KR102603773B1 - Shaft for internal support of the tube - Google Patents

Abstract

The present invention relates to a shaft for supporting the inside of a pipe that can support the inside of a pipe with equal force by allowing the lug supporting the inside of the pipe to evenly protrude from the body.
The shaft for supporting the inside of a pipe according to the first embodiment of the present invention has a body 10 that is open at both ends and has lug holes 11 penetrating at regular intervals on the surface, and is coupled and fixed to one end of the body 10. A support stopper (20), a fixed stopper (30) coupled and fixed to the other end of the body (10), and a thread (41) on the surface are formed symmetrically with respect to the central part, and one end is the support stopper (20). A rotating shaft (40) that is coupled to rotate in the rotation and the other end of which extends outward through the fixing stopper (30), a rotating handle (50) that rotates the rotating shaft (40), and a plate located on the upper part of the rotating shaft (40). A lug 61 protruding along the lug hole 11 of the body 10 is formed on the upper surface, and a tapered support surface 62 with a diameter decreasing downward is formed at both ends, and the surface has a A plurality of lifting parts 60 are formed with grooves 63 into which the restoration part, which will be described later, is formed, and are located below the support surface 62 of the lifting parts 60 and along the rotating axis 40 by rotation of the rotating axis 40. A conveying part 70 that moves in the forward and backward direction raises the lifting part 60 and protrudes the lug 61 through the lug hole 11 of the body 10, and the lifting part 60 has elasticity and improves the rotation axis. It includes a restoration part 80 that is installed in a circular shape along the grooves 63 of the elevating parts 60 to receive force in the direction (40) and provides a restoring force.

Description

Shaft for internal support of the tube}

The present invention relates to a shaft for supporting the inside of a pipe, and more specifically, to a shaft for supporting the inside of a pipe that can support the inside of a pipe with equal force by allowing the lugs supporting the inside of the pipe to evenly protrude from the body.

Generally called a hollow core material, it is an axial material with a hole formed in its inner center, which provides a central hole when winding sheet-like products such as printing paper, laminate, non-woven fabric, metallic foil, various tapes and films, and vinyl paper. It is a product.

Then, the hollow core material is mounted on a winding device and rotates at a constant speed to wind the sheet-shaped product around its outer circumferential surface. At this time, since the hollow core material cannot rotate on its own, it is fixed through a shaft when mounted on a slitter, etc. Due to this, the shaft has a structure that allows the hollow core material to be detachably fixed.

The air shaft of Korean Patent No. 10-1499638 has a rubber tube installed inside the pipe-type body, a plurality of lugs that can protrude outward are installed between the pipe-type body and the rubber tube, and one of the support shafts on both sides The support shaft was equipped with an air valve that could inject and remove air.

As such, because the air shaft supplies air to a rubber tube, there is a problem in that the lugs do not protrude evenly throughout the pipe-type body.

Korean Patent No. 10-1499638 (2015.03.02)

The problem to be solved by the present invention is to provide a shaft for supporting the inside of a pipe that can support the inside of the pipe with equal force by allowing the lug supporting the inside of the pipe to evenly protrude from the body.

The shaft for supporting the inside of a pipe according to the first embodiment of the present invention has a body 10 that is open at both ends and has lug holes 11 penetrating at regular intervals on the surface, and is coupled and fixed to one end of the body 10. A support stopper (20), a fixed stopper (30) coupled and fixed to the other end of the body (10), and a thread (41) on the surface are formed symmetrically with respect to the central part, and one end is the support stopper (20). A rotating shaft (40) that is coupled to rotate in the rotation and the other end extends outward through the fixing stopper (30), a rotating handle (50) that rotates the rotating shaft (40), and a plate located on the upper part of the rotating shaft (40). A lug 61 protruding along the lug hole 11 of the body 10 is formed on the upper surface, and a tapered support surface 62 with a diameter decreasing downward is formed at both ends, and the surface has a A plurality of lifting parts 60 are formed with grooves 63 into which the restoration part, which will be described later, is formed, and are located below the support surface 62 of the lifting parts 60 and along the rotating axis 40 by rotation of the rotating axis 40. A conveying part 70 that moves in the forward and backward direction and raises the lifting part 60 to protrude the lug 61 through the lug hole 11 of the body 10, and the lifting part 60, which has elasticity, has an improved rotation axis. It is characterized by including a restoration part 80 that is installed in a circular shape along the grooves 63 of the elevating parts 60 to receive force in the direction (40) and provides a restoring force.

