KR101529901B1 - ground and tunnel behavior measuring apparatus - Google Patents

Abstract

The present invention relates to a device for measuring a deformation amount of a ground and a tunnel which can monitor the behavior of a ground by measuring a horizontal length deformation amount of each of a plurality of points in a road and a slope construction and is installed in the ground such as soil or rock An outer pipe (10); A measuring cable fixing terminal 20 connected to a lower end of the outer pipe 10 and embedded in the ground to fix the measuring cable 40; An inner pipe (30) inserted into the outer pipe (10); A measurement cable 30 connected to the measurement cable fixing end 20 and drawn out to the outside through a cover plate 50; A cover plate (50) fixed to the ground to cover the outer pipe (10) and attached to the inner pipe (20) by welding or the like; A cable stretching and displaying unit 60 for displaying the stretching length of the measuring cable 30 according to the elongation and contraction of the measuring cable 30; And a tension providing unit (70) for pulling the other end of the measuring cable (30) drawn out through the cable stretching and displaying unit (60) to provide a tension so as to be held in tension, By connecting the gear to the rotary reel and displaying the scale indicating the number of revolutions on the gear, it is possible to measure the length of the ground motion with the naked eye in the field, and visually confirm it without expensive equipment to process the measured data, This is inexpensive.

Description

Background of the Invention Field of the Invention [0001]

The present invention relates to a device for measuring ground and tunnel deformation quantities of roads, slopes, soft grounds, landfills, etc., and more particularly to a rotary reel for connecting a measuring cable to a measuring fixed end embedded in the ground, The present invention relates to a ground and tunnel deformation measuring device capable of measuring the behavior length of the ground with naked eyes by displaying a scale indicating the number of revolutions of the gears.

Generally, in road and slope construction, it is required to check the displacement and cracks of the ground by measuring the horizontal length deformation amount by a plurality of branches. In the landfill, the soft ground and the embankment construction of the dam, It is necessary to monitor the behavior of the ground in civil engineering sites.

A conventional apparatus for measuring the length of deformation of a civil engineering site is a laser beam instrument, an optical fiber measuring instrument, an extensometer, an extensometer, a dipstick system, etc., depending on the application site.

Most of the instruments are designed to be easy to measure at only one point, and because of expensive equipment, there are many limitations in measuring a large number of points by employing a large number of equipments considering the budget side of the field view.

On the other hand, the apparatus for measuring a long-strain deformation by using a conventional laser light instrument, an optical fiber measuring instrument, an extensometer, an extensometer, a sinker, etc. is expensive and can measure a precise length less than or equal to about mm. And the vertical settlement amount of each of the plurality of strata occurring at the time of the displacement, crack, landfill, soft ground, and embankment construction of the dam is as large as 4 to 5 m.

Therefore, the vertical settlement of each soil layer caused by the displacement, crack, or embankment of the ground can be measured by a user even if it is a low precision measuring apparatus capable of measuring in mm units. do.

In the civil engineering measurement field, there is a method of using steel wire in a method that does not use an expensive device, but in the case of a conventional device and technology, three-dimensional measurement by each section for measuring a plurality of measured points at the same point It was impossible.

A structure and an installation example of a conventional civil length deformation measuring apparatus using a typical steel wire will be described as follows.

Korean Patent No. 0220923 discloses a device for automatically measuring a length of deformation using an encoder and a method thereof, which will be described with reference to FIG. 1, which is a technique for measuring a deformation amount of a road or a slope in which a ground moves horizontally in a civil engineering field .

As shown in FIG. 1, in order to measure a length deformation amount, a steel wire 2 connected to a fixed end 1 rotates the measuring wheel 4 through a non-slip assistant wheel 3, The rotation amount is transmitted to the encoder 5, and the digital-converted data is transmitted to the electronic control circuit 7.

The conventional measuring apparatus is a complicated structure in which a spring 9a and a storage box 9 for protecting the steel wire 2 and the spring 9a are separately provided to maintain the tension of the steel wire 2. [

Therefore, the conventional measuring apparatuses require a program for analyzing data measured by an encoder to a computer, a computer and an electronic control circuit, so that it is difficult to install a large number of apparatuses because the apparatus is expensive and installation is difficult. It is costly to monitor the horizontal length deformation of the measurement point of the ground or the ground condition of the civil engineering site and there is a problem that a professional engineer is needed.

