1 is shortened. As shown in FIG. 2, the roller chain 3 is formed by connecting two outer plates 4 and an inner plate 5 with pins 7, and the pins 7 pass through the rollers 6 between the two inner plates 5.
In this example, five brushes 2 are connected to the tip of the roller chain 3. The coil spring 8 is passed between the rollers 6 of the roller chain 3, and the hook 9 at one end of the spring is connected to the roller 6 at the end of the rotating disk 1 and the hook 9 at the other end is connected to the roller 6 at the end of the brush 2. Each is handed over. The coil spring 8 is a tension coil spring. When the turntable 1 is not rotated, as shown in FIGS. 3 and 1B, the roller chain 3 is pulled by the coil spring 8 and contracted in a zigzag manner. When the centrifugal force due to the rotation becomes larger than the tensile force of the coil spring 8, It extends as shown in FIG. 2 and FIG.

  In the example of FIGS. 2 and 3, the brushes 2 are connected to each of the five outer plates 4 and the inner plate 5 at the tip of the roller chain, and the pins 7 are used as connecting members. In addition, a brush may be attached to the outer plate 4 and the inner plate 5 and the pin 7 may be used as a connecting member. Further, a brush may be attached to the inner plate 5 and the outer plate 4 and the pin 7 may be used as a connecting member.

When the turntable 1 is not rotated, each roller chain 3 is contracted as shown in FIG. 1B, so that the device can be easily attached to and detached from the cylinder 10.
When the turntable 1 is rotated in the cylindrical body 10, as shown in FIG. 1 (a), each roller chain 3 with the brush 2 attached to the tip extends, and the brush 2 slides in pressure contact with the inner surface of the cylindrical body. A process such as brushing or abrasion is performed.
And the inner surface process of the length direction of the cylinder 10 is performed by moving the turntable 1 to the direction of the rotating shaft 11. FIG.

When sufficient centrifugal force is applied by the rotation of the turntable 1, as shown in FIG. 1 (a), the required number of brushes 2 attached to the tip of the roller chain 3 is pressed against the inner surface of the cylindrical body in this example. , Processing ability such as abrasion is remarkably improved. When the coil spring 8 is not attached, the brush 2 (No. 5) on the roller chain 3 side is not pressed against the inner surface of the cylindrical body even when the number of rotations is maximized, as will be described later. In this case, all the brushes 2 are in pressure contact under the same conditions, and slide with sufficient pressure contact force.
For this reason, even if the inner circumference of the cylinder 10 is not a perfect circle, the inner diameter fluctuates in the length direction, or there are some irregularities, the brush 2 can be applied to the entire surface with the required sufficient pressure contact force. It slides and the inner surface of the cylindrical body can be uniformly treated.

Moreover, when processing another cylindrical body 10, even if the inner diameter is slightly different, it can be processed without replacement of parts. By adjusting the variable length joint 13 shown in FIGS. 1A and 1B as necessary, it is possible to process a cylindrical body having a wider inner diameter difference.
The variable length joint 13 is, for example, as shown in FIG. The adjustment bar 16 and the support bar 17 are connected by a connecting piece 20, and a slide bar 15 is attached to the adjustment bar 16 in a nested manner to adjust any of a plurality of adjustment holes 18 provided in the length direction of the slide bar 15. The length is made variable by fixing with the bar 16 and the pin 19. The adjustment bar 16 and the support bar 17 are attached to the rotating disk 1 by the connecting piece 21 and the joint 14, respectively, and the roller chain 3 is attached to the tip of the slide bar 15.

In order to dispose the expansion / contraction body such as the roller chain 3 around the periphery of the rotating disk 1, a joint 14 as shown in FIGS. 2 and 3 can be used instead of the variable length joint 13.
Further, the roller chain 3 and the variable length joint 13 can be directly attached to the periphery of the rotating disk 1. For example, as shown in FIG. 5, a groove 22 is provided on the periphery of the rotating disk 1, and the inner plate 5 of the roller chain 3 is fitted into the groove 22 and is fastened with a bolt 24 or a pin. By making the head hole 23 deep so that the bolt head 25 or the pin head does not protrude from the surface of the rotating disk 1, the surface of the rotating disk 1 can be used widely. When the variable length joint 13 is attached, the adjustment bar 16 and the support bar 17 shown in FIG.