Preferably, the support stopper 20 has a fixing groove 21 formed in the center of the inner surface extending into the body 10, in which the rotation axis 40 is rotatably fixed, and the fixation stopper 30 penetrates the center. It is characterized in that a hole 31 is formed.

Preferably, the rotation axis 40 has one end coupled to the fixing groove 21 of the support stopper 20 so as to rotate, and the other end extends to the outside of the body 10 through the through hole 31 of the fixation stopper 30. , the rotation handle 50 is characterized in that it is formed at the other end of the rotation shaft 40.

Preferably, the transfer unit 70 has a cylindrical shape and a tapered surface with the same inclination as the support surface 62 of the lifting unit 60, and a sliding groove 71 into which the support surface 62 is inserted is formed on the surface. It is characterized in that a fastening hole 72 with a screw thread 41 formed on the surface is formed in the center so as to be moved along the rotation axis 40.

Preferably, it further includes an elastic spring 90 positioned between the transfer units 70 and surrounding the rotation axis 40.

In addition, the shaft for supporting the inside of a pipe according to the second embodiment of the present invention has a body 110 that is open at both ends and has lug holes 111 formed at regular intervals on the surface, and a body 110 at one end and the other end of the body 110. An air cylinder that is located inside the cover portion 120 and the body 110, which is coupled and fixed, protrudes the cylinder rod 132 a certain distance when supplied with air, and contracts the cylinder rod 132 a certain distance when the air is removed. (130), a plate-shaped upper surface is formed with a lug 141 protruding along the lug hole 111 of the body 110, and a tapered support surface 142 at both ends of which the diameter decreases in the downward direction. is formed, and a plurality of lifting parts 140 are formed on the surface with grooves 143 into which the restoration part 160, which will be described later, is fastened, and a cylinder rod 132 located below the support surface 142 of the lifting part 140. ) is fastened and moves forward and backward along the cylinder rod 132 to raise the elevating part 140 to protrude the lug 141 through the lug hole 111 of the body 110 and the elastic transport part 150. It is characterized in that it includes a restoration part 160 that is installed in a circular shape along the grooves 143 of the elevating parts 140 so that the elevating part 140 receives force in the direction of the improved air cylinder 130 to provide a restoring force. Do it as

Preferably, the air cylinder 130 includes a cylinder body 131 supplied with air, a cylinder rod 132 that protrudes from the front and rear centers of the cylinder body 131 and moves in the front and rear directions, and a cylinder rod 132. It is provided with an air supply unit 133 that receives air from the air supply pipe 122 so that it moves forward and backward, and is characterized as a two-way air cylinder 130 in which cylinder rods 132 are formed at both ends of one body 110. Do it as

Preferably, the transfer unit 150 has a cylindrical shape and a tapered surface with the same inclination as the support surface 142 of the lifting unit 60, and a sliding groove 151 into which the support surface 142 is inserted is formed on the surface. It is characterized in that a fastening hole 152 is formed on the inner surface into which the cylinder rod 132 is inserted and fastened.

The shaft for supporting the inside of the pipe of the present invention has the effect of supporting the inside of the pipe with equal force because the lug supporting the inside of the pipe protrudes evenly from the body.

Figure 1 is a perspective view of a shaft for supporting the inside of a pipe according to a first embodiment of the present invention.
Figure 2 is an exploded perspective view of a shaft for supporting the inside of a pipe according to the first embodiment of the present invention.
Figure 3 is a cross-sectional view of the process in which the lug protrudes from the shaft for supporting the inside of the pipe according to the first embodiment of the present invention.
Figure 4 is a cross-sectional view showing the process of returning the lug to the original position in the shaft for supporting the inside of the pipe according to the first embodiment of the present invention.
Figure 5 is a perspective view of a shaft for supporting the inside of a pipe according to a second embodiment of the present invention.
Figure 6 is an exploded perspective view of a shaft for supporting the inside of a pipe according to a second embodiment of the present invention.
Figure 7 is a cross-sectional view of the process in which the lug protrudes from the shaft for supporting the inside of the pipe according to the second embodiment of the present invention.
Figure 8 is a cross-sectional view showing the process of returning the lug to the original position in the shaft for supporting the inside of the pipe according to the second embodiment of the present invention.