The object of the present invention is to solve the problems of the conventional measuring apparatus as described above. The object of the present invention is to connect a measuring cable to a measurement fixed end buried in the ground, pull it with a tension device, The present invention provides a ground and tunnel deformation measuring device capable of measuring the behavior length of the ground with the naked eye by providing a display unit having a scale for indicating the number of revolutions on the gear by connecting a gear to a rotating rotary reel have.

Another object of the present invention is to provide a simple and easy to install display device which is able to display the length of the ground by means of a simple display device composed of a scale and a needle without requiring expensive equipment for processing the measured data, And a deformation amount measuring device.

In order to achieve the above object, an apparatus for measuring a deformation amount of a ground and a tunnel according to the present invention comprises: an outer pipe embedded in a ground such as soil or rock; A measuring cable fixing part connected to a lower end of the outer pipe and embedded in the ground to fix the measuring cable; An inner pipe inserted into the outer pipe; A measurement cable connected to the measurement cable fixing end and led out to the outside through a cover plate; A cover plate fixed to the ground to cover the outer pipe and attached to the inner pipe; A cable stretching and displaying unit for displaying an elongating length of the measuring cable according to elongation and contraction of the measuring cable; And a tension providing unit for pulling the other end of the measuring cable drawn out through the cable stretching and displaying unit to provide a tensile force so as to maintain tension.

According to an embodiment of the present invention, the inner pipe and the outer pipe may be polygonal such as rectangular, pentagonal, hexagonal, hexagonal, or hexagonal, if necessary.

According to an embodiment of the present invention, the cover plate is attached by the inner pipe and the engaging means, and when the cover plate is moved, the inner pipe moves together, and the measuring cable passing through the inner pipe also extends while moving .

According to an embodiment of the present invention, the cable stretching and displaying unit includes: a rotating reel installed so that the number of revolutions is proportional to the length of elongation of the measuring cable; A driving gear which rotates together with the rotation of the rotary reel; A driven gear rotatably engaged with the driven gear; And an elongated length indicating needle coupled to the shaft of the driven gear and rotated.

According to an embodiment of the present invention, a driven gear is rotated by rotation of the driven gear, and a rotation number indicating plate for indicating the number of revolutions of the driven gear is engraved on the upper surface of the driven gear.

According to an embodiment of the present invention, the cable stretching display portion includes a cable guide tube extending from the inner pipe and projecting a predetermined length onto the cover plate and bent horizontally; A sawtooth rotation reel in which a measuring cable drawn out from the cable guide tube is wound to rotate according to the elongation of the measuring cable and toothed at an upper end thereof; A first gear that rotates in engagement with the teeth of the sawtooth rotation reel; A second gear having a gear ratio to rotate together as the first gear rotates; A first needle attached to a rotation axis of the first gear; A second needle attached to the rotation shaft of the second gear; And a second scale for indicating the number of revolutions of the second needle and a first scale that is fitted to the rotation axis of the first gear and the rotation axis of the second gear and that displays the number of revolutions of the first needle, And the like.

According to an embodiment of the present invention, the sawtooth rotation reel includes a cylindrical roller laid on the cover plate and wound with the measuring cable; A gear wheel provided integrally with the cylindrical roller at an upper end of the cylindrical roller; A roller rotating shaft which rotatably supports the cylindrical roller; And a rotary shaft support for supporting the roller rotary shaft.

According to an embodiment of the present invention, the tension providing unit includes: a tension rotating reel rotating according to the elongation of the measuring cable; A rotary shaft which is fixedly coupled to the fixed plate by rotation of the tension rotary reel by a coupling screw to provide a rotation center; A tension spring fixed to the fixing plate and providing a tension in accordance with rotation of the rotation shaft; And a fixing plate for fixing the rotary shaft and the tension rotary reel to the floor.

According to the present invention, a gear is connected to a rotating rotary reel in accordance with the elongation of a measuring cable and a scale indicating the number of revolutions is displayed on the gear to measure the behavior length of the ground with the naked eye in the field, It is economical and low installation cost because it is visually confirmed without expensive equipment.

