KR20090087637A - Friction core - Google Patents

Abstract

A friction core is provided to fix a branch pipe securely by protruding a ball moving along the guide surface of a cylindrical core body by rotating a cylindrical holder. A friction core comprises a cylindrical core body(100), a cylindrical holder(200) and a snap ring(300). The cylindrical core body is formed of a first stepped projection(110), a second stepped projection(120) and a third stepped projection(130). On the first stepped projection, an eccentric guide groove(112) which a ball(400) is inserted into is formed. The second stepped projection is projected from the front side of the first stepped projection to the inner side. The third stepped projection is projected from the rear side of the first stepped projection to the outer side. The cylindrical holder surrounds the external circumference of the first stepped projection and is mounted on the third stepped projection. The snap ring is fixed to a recessed groove formed on the second stepped projection. The snap ring couples the body and the holder to be integrated.

Description

Friction Core {Friction Core}

The present invention relates to a friction core, and more particularly, to a friction core capable of pressing and fixing a winding paper tube for winding a film or a paper.

Generally, when winding up various raw materials, such as film or film, the raw material is wound in a cylindrical paper tube.

As described above, when winding the raw material such as fabric or film paper into the paper pipe, the paper pipe is inserted into the winding roller shaft to be wound in a fixed state to prevent slippage.

The fixing of the branch pipe has been disclosed in various ways, but by using a double pneumatic pressure to lug the lug (LUG) by the air pressure in the radial direction of the take-up roller shaft to press-fix or lock the outer branch pipe.

Figure 1 shows a conventional branch pipe fixing device using the air pressure.

In detail, the tube body 10 forming the air supply path 11 is inserted into the cylindrical winding roller shaft 5, and the outer periphery of the winding roller shaft 5 has a circumferential shape and a length. The operation hole 6 is formed in the direction, and the air injection hole 12 is formed in the tube body 10 at the position of the operation hole 6.

At this time, the lug 20 is inserted into the operating hole 6 so that the lug 20 is released by the air pressure, the lug 20 bisects the central portion to form the upper, lower assembly (21) (22), The lower assembly (21) (22) is formed by inserting the pin insertion hole (24) on both sides to be assembled by inserting the protruding pin (25) from the bottom to the top to protrude the tip.

In addition, the lug 20 is assembled with the engaging plate 30 to form a width larger than the respective operation hole 6 of the winding roller shaft 5 inward.

The conventional paper tube fixing device inserts the paper tube to the outside of the winding roller shaft 5, and when the air pressure is injected into the air supply path 11 of the inner tube body 10, the air pressure is the tube body 10 It is injected through each air injection hole 12 of the) acts on the support plate 30 of the lower lug 20 to press the lug 20 in the outward direction.

As such, the lug 20 pressurized in the outward direction by the air pressure emerges from the operation hole 6, and the protruding pin 25 at its tip presses and fixes the branch pipe 2.

On the contrary, if the air pressure supplied to the air supply passage 11 of the tube body 10 is removed, the pressing force pushing the lug 20 outward is removed to release the fixing of the branch pipe 2.

In this case, the lug 20 may be connected to the lug 20 and the winding roller shaft 5, although not shown in the drawing, so that the lug 20 may be smoothly floated by the air pressure.

However, the conventional paper tube fixing device has a problem in that the tip portion of the protruding pin 25 is worn due to prolonged use, so that the paper tube 2 cannot be fixed securely.

In addition, since the lug 20 can be buried only by inserting the tube body 10 forming the air supply passage 11 to inject air pressure, it takes a lot of time and money to fix the branch pipe 2. There is a problem.

In order to solve the problems of the prior art as described above, an object of the present invention is to provide a friction core that can be fixed by pressing the branch pipe through the ball by rotating the cylindrical holder.

In order to achieve the above object, the present invention provides a friction core for fixing a winding paper tube for winding a film or a paper, etc., the first step of which a plurality of eccentric guide grooves are formed so that a ball having a predetermined size is inserted in the outer circumference. And a cylindrical core body which protrudes inwardly from the front of the first step, a second step of which a groove is formed along an outer circumference, and a third step of protruding outward from a rear of the first step; A position corresponding to the eccentric guide groove on the outer circumferential edge so as to surround the outer circumferential edge of the first step, seated on the third step, and the ball inserted into the eccentric guide groove formed on the first step without being released A cylindrical holder is formed in the cylindrical holder coupled to the body to be rotated at a predetermined angle; And a snap ring fitted into a recess formed in the second step, and coupled to unite the body and the holder.

In addition, the eccentric guide groove provides a friction core, characterized in that the height difference is formed at both ends are different depths.

In addition, the eccentric guide groove provides a friction core, characterized in that both sides of the guide surface in contact with the ball made of a curved surface in contact with the ball.

In addition, the through groove provides a friction core, characterized in that both sides in contact with the ball made of a curved surface in contact with the ball.

As described above, the friction core according to the present invention by rotating the cylindrical holder to the maximum protruding ball moving along the guide surface of the cylindrical core body, there is an effect that can be made more firmly fixed of the branch pipe. .

In addition, the friction core according to the present invention is simply configured, there is an effect that is easy to disassemble and assemble.

Hereinafter, a friction core according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is an exploded perspective view of the friction core according to the present invention, Figure 3 is a perspective view of the combination of the friction core according to the present invention, Figure 4 is a longitudinal cross-sectional view of the friction core according to the present invention.