Hereinafter, a preferred embodiment of the shaft for supporting the inside of a pipe according to the present invention will be described in detail based on the accompanying drawings.

For reference, the sizes of components, thickness of lines, etc. shown in the drawings used to describe the present invention may be somewhat exaggerated for ease of understanding. In addition, the terms used in the description of the present invention are defined in consideration of the functions in the present invention, so they may vary depending on the user, operator intention, custom, etc., and the definition of terms should be based on the overall content of this specification. I will do it.

As shown in Figures 1 to 4, the shaft for supporting the inside of a pipe according to the first embodiment of the present invention has a body (10) that is open at both ends and has lug holes (11) penetrating at regular intervals on the surface. , the support stopper 20 is coupled and fixed to one end of the body 10, the fixing stopper 30 is coupled and fixed to the other end of the body 10, and the thread 41 on the surface is symmetrical with respect to the central portion. It is formed of a rotation shaft (40), one end of which is coupled to rotate on the support stopper (20) and the other end extending outwardly through the fixation stopper (30), and a rotation handle (50) for rotating the rotation shaft (40), It is located at the upper part of the rotating shaft 40, and has a plate-shaped upper surface formed with a lug 61 that protrudes along the lug hole 11 of the body 10, and both ends have a tapered shape whose diameter decreases in the downward direction. A plurality of lifting parts 60 are formed with a support surface 62, and are located below the support surface 62 of the lifting part 60 and move forward and backward along the rotation axis 40 by rotation of the rotation axis 40. Restoration that provides a restoring force so that the transfer part 70 and the lifting part 60 receive force in the direction of the rotation axis by raising the lifting part 60 to protrude the lug 61 through the lug hole 11 of the body 10. It is composed of a unit 80. In addition, it may further include an elastic spring 90 surrounding the rotation axis 40.

The body 10 has a cylindrical shape, is open at both ends, and has lug holes 11 penetrating at regular intervals on its surface. At this time, a plurality of lug holes 11 are arranged horizontally and radially in four or eight directions. A plurality of lugs 61 supporting the inner part of the tube located inside the body 10 protrude outward through the lug hole 11.

The support stopper 20 is coupled and fixed to one end of the body 10. A fixing groove 21 in which the rotation axis 40 is rotatably fixed is formed in the center of the inner surface extending into the body 10. This support stopper 20 prevents the transfer unit 70 located on one side of the body 10 from escaping to the outside.

The fixing stopper 30 is coupled and fixed to the other end of the body 10, and a through hole 31 is formed in the center. This fixing stopper 30 prevents the transfer unit 70 located on the other side of the body 10 from escaping to the outside.

The rotation shaft 40 has one end coupled to the fixing groove 21 of the support stopper 20 so as to rotate, and the other end extends to the outside of the body 10 through the through hole 31 of the fixation stopper 30, and has threads on its surface. (41) is formed symmetrically with respect to the central part. The threads 41 formed on the surface are formed in the opposite direction based on the central portion of the inside of the body 10.

The rotation handle 50 is formed at the other end of the rotation shaft 40 and rotates the rotation shaft 40 in the forward or reverse direction. Accordingly, the user can rotate the rotation handle 50 while holding it.

The lifting unit 60 is located at the upper part of the rotating shaft 40 and has a plate shape with a plurality of protruding lugs 61 formed on the upper surface to correspond to the lug holes 11 of the body 10, and both ends are directed downward. A tapered support surface 62 whose diameter decreases is formed, and a groove 63 into which the restoration part, which will be described later, is fastened is formed on the surface. A plurality of lifting units 60 are arranged radially in four or eight directions to correspond to the lug holes 11 of the body 10. When this lifting part 60 is raised by the transfer part 70, the lug 61 protrudes outward through the lug hole 11 of the body 10 to grip the inside of the pipe, and the lifting part 60 is lowered. When this is done, the lug 61 is returned to its original position inside the body 10.

The transfer unit 70 has a tapered shape with the same inclination as the support surface 62 of the lifting unit 60, is fastened to rotate on the rotation axis 40 while being in close contact with the support surface 62, and moves in the forward and backward directions along the rotation axis 40. While moving, the lifting unit 60 is transported in the vertical direction. The transfer unit 70 has a cylindrical shape and a tapered surface with the same inclination as the support surface 62 of the elevating unit 60. A sliding groove 71 into which the support surface 62 is inserted is formed on the surface, and the center has a sliding groove 71 into which the support surface 62 is inserted. A fastening hole 72 having a thread 41 formed on the surface is formed to move along the rotation axis 40.