FIG. 1 is a sectional view taken along a plane passing through the center in order to show the structure of a ground deformation measuring apparatus according to a conventional technique
FIG. 2 is a cross-sectional view of a ground and tunnel deformation measuring apparatus according to the present invention,
3A shows an embodiment of a cable stretching and displaying unit according to the present invention,
3B is an enlarged view of the rotary reel according to the present invention,
4 shows another embodiment of the cable stretching and displaying unit according to the present invention,
Fig. 5 shows a third embodiment of the cable stretching and displaying unit according to the present invention,
6 shows another embodiment of the tension providing unit according to the present invention,
FIG. 7 is an embodiment in which the tensile force of another embodiment is applied to the apparatus for measuring a deformation amount of a ground and a tunnel according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a cross-sectional view of a ground and tunnel deformation measuring apparatus according to the present invention, taken along a plane passing through the center.

An apparatus 100 for measuring a deformation amount of a ground and a tunnel according to the present invention comprises: an outer pipe 10 installed in a ground such as soil, rock, tunnel or the like; A measuring cable fixing terminal 20 connected to a lower end of the outer pipe 10 and embedded in the ground to fix the measuring cable 40; An inner pipe (30) inserted into the outer pipe (10); A measurement cable 30 connected to the measurement cable fixing end 20 and drawn out to the outside through a cover plate 50; A cover plate (50) fixed to the ground to cover the outer pipe (10) and attached to the inner pipe (20) by welding or the like; A cable stretching and displaying unit 60 for displaying the stretching length of the measuring cable 30 according to the elongation and contraction of the measuring cable 30; And a tension providing unit 70 for pulling the other end of the measuring cable 30 that is drawn out through the cable stretching and displaying unit 60 to provide a tension so as to be held tight.

The outer pipe 10 according to the present invention is a cylindrical pipe made of a metal material that is not corroded in the ground and has a diameter of about 38 mm. The upper and lower ends are opened, and the lower end is fixed to the measurement cable fixing end 20 And the upper end thereof is covered by the cover plate 50, and is embedded in the ground GL of soil, rock , tunnel or the like at a depth of about 3 m.

The measuring cable fixing end 20 according to the present invention can be constructed by fixing an anchor and an anchor bolt in which concrete is placed on the ground and fixed to the center central bottom of the outer pipe 10, Are combined and combined.

The inner pipe 30 according to the present invention is made of a metal which is not corroded in the ground like the outer pipe 10 and has a diameter of about 32 mm smaller than the outer pipe 10, 10, which is inserted into the outer pipe 10 to protect the measurement cable 30 and provide a path for passing the measurement cable 30 to the outside, and the upper end of the cylindrical pipe is welded to the cover plate 50 by welding or the like And they are joined and fixed.

Here, the diameter and length of the inner pipe 30 and the outer pipe 10 may be changed according to need, and it may be not a cylindrical shape, but may be a pentagon, a hexagon, or a hexagon.

The cover plate 50 according to the present invention is constituted by a rectangular plate made of a metal capable of protecting the inner pipe 30, the outer pipe 10 and the measurement cable 40 from the impact of an external force, ) Is covered on the surface of the ground, the piles are placed on the four corners and fixed to the ground and joined to the inner pipe (30) by welding or the like.

Therefore, when the ground on which the cover plate 50 is fixed moves, the inner pipe 30 also moves together, so that the measuring cable 40 passing through the inner pipe 30 also extends while moving.

The cable stretching and displaying unit 60 according to the present invention detects that the measuring cable 40 is stretched according to the movement of the ground, and displays it so that it can be seen from the outside.

FIG. 3A shows an embodiment of a cable stretching display unit according to the present invention, and FIG. 3B shows an enlarged view of a rotating reel according to the present invention.

The cable stretching and displaying unit 60 according to the present invention includes a rotating reel 61 installed so that the number of revolutions is proportional to the length of the elongating length of the measuring cable 40; A driving gear 62 that rotates together with the rotation of the rotary reel 61; A driven gear 63 that meshes with the driven gear 62 and rotates; And an elongated length indicating needle 64 coupled to the shaft of the driven gear 63 and rotating.

The rotary reel 61 according to the present invention includes a cylindrical roller 611 through which the measuring cable 40 drawn through the opened upper end of the inner cylinder 30 is wound one or more times; A roller rotating shaft 612 for rotatably supporting the cylindrical roller 611; And a rotary shaft support table 613 for supporting the roller rotary shaft 612.