In addition to the roller chain 3, various chains and chains can be adopted as the stretchable body. Moreover, it can also be set as the antenna type as shown in FIG. In FIG. 6, a telescopic body is a combination of the square tubes 26, 27, and 28 nested. The coil spring 8 is stretched over the pins 29 provided on the front end square tube 26 and the rear end square tube 28 as elastic bodies. Reference numeral 30 denotes a stopper, which is composed of protrusions provided on the outer side of the rear end portion of the inner square tube and the inner side of the outer end portion of the outer square tube.
A treatment tool such as a brush 2 is attached to the front end square tube 26, and a rear end square tube 28 is attached to the turntable 1 with a connecting piece 21 and a joint 14.
The brush 2 is attached to the inner plate 5 of the roller chain, and the outer plate 4 is connected as a connecting member.

As the elastic body, in addition to the coil spring 8, an elastic rope made of rubber or the like may be employed.
In addition to scraping, various processing modes are possible. For example, cutting, grinding, polishing, cleaning, and the like can be performed, and a processing tool suitable for each processing mode and the target cylinder can be employed.

As described above, the brush 2 is suitable for scraping and removing a relatively soft surface layer such as asbestos as a processing tool, and is made of bristle such as metal wire or hard plastic with abrasive grains. preferable.
In addition to the relatively hard surface scraping and cutting, a rough grindstone, cloth paper or non-woven fabric to which coarse abrasive grains are attached can be employed. For cutting, it is also possible to employ a brush attached with one or more blades like a two-blade blade instead of the bristles of the brush 2.
For grinding and polishing, a fine whetstone, cloth paper or non-woven fabric to which fine abrasive grains are attached can be used.
A relatively soft brush or brush can be used for cleaning. In that case, the appropriate one according to the target cylinder is adopted, including various plastics and made of palm. In addition, a cloth or a non-woven fabric to which a detergent is attached can be used.

Further, in the present invention, the rotating disk 1 is provided with an even number of stages in the direction of the rotating shaft 11, and the rotating disk 1 is rotated in the reverse direction according to the rotating disk 1, thereby exhibiting more excellent effects. That is, each turntable 1 is less likely to sway, can be operated stably, and can slide in the same direction on the inner surface of the cylinder 1 in a plurality of opposite directions, so that more excellent processing such as scraping can be performed. The effect is demonstrated.
FIG. 7 shows an example of a mechanism in which a rotating disk is provided in two stages and rotates in the opposite direction. This example is based on Japanese Patent Application No. 2006-111673 previously proposed by the present inventor.

  In FIG. 7, donut-type rotary disks 31 and 32 are provided in parallel with each other, and three drive wheels 33 are provided at intervals of 120 ° in contact with both rotary disks 31 and 32. The axles of each of the three drive wheels 33 are parallel to both of the rotary disks 31 and 32 and are driven by meshing with the rotary shaft 11 and the bevel gear in the gear box 34. Three presser wheels 35 are provided above the donut-type rotary disk 31 and three presser wheels 36 are provided below the donut-type rotary disk 32 at intervals of 120 °. The axle of the presser wheel 35 is pivotally supported by the presser plate 37 and the axle of the presser wheel 36 is pivotally supported by the presser disc 38, and rotates freely without being driven. Tires are mounted on the drive wheels 33 and the presser wheels 35 and 36.

  A flange 40 is disposed above the press plate 37 and a flange 41 is disposed below the press plate 38, and both are supported by three columns 42. The three struts 42 are arranged at the positions of the apexes of an equilateral triangle when viewed from the surfaces of the two flanges 40 and 41, and pass through the three through holes formed in the presser plates 37 and 38 and the gear box 34, and the donuts. It passes through the hollow portions of the mold turntables 31 and 32. Between the flange 40 and the presser board 37, and between the flange 41 and the presser board 38, the respective struts 42 are passed through the springs 43, so that the presser board 37 is on the donut type rotary board 31 side and the presser board 38 is on the donut type rotary board. Each side is pressed to 32 side.

The rotary shaft 11 is fixed to the bevel gear in the gear box 34 through the flange 40 and a through hole formed in the center of the presser plate 37, through the hollow portion of the donut-type rotary plate 31. Then, it is connected to a rotation mechanism such as a motor 44.
Three rotating wheels 39 are rotatably provided in contact with the inner periphery in the hollow portions of the donut-shaped rotating disks 31 and 32. The rotating wheel 39 in the donut-shaped rotating disk 31 supports the shaft by a presser board 37 and a gear box 34, and the rotating wheel 39 in the donut-shaped rotating disk 32 supports the shaft by a presser board 38 and a gear box 34. Yes.