The restoration unit 80 has elasticity and is installed in a circular shape along the grooves 63 of the elevating units 60 so that the elevating units 60 receive force in the direction of the rotation axis 40. This restoration unit 80 is preferably an elastic spring or elastic ring. Due to this restoration unit 80, the lifting unit 80 located below can also be lowered in close contact with the transfer unit 70.

The elastic spring 90 surrounds the rotation shaft 40 and is located between the transfer units 70. This elastic spring 90 is compressed when the transfer unit 70 moves inward and provides elasticity when the transfer unit 70 moves outward, allowing it to be easily moved to its original position.

The shaft for supporting the inside of the pipe according to the first embodiment of the present invention includes a handle of the rotating shaft 40 extending to the outside of the fixing stopper 30 fastened to the other end of the body 10 when holding an external pipe, etc. When rotated in one direction, the screw thread 41 of the rotation shaft 40 rotates to be centered. Accordingly, the transfer unit 70 fastened to the front and rear of the rotation shaft 40 also moves toward the center of the body 10 along the thread 41 of the rotation shaft 40, and the tapered surface of the transfer unit 70 The lifting part 60 is raised while the outer surface with the larger diameter moves inward of the support surface 62. As the lifting part 60 rises, the lug 61 of the lifting part 60 passes through the lug hole 11 of the body 10 and protrudes outward to support the inside of the pipe.

Also, when returning the lifting unit 60 to its original position, if the handle is rotated in the opposite direction, the screw thread 41 of the rotating shaft 40 rotates in the outer direction. Accordingly, the transfer unit 70 fastened to the front and rear of the rotation shaft 40 also moves to the outer portion of the inside of the body 10 along the thread 41 of the rotation shaft 40, and the tapered surface of the transfer unit 70 As the outer surface with the larger diameter moves to be positioned outside the support surface 62, the lifting unit 60 descends. As the lifting part 60 is lowered, the lug 61 of the lifting part 60 passes through the lug hole 11 of the body 10 and is returned to the inside of the body 10.

As shown in Figures 5 to 8, the shaft for supporting the inside of a pipe according to a second embodiment of the present invention includes a body 110 that is open at both ends and has lug holes 111 formed at regular intervals on the surface, The cover part 120 is coupled and fixed to one end and the other end of the body 110, and is located inside the body 110. When air is supplied, the cylinder rod 132 protrudes a certain distance, and when the air is removed, the cylinder rod ( An air cylinder 130 that contracts 132) a certain distance is formed on the upper surface in a plate shape with a lug 141 protruding along the lug hole 111 of the body 110, and the diameter of both ends decreases in the downward direction. A plurality of lifting parts 140 are formed with a tapered support surface 142, and a cylinder rod 132 is fastened while located below the support surface 142 of the lifting part 140 to move along the cylinder rod 132. The transfer unit 150 and the lift unit 140, which move in the forward and backward directions and raise the lift unit 140 to protrude the lug 141 through the lug hole 111 of the body 110, move in the direction of the air cylinder 130. It is configured to include a restoration unit 160 that provides a restoring force to receive force.

The body 110 has a cylindrical shape, is open at both ends, and has lug holes 111 penetrating at regular intervals on its surface. At this time, a plurality of lug holes 111 are arranged horizontally and radially in four or eight directions. A plurality of lugs 141 supporting the inner part of the tube located inside the body 110 protrude outward through the lug holes 111.

The cover portion 120 is coupled and fixed to one end and the other end of the body 110. At this time, a through hole 121 through which the air supply pipe 122 passes to supply air to the air cylinder 130 is formed on one side of the cover part 120.

The air cylinder 130 is located inside the body 110, and when air is supplied, the cylinder rod 132 protrudes a certain distance, and when air is removed, the cylinder rod 132 contracts a certain distance. This air cylinder 130 includes a cylinder body 131 supplied with air, a cylinder rod 132 that protrudes from the front and rear centers of the cylinder body 131 and moves forward and backward, and a cylinder rod 132 that moves forward and backward. It is provided with an air supply unit 133 that receives air from the air supply pipe 122 so as to move in the direction. At this time, it is preferable to use a two-way air cylinder 130 in which cylinder rods 132 are formed at both ends of one body 110 as the air cylinder 130.