The cylindrical roller 611 is formed in a cylindrical shape as shown in FIG. 3B. The cylindrical roller 611 is wound on the outer circumferential surface of the cable roller 611 at least once in a cable groove 611a formed so that the measuring cable 40 is wound without releasing, (70).

When the cover plate 50 is moved in the direction of the arrow, for example, by the movement of the ground, the measuring cable 40 is pulled toward the inner cylinder 30 and stretched so that the cylindrical roller 611 is turned counterclockwise Direction.

As the cylindrical roller 611 rotates in the counterclockwise direction, the roller rotation shaft 612 rotates counterclockwise, and the rotational force rotates the driving gear 62 attached to the roller rotation shaft 612 counterclockwise.

The driven gear 63 is rotated by the rotation of the driving gear 62 and the rotation number indicating plate 63a for indicating the number of revolutions of the driving gear 62 is engraved on the upper surface of the driven gear 63. [

The gear ratio of the driving gear 62 and the driven gear 63 is, for example, 1:10. When the driving gear 62 rotates once, the driven gear 63 rotates by 1/10. A scale 64 indicative of the rotation is engraved on the upper surface of the driven gear 63. A needle 65 is stood on the floor at the side of the driven gear 63 and the bent portion is engaged with the driven gear 63 The graduation 64 is rotated in accordance with the rotation of the driven gear 63 toward the rotation axis of the driven gear 63 so that the scale indicated by the needle 65 increases from "0" to "2" ) Is indicated by two rotations.

Therefore, when the circumference of the rotating reel 61 is 20 cm, the ground surface on which the cover plate 50 is fixed moves from the measurement cable fixing end 20 provided at a depth of 3 m below the cover plate 50 to 20 cm X 2 = 40 cm.

4 shows another embodiment of the cable stretching display unit according to the present invention.

4, the extension / contraction display unit 71 according to the present embodiment extends the length of the cover plate 55 so as to include the tension supply unit 70, and measures the distance between the rotation reel 61 and the tension supply unit 70 And a scale 72 capable of measuring the extended length of the cable 40 is displayed.

When the measuring needle 40 is provided between the rotary reel 61 and the tension supply unit 70 and the cover plate 55 is moved by the movement of the ground, The rotating reel 61 is wound in the counterclockwise direction and the measuring needle 73 provided on the measuring cable 40 is moved from the tension supplying portion 70 to the rotating reel 61. [

At this time, the scale 72 read on the cover plate 55 indicated by the measurement needle 73 can be read to see the length of the extension.

Therefore, the scale 72 is displayed such that the scale closest to the tension supply unit 70 is "0 ", the large scale is incremented by" 1 ", and the measurement needle 73 is displayed, For example, "3.5" indicates 10 cm × 3.5 = 35 cm stretched.

5 shows a third embodiment of the cable stretching and display unit according to the present invention.

The third embodiment of the cable stretching display unit according to the present invention comprises a cable guide pipe 81 extending from the inner pipe 30 and projecting a predetermined length and bent horizontally over the cover plate 55; A sawtooth rotation reel 82 in which a measurement cable 40 drawn from the cable induction pipe 81 is wound and rotated according to the elongation of the measurement cable 40 and teeth are formed at an upper end thereof; A first gear 83 rotating in engagement with the teeth of the sawtooth rotation reel 82; A second gear (84) having a gear ratio such that the first gear rotates once per 10 rotations; A first needle 85 attached to the rotating shaft of the first gear 83; A second needle 86 attached to the rotating shaft of the second gear 84; A first scale 86a fitted to the rotating shaft of the first gear 83 and the rotating shaft of the second gear 84 and indicating the number of rotations of the first needle 85, And a revolution number plate 87 having a second scale 86b for indicating the revolution number.

The cable guide pipe 81 according to the present embodiment is extended from the inner pipe 30 and has a predetermined length (for example, a height at which the measurement cable 40 can be sensed at the sawtooth rotation reel 82) And the upper end thereof is horizontally extended to a predetermined length (for example, a distance between the inner pipe 30 and the toothed rotary reel 82) so that the measuring cable 40 is wound on the toothed rotary reel 82 .