2 to 4, the friction core according to the present invention includes a cylindrical core body 100, a cylindrical holder 200, and a snap ring 300.

The cylindrical core body 100 has a first step 110 in which a plurality of eccentric guide grooves 112 are formed to insert a ball 400 having a predetermined size in an outer circumference thereof, and an inner side in front of the first step 110. Protruded to a second step 120 which is formed with a groove 122 along the outer circumference, and a third step 130 protruding outward from the rear surface of the first step 110. Here, the eccentric guide groove 112 is formed at a predetermined interval and a predetermined depth in the outer peripheral edge.

The cylindrical holder 200 is seated on the third step 130 while surrounding the outer periphery of the first step 110, and is inserted into the eccentric guide groove 112 formed in the first step 110 ( A through groove 210 is formed at a position corresponding to the eccentric guide groove 112 at the outer periphery so that the 400 is exposed to the outside without being separated, and is rotatably coupled to the body 100 at a predetermined angle.

The snap ring 300 is fitted into the recess 122 formed in the second stepped portion 120 and couples the body 100 and the holder 200 to be integrated. The snap ring 300 is formed of an elastic material, the opening 310 formed on one side is opened to the left and right to fit into the groove 122.

5 is a side view showing a cylindrical core body 100 according to the present invention.

In the cylindrical core body 100 of the present invention, both ends of the eccentric guide groove 112 are formed at different depths, and a height difference is generated. By the height difference, the ball 400 accommodated in the eccentric guide groove 112 protrudes out of the body 100 or is recessed into the body 100.

In addition, the eccentric guide groove 112 is formed of a curved surface so that both edges 115 and 116 of the guide surface 114 in contact with the ball 400 contact with the ball 400. At this time, the radius of curvature of the curved surface is preferably formed to be the same as the radius of the ball 400. Due to this round structure, when the ball 400 is caught by the edge 116, it is possible to protrude a portion of the ball 400 to the outside of the body 100 as much as possible.

6 is a side view showing a cylindrical holder 200 according to the present invention.

The through groove 210 of the cylindrical holder 200 of the present invention has a curved surface such that both side surfaces contacting the ball 400 are in contact with the ball 400. In this case, the curved surface is preferably formed to be narrower from the inner side to the outer side. Due to this round structure, the ball 400 can be prevented from being separated.

7 and 8 are side cross-sectional views showing the operating state of the present invention.

7 and 8, the operating state of the friction core of the present invention will be described.

In the initial state that the friction core of the present invention is coupled, that is, the branch pipe (not shown) is wound to the outside of the holder 200 in FIG. 7. When the branch pipe is rotated, the holder 200 supporting the branch pipe is rotated to rotate the ball 400 positioned in the eccentric guide groove 112 at a predetermined angle. The ball 400 moves toward the second edge 116 from the first edge 115 of the guide surface 114 while rolling along the guide surface 114. When the ball 400 is positioned in the second corner 116, the ball 400 protrudes out of the through groove 210 of the holder 200 by the height difference of the eccentric guide groove 112. At this time, the ball 400 is firmly fixing the branch pipe while pressing the branch pipe.

As described so far, the friction core of the present invention rotates the cylindrical holder 200 to maximize the ball 400 moving along the guide surface 114 of the cylindrical core body 100, thereby fixing the branch pipe. There is an advantage that can be made more robust.

While the invention has been described in detail in the foregoing embodiments, it will be apparent to those skilled in the art that various modifications and variations are possible within the spirit of the invention, and such modifications and variations belong to the appended claims.

1 is a view showing a conventional friction core.

2 is an exploded perspective view of a friction core according to the present invention.

3 is a perspective view of the combination of the friction core according to the present invention.

4 is a longitudinal sectional view of a friction core according to the present invention.

5 is a side view showing a cylindrical core body according to the present invention.

6 is a side view showing a cylindrical holder according to the present invention.

7 and 8 are side cross-sectional views showing the operating state of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: body 110: first step

112: eccentric guide groove 120: second step

122: groove 130: third step

200: holder 210: through groove

300: snap ring 310: opening

400: ball

Claims (4)

In the friction core for fixing the winding tube for winding the film or paper, A first step of which a plurality of eccentric guide grooves are formed to insert a ball having a predetermined size into the outer periphery, a second step of which protrudes inward from the front of the first step, and a groove is formed along the outer periphery of the first step; A cylindrical core body consisting of a third step projecting outward from the rear of the first step; A position corresponding to the eccentric guide groove at the outer circumference so as to surround the outer periphery of the first step and seated on the third step, and the ball inserted into the eccentric guide groove formed in the first step is exposed to the outside without departing. A cylindrical holder is formed in the cylindrical holder coupled to the body to be rotated at a predetermined angle; And A snap ring fitted into a recess formed in the second step, for coupling the body and the holder to be integrated; Friction core, characterized in that configured to include. The method of claim 1, The eccentric guide groove is a friction core, characterized in that the height difference is formed at both ends are different depths. The method of claim 1, The eccentric guide groove is a friction core, characterized in that both sides of the guide surface in contact with the ball made of a curved surface in contact with the ball. The method of claim 1, The through groove is a friction core, characterized in that both sides in contact with the ball is made of a curved surface in contact with the ball.

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