The lifting unit 140 is located at the upper part of the rotating shaft 140 and has a plate shape with a plurality of lugs 141 protruding from the upper part to correspond to the lug holes 111 of the body 110, and both ends are directed downward. A tapered support surface 142 whose diameter decreases is formed, and a groove 143 into which the restoration part 160, which will be described later, is fastened is formed on the surface. A plurality of lifting units 140 are radially arranged in four or eight directions to correspond to the lug holes 111 of the body 110. When this lifting part 140 rises, the lug 141 protrudes outward through the lug hole 111 of the body 110 to support the inside of the pipe, and when the lifting part 140 descends, the lug 141 is returned to the inside of the body 110.

The transfer unit 150 has a tapered shape with the same inclination as the support surface 142 of the elevating unit 140, is fastened to the cylinder rod 132 while being in close contact with the support surface 142, and moves forward and backward along the cylinder rod 132. While moving, the lifting unit 140 is transported in the vertical direction. The transfer unit 150 has a cylindrical shape and a tapered surface with the same inclination as the support surface 142 of the lifting unit 60, and a sliding groove 151 into which the support surface 142 is inserted is formed on the surface. A fastening hole 152 is formed on the side into which the cylinder rod 132 is inserted and fastened.

The restoration unit 160 has elasticity and is installed in a circular shape along the grooves 143 of the elevating units 140 so that the elevating units 140 receive force in the direction of the improved air cylinder 130. This restoration unit 160 is preferably an elastic spring or elastic ring. Due to this restoration unit 160, the elevating unit 140 located below can also be lowered in close contact with the transfer unit 150.

The shaft for supporting the inside of a pipe according to the second embodiment of the present invention is such that when the air is removed from the air cylinder 130 of the gripping shaft when gripping an external pipe, etc., the cylinder rod 132 is moved to the cylinder body 131. ) It moves while contracting in the inward direction, and the transfer part 150 fastened to the cylinder rod 132 also moves to the central part inside the body 110. Accordingly, as the transfer unit 150 moves to the central portion inside the body 110 along the cylinder rod 132, the outer surface with a larger diameter among the surfaces of the tapered transfer unit 150 comes into close contact with the inside of the support surface 142. As the lifting unit 140 rises, the lug 141 passes through the lug hole 111 of the body 110 and protrudes outward to support the inside of the pipe.

In addition, when the lifting part 140 of the gripping shaft is returned to its original position, when air is supplied to the air cylinder 130, the cylinder rod 132 protrudes and moves outward from the cylinder body 131, and the cylinder rod 132 ) The transfer unit 150 fastened to ) also moves to the external part inside the body 110. Accordingly, as the transfer unit 150 moves to the outer portion of the inside of the body 110 along the cylinder rod 132, the outer surface with a larger diameter among the surfaces of the tapered transfer unit 150 is located outside the support surface 142. Therefore, the lifting unit 140 moves down. As the lifting unit 140 descends, the lug 141 of the lifting unit 140 passes through the lug hole 111 of the body 110 and returns to its original position inside the body 110.

As described above, although the present invention has been described with limited examples and drawings, the present invention is not limited thereto, and the technical idea of the present invention and the following will be understood by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalence of the claims to be described.

10: Body 11: Lug hole
20: support stopper 21: fixing groove
30: Fixing stopper 31: Through hole
40: rotation axis 41: thread
50: Rotation handle 60: Elevating part
61: Lug 62: Support surface
63: Groove 70: Transfer unit
71: Sliding groove 72: Fastening hole
80: restoration part 90: elastic spring
110: body 111: lug hole
120: cover part 121: through hole
122: air supply pipe 130: air cylinder
131: cylinder body 132: cylinder rod
133: air supply unit 140: lifting unit
141: lug 142: support surface
143: groove 150: transfer unit
151: Sliding groove 152: Fastening hole
160: restoration unit

Claims (11)