The sawtooth rotation reel 82 includes a cylindrical roller 821 which is laid down on the cover plate 55 and on which the measuring cable 40 is wound; A gear wheel 822 provided integrally with the cylindrical roller 821 at an upper end of the cylindrical roller 821; A roller rotating shaft 823 for rotatably supporting the cylindrical roller 821; And a rotary shaft support 824 for supporting the roller rotary shaft 823.

The cylindrical roller 821 of the sawtooth rotation reel 82 rotates as the measuring cable 40 is wound on one or more turns and the measuring cable 40 is stretched. At this time, the toothed wheel 822 of the sawtooth rotation reel 82 is also rotated, and the first gear 83 engaged with the toothed wheel 822 rotates together.

The rotation number indicator plate 87 and the first needle 85 are fitted to the rotation shaft 83a of the first gear 83 to indicate the rotation number of the cylindrical roller 821 and the rotational axis 84a, the number of rotations of the first needle 85 is displayed by engaging the rotation number indicating plate 87 and the second needle 86. [

That is, the first gear 83 and the second gear 84 are engaged and rotated, and the gear ratio is 1:10, so that when the first gear 83 makes one rotation, the second gear 84 rotates 1/10. Therefore, when the first needle 85 fitted to the rotary shaft 83a of the first gear 83 makes one rotation, the second needle 86 rotates by 1/10.

The tip of the first needle 85 indicates the first graduation 85a indicated along the circumference of the revolution number plate 87 to indicate the rotation angle of the first needle 85, The second needle 86 inserted into the rotation shaft 84a of the rotation number display panel 87 is inserted into a small number of circles (for example, a circle having a radius equal to or less than 1/2 of the radius of the rotation number plate 87) And indicates the number of revolutions of the first needle 85 or the number of revolutions of the toothed revolving reel 82 by indicating the second scale 86a to be displayed.

When the second needle 86 indicates the number (for example, 3) of the second scale 86a of the revolution number plate 87 as in the previous embodiment, if the circumference of the sawtooth rotation reel 82 is 20 cm The land surface on which the cover plate 55 is fixed is moved and the length from the measurement cable fixed terminal 20 installed at 3 m below the ground to the cover plate 55 is 20 cm x 3 = 60 cm.

FIG. 6 shows another embodiment of the tension providing unit according to the present invention, and FIG. 7 shows an embodiment in which the tension providing apparatus of another embodiment is applied to the apparatus for measuring a ground deformation amount according to the present invention.

The tension providing unit 75 of the present embodiment includes a tension rotating reel 751 that is wound around the measuring cable 40 and rotates according to the elongation of the measuring cable 40; A rotation shaft 752 fixedly coupled to the fixing plate 754 by rotation of the tension rotary reel 751 by a coupling screw 751a to provide a rotation center; A tension spring 753 fixed to the fixing plate 754 and providing a tension in accordance with rotation of the rotation shaft 753; And a fixing plate 754 for fixing the rotation shaft 752 and the tension rotation reel 751 to the floor.

The tension rotating reel 751 is rotated in the direction in which the tension rotating reel 751 is unwound (for example, counterclockwise) when the measuring cable 40 is wound and the measuring cable 40 is stretched do. That is, the measuring cable 40 wound on the tension rotating reel 751 is unwound by a length corresponding to the stretched length.

A rotation shaft 752 is inserted into the center of the tension rotation reel 751 and is engaged and fixed by a coupling screw 751a so that the tension rotation reel 751 rotates about the rotation shaft 752. The rotation shaft 752 is rotatably fixed to the fixing plate 754 so that the tension rotating reel 751 is rotated in the direction in which the tension rotating reel 751 is unwound around the rotation shaft 752 Turn it.

Since the center end of the tension spring 753 is fixed to the lower portion of the rotary shaft 751 and the other end of the circumference is fixed to the fixing plate 754, when the measuring cable 40 is moved toward the measuring cable fixing end 20 That is, when the distance between the measuring cable 40 and the measuring cable fixing end 20 is reduced, the measuring cable 40 is loosened so that the tension spring 753 is wound and the rotating shaft 751 is wound around the tension spring 753 (For example, counterclockwise).