  When the rotating shaft 11 is rotated, the three driving wheels 33 rotate, and the donut-shaped rotating disks 31 and 32 pressed against the driving wheels 33 rotate in opposite directions. The presser wheel 35 holding the donut-type rotary disk 31 and the presser ring 36 holding the donut-type rotary disk 32 also rotate. At this time, the two rotating disks 31 and 32 are centered by the rotating wheel 39. The pressers 37 and 38 and the gear box 34 do not rotate.

As shown in FIGS. 1 to 3, the outer peripheral edges of the donut-shaped rotating disks 31 and 32 are provided with a telescopic body such as a roller chain 3 having a processing tool such as a brush 2 attached to its tip, and an elastic body such as a coil spring 8. By attaching them, it is possible to more effectively perform a scraping process such as removal of the asbestos layer on the inner surface of the chimney.
At the time of processing, the apparatus shown in FIG. 7 to which a brush or the like is attached is suspended in a cylinder with a wire or the like and moved up and down with a crane or a winch.

Since the donut-shaped rotating disks 31 and 32 provided in two stages rotate in the opposite direction, the rotating disks 31 and 32 are less likely to be shaken and can be operated stably. Moreover, the same location of the inner surface of the cylinder 10 can be slid in the opposite direction twice, and a more excellent processing effect such as abrasion is exhibited.
Further, by connecting a plurality of pairs of donut-shaped rotating disks 31 and 32, each rotating disk having four or more stages can be rotated in the reverse direction.

  Further, when the roller chain 3 and the like are attached to the outer peripheral edges of the donut-shaped rotary disks 31 and 32, the outer diameters of both rotary disks 31 and 32 are fitted by fitting into the grooves 22 on the peripheral edge of the rotary disk 1 as shown in FIG. Can be reduced within the range in which the drive wheel 33 and the presser wheels 35 and 36 are actuated, so that it is possible to cope with a small-diameter cylinder such as a small-diameter chimney by downsizing the device.

(1) The effect of the present invention was verified using a model assuming a chimney.
As shown in FIG. 2, a roller chain 3 fitted with the brush 2 is attached to the outer peripheral edges of the donut-shaped rotary disks 31 and 32 of the apparatus shown in FIG. 7 by a joint 14 and suspended in a cylindrical body having an inner diameter of 1500 mmφ. Scraping was performed.
The outer diameters of the donut-shaped rotating disks 31 and 32 were 240 mmφ, and three roller chains 3 were attached at intervals of 120 °. The rotation was performed by attaching a commercially available motor with a reduction gear at the position of the motor 44 in FIG. The roller chain 3 is composed of 25 pieces of the outer plate 4 and the inner plate 5, and a brush of hard steel wire is attached to the five of the tip portions to make the brush 2.
As an example of the present invention, as shown in FIG. 2, a tension coil spring 8 is stretched between a roller 6 at the brush 2 side end and a roller 6 at the end of the rotating disk 1 as shown in FIG. As an example, the one without the coil spring 8 was used.

The number of rotations of the donut-shaped rotary disks 31 and 32 was changed by changing the voltage applied to the motor with a speed reducer, and the contact state between the five brushes 2 (No. 1 to No. 5) and the chimney inner surface was observed. The part where the brush 2 was reliably contacted was scraped. Table 1 summarizes the relationship between the motor applied voltage and the number of rotations and the brush contact status.
In the comparative example without a coil spring, even when the applied voltage was 60 V and the rotation speed was 75 rpm, the No. 5 brush at the end of the roller chain was not in contact and the abrasion was insufficient. On the other hand, in the example of the present invention, a remarkable effect of the coil spring was observed, and all brushes No. 1 to No. 5 were in contact with each other even when the applied voltage was 50 V and the rotation speed was 65 rpm, and sufficient abrasion was obtained.

(2) About the actual chimney, the asbestos layer on the inner surface was scraped off.
The chimney is made of concrete having an inner diameter of 650 mmφ, and an asbestos layer having a thickness of 50 mm is formed. The inner diameter of the asbestos layer is 550 mmφ. As shown in FIG. 1, the roller chain 3 is attached to the donut-type rotary disks 31 and 32 of the apparatus as shown in FIG. 7 using the variable length joint 13 and the five hard steel wire brushes 2 are attached to the tip. The rotation was performed with a commercially available motor with a reduction gear, and the device was moved up and down with a crane.
After completion of the work, the chimney was vertically divided and the inner surface was observed. As a result, the asbestos layer was reliably removed and the concrete surface was exposed. The inside of the concrete surface was also removed. Although the traces of the brush were seen on the concrete surface, it was clear that the abrasion was suppressed.