A body (10) that is open at both ends and has lug holes (11) penetrating the surface at regular intervals, a support stopper (20) coupled to and fixed to one end of the body (10), and coupled to the other end of the body (10). The fixed stopper (30) and the surface thread (41) are formed symmetrically with respect to the central part, one end of which is coupled to rotate on the support stopper (20), and the other end penetrates the fixed stopper (30) to form an external surface. A rotating shaft 40 extending to the rotating shaft 40, a rotating handle 50 that rotates the rotating shaft 40, and a body located on the upper part of the rotating shaft 40 in a plate shape and perpendicular to the upper surface of the rotating shaft 40. A lug 61 protruding along the lug hole 11 of (10) is formed, and a tapered support surface 62 with a diameter decreasing downward is formed at both ends, and a restoration part (described later) is formed on the surface. A plurality of lifting parts 60 are formed with grooves 63 in which the 80) is fastened, and are located below the support surface 62 of the lifting parts 60 and move forward and backward along the rotation axis 40 by the rotation of the rotation axis 40. A conveying part 70 that moves in the direction and raises the lifting part 60 to protrude the lug 61 through the lug hole 11 of the body 10, and the lifting part 60, which has elasticity, has a rotating axis ( An elastic spring located between the transfer unit 70 and surrounding the restoration unit 80 and the rotation axis 40, which is installed in a circular shape along the grooves 63 of the elevating units 60 to receive force in the direction 40 and provides restoring force. Including (90),
The transfer unit 70 has a cylindrical shape and a tapered surface with the same inclination as the support surface 62 of the elevation unit 60, and the surface has a sliding groove 71 into which the support surface 62 of the elevation unit 60 is inserted. ) is formed, and a fastening hole 72 with a thread 41 formed on the surface is formed in the center to move along the rotation axis 40. The shaft for supporting the inside of a pipe according to claim 1, wherein a plurality of lug holes (11) are arranged horizontally and radially. The method of claim 1, wherein the support stopper (20) has a fixing groove (21) formed at the center of the inner surface extending into the body (10) to which the rotation shaft (40) is rotatably fixed, and the fixation stopper (30) is located at the center. A shaft for supporting the inside of a pipe, characterized in that a through hole (31) is formed therein. The method of claim 1, wherein one end of the rotation shaft (40) is coupled to rotate in the fixing groove (21) of the support stopper (20) and the other end is connected to the outside of the body (10) through the through hole (31) of the fixation stopper (30). A shaft for supporting the inside of a pipe, which is extended, and the rotation handle (50) is formed at the other end of the rotation shaft (40). delete delete A body 110 that is open at both ends and has lug holes 111 formed at regular intervals on the surface, a cover part 120 that is coupled and fixed to one end and the other end of the body 110, and is located inside the body 110. When air is supplied, the cylinder rod 132 protrudes a certain distance, and when air is removed, the air cylinder 130 shrinks the cylinder rod 132 a certain distance. Located on the upper surface, a lug 141 is formed that protrudes along the lug hole 111 of the body 110, and a tapered support surface 142 whose diameter decreases in the downward direction is formed at both ends. A plurality of lifting parts 140 are formed with grooves 143 into which the restoration part 160, which will be described later, is formed, and a cylinder rod 132 is fastened to the cylinder rod 132 while located below the support surface 142 of the lifting part 140. A conveying part 150 that moves in the forward and backward direction along 132 and raises the lifting part 140 to protrude the lug 141 through the lug hole 111 of the body 110, and a lifting part (150) that has elasticity and has elasticity. 140) includes a restoration part 160 that is installed in a circular shape along the grooves 143 of the elevating parts 140 to receive force in the direction of the improved air cylinder 130 to provide a restoring force,
The air cylinder 130 includes a cylinder body 131 that receives air, a cylinder rod 132 that protrudes from the center of the front and rear of the cylinder body 131 and moves forward and backward, and a cylinder rod 132 that moves forward and backward. It is provided with an air supply unit 133 that receives air from the air supply pipe 122 so that it can be moved,
The transfer unit 150 has a cylindrical shape and a tapered surface with the same inclination as the support surface 142 of the elevation unit 60, and the surface has a sliding groove 151 into which the support surface 142 of the elevation unit 140 is inserted. ) is formed, and a fastening hole 152 is formed on the inner surface into which the cylinder rod 132 is inserted and fastened. The shaft for support inside the pipe according to claim 7, wherein a through hole 121 through which an air supply pipe 122 for supplying air to the air cylinder 130 passes is formed on one side of the cover portion 120. delete The shaft for supporting the inside of a pipe according to claim 7, wherein the air cylinder (130) is a two-way air cylinder (130) in which cylinder rods (132) are formed at both ends of one body (110). delete

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