Conversely, when the measuring cable 40 is moved away from the measuring cable fixing end 20, that is, when the distance between the measuring cable 40 and the measuring cable fixing end 20 increases, the measuring cable 40 becomes stretched, The rotation shaft 751 is rotated in a direction in which the tension spring 753 is loosened (for example, counterclockwise), so that the tension spring 753 is loosened to provide tension.

Therefore, the tension providing unit 75 always pulls or unscrews the measuring cable 40 as the floor (ground) on which the holding plate 754 is fixed, and always pulls it tight.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

10: outer pipe 20: measuring cable fixing end
30: inner pipe 40: measuring cable
50: cover plate 60, 71: cable stretching display section
61: rotation reel 62:
63: driven gear 64: indicator needle
70, 75: tension supply unit 72: graduation
73: measuring needle 81: cable guide tube
82: sawtooth rotation reel 83: first gear
84: second gear 85: first needle
86: second needle 87: rotation number display panel

Claims (8)

An outer pipe embedded in the ground such as soil, rock, or tunnel;
A measuring cable fixing part connected to a lower end of the outer pipe and embedded in the ground to fix the measuring cable;
An inner pipe inserted into the outer pipe;
A measurement cable connected to the measurement cable fixing end and led out to the outside through a cover plate;
A cover plate fixed to the ground to cover the outer pipe and attached to the inner pipe;
A rotating gear which is installed so that the number of rotations is proportional to the length of elongation of the measuring cable; a driving gear which rotates together with the rotation of the rotating reel; and a rotation number indicating plate which displays the number of rotations of the driving gear A driven gear rotatably engaged with the driven gear and rotated by being coupled to a shaft of the driven gear to extend and retract the measuring cable in accordance with the elongation and contraction of the measuring cable, A display unit;
And a tension providing unit for pulling the other end of the measuring cable that is drawn out through the cable stretching and displaying unit to provide tension so as to be held tight,
The tension providing unit includes: a tension rotating reel that rotates in accordance with the elongation of the measuring cable; A rotary shaft fixedly coupled to the fixed plate so as to rotate and to provide a rotation center by being coupled and fixed to the tension rotary reel by a coupling screw; A tension spring fixed to the fixing plate and providing a tension in accordance with rotation of the rotation shaft; And a fixing plate for fixing the rotary shaft and the tension rotary reel to the floor. The method according to claim 1,
Wherein the inner pipe and the outer pipe are polygons having a rectangular, pentagonal, hexagonal, hexagonal, or hexagonal shape. 3. The method according to claim 1 or 2,
Wherein the cover plate is attached by the inner pipe and the engaging means, and when the cover plate is moved, the inner pipe moves together, and the measuring cable passing through the inner pipe also extends while moving. delete delete An outer pipe embedded in the ground such as soil, rock, or tunnel;
A measuring cable fixing part connected to a lower end of the outer pipe and embedded in the ground to fix the measuring cable;
An inner pipe inserted into the outer pipe;
A measurement cable connected to the measurement cable fixing end and led out to the outside through a cover plate;
A cover plate fixed to the ground to cover the outer pipe and attached to the inner pipe;
A cable guide tube extending from the inner pipe and protruding from the cover plate to a predetermined length and being bent horizontally; A sawtooth rotation reel in which a measuring cable drawn out from the cable guide tube is wound to rotate according to the elongation of the measuring cable and toothed at an upper end thereof; A first gear that rotates in engagement with the teeth of the sawtooth rotation reel; A second gear having a gear ratio to rotate together as the first gear rotates; A first needle attached to a rotation axis of the first gear; A second needle attached to the rotation shaft of the second gear; And a second scale for indicating the number of revolutions of the second needle and a first scale that is fitted to the rotation axis of the first gear and the rotation axis of the second gear and that displays the number of revolutions of the first needle, A cable stretching display portion including a cable stretching portion;
And a tension providing unit for pulling the other end of the measuring cable that is drawn out through the cable stretching and displaying unit and pulling the other end of the measuring cable to provide a tensile force so that the tension is maintained. The method according to claim 6,
Wherein the sawtooth rotation reel is laid on the cover plate and is wound with the measuring cable; A gear wheel provided integrally with the cylindrical roller at an upper end of the cylindrical roller; A roller rotating shaft which rotatably supports the cylindrical roller; And a rotating shaft support for supporting the roller rotation shaft. delete

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