It is a top view which shows the state which set this invention in the cylinder, (a) is a state example which is rotating the rotating disk, (b) is a state example which is not rotating. It is a perspective view which shows the example of the roller chain attachment state in this invention. It is a top view which shows the example of the roller chain attachment state in this invention. It is a top view which shows another example of the roller chain attachment state in this invention. It is a side view which shows another example of the roller chain attachment state in this invention. It is a top view which shows another example of the expansion-contraction body in this invention. It is a side view which shows the example of a rotation mechanism of the two-stage turntable in this invention.

Explanation of symbols

1: rotating plate 2: brush 3: roller chain 4: outer plate 5: inner plate 6: roller 7: pin 8: coil spring 9: hook 10: cylindrical body 11: rotating shaft 12: cylindrical shaft 13: variable length joint 14 : Joint 15: Slide bar 16: Adjustment bar 17: Support bar 18: Adjustment hole 19: Pin 20, 21: Connection piece 22: Groove 23: Head hole 24: Bolt 25: Bolt head 26, 27, 28: Square tube 29 : Pin 30: Stopper 31 and 32: Donut type rotating board 33: Driving wheel 34: Gear box 35 and 36: Pressing wheel 37 and 38: Pressing board 39: Rotary wheel 40 and 41: Flange 42: Prop 43: Spring 44: motor

Claims (4)

A pin 7 which penetrates the roller and serves as a roller support shaft at the portion where the inner and outer plate end portions overlap each other between the two inner plates facing each other with the roller interposed therebetween and the two outer plates sandwiching the inner plate. A plurality of roller chain expansion / contraction bodies that are repeatedly extended in the form connected to each other are arranged at equal intervals in the circumferential direction on the periphery of the rotating disk,
A brush processing tool is attached to each of the plurality of plates from the tip of the elastic body of each roller chain,
A tension coil spring is passed as an elastic body between the rollers of the roller chain, and a hook at one end of the spring is attached to the roller at the end on the rotating disk side.
By hooking the hook at the other end of the spring to the roller at the end closest to the rotating disk of the plate closest to the rotating disk among the plurality of plates mounted with the brush processing tool, when the rotating disk is not rotating It is configured so that the elastic body of the roller chain contracts,
When each telescopic body is extended by centrifugal force by rotating the turntable around the cylinder axis, each brush treatment tool attached to a plurality of plates from the tip of each roller chain telescopic body is almost evenly distributed. While sliding against the inner surface of the cylinder while brushing,
And the inner surface processing method of a cylinder characterized by brushing the whole cylinder inner surface reliably uniformly by moving a rotary disk to a cylinder axial direction. An even number of stages are provided in the direction of the rotation axis, i.e., the axial direction of the cylinder to be internally treated , and the odd numbered stage rotating disk and the even numbered stage rotating disk are rotated in opposite directions. The cylinder inner surface processing method according to claim 1. A pin 7 which penetrates the roller and serves as a roller support shaft at the portion where the inner and outer plate end portions overlap each other between the two inner plates facing each other with the roller interposed therebetween and the two outer plates sandwiching the inner plate. A plurality of roller chain expansion / contraction bodies that are repeatedly extended in the form connected to each other are arranged at equal intervals in the circumferential direction on the periphery of the rotating disk,
A plurality of plates are mounted with a brush processing tool from the tip of each roller chain expansion / contraction body, a tension coil spring is passed as an elastic body between each roller of the roller chain, and a hook at one end of the spring is attached to the rotating disk. By hooking the hook at the other end of the spring to the roller at the end of the plate that is closest to the turntable of the plate closest to the turntable, among the plurality of plates mounted with the brush processing tool, The roller chain expansion and contraction is shortened when the turntable is not rotating.
When each telescopic body is extended by centrifugal force by rotating the turntable around the cylinder axis, each brush treatment tool attached to a plurality of plates from the tip of each roller chain telescopic body is almost evenly distributed. While sliding against the inner surface of the cylinder while brushing,
An inner surface treatment apparatus for a cylindrical body, wherein the entire inner surface of the cylindrical body can be surely and uniformly brushed by moving the rotating disk in the axial direction of the cylindrical body. A rotating mechanism is provided with an even number of stages in the direction of the axis of rotation, that is, the axial direction of the cylinder to be internally treated, and a rotating mechanism that rotates the odd numbered stage rotating disk and the even numbered stage rotating disk in the reverse direction. The cylindrical inner surface treatment apparatus according to claim 3. "