KR102323977B1 - Core for holding Paper Pipe - Google Patents

Abstract

The present invention relates to a core for a paper tube holder, capable of fixing a paper tube on which a fabric sheet, a packing paper, a vinyl sheet a secondary battery electrode roll, or the like is wound. The core for a paper tube holder includes: a body formed into a ring shape, having a first length groove of a predetermined length and an inclined groove, of which the depth of a bottom surface becomes deeper while becoming closer to one side, in one side part of an outer circumference, having a concave groove formed along a circumference in the other side part of the outer circumference, and having a first flange formed in one end part of the outer circumference; a ball housed in the first length groove; a pressing roller housed in the inclined groove; a body cover having an outer diameter smaller than the first flange, surrounding the outer circumference of the body, having one end part in which a first ball fixing groove into which the ball is inserted and a pressing roller groove into which the pressing roller is inserted are formed, and having the ball fixing groove and the pressing roller groove blocked by the first flange; and a snap ring having a cut part formed on one side, and inserted into the concave groove to support the body cover. Therefore, the present invention is capable of simplifying a structure and winding a material on a paper tube at a constant speed.

Description

Core for holding Paper Pipe}

The present invention relates to a core for a paper tube holder for fixing a paper tube on which textile paper, wrapping paper, vinyl paper, or a secondary battery electrode roll is wound.

In general, a paper tube is also called a hollow core material, and is a shaft-shaped material with a hole formed in the inner center thereof. product is provided.

Then, the paper tube is mounted on a winding facility, rotates at a constant speed, and winds the sheet-like product on its outer circumferential surface. At this time, since the paper tube cannot be rotated by itself, it is fixed through a core for a paper tube holder when it is mounted on a slitter or the like, whereby the core has a structure in which the paper tube is detachable and fixed.

In the conventional core, the slip between adjacent cores is controlled by the force of compressed air supplied from the center direction, and the tension is controlled by compressing the paper tube by a lug that protrudes from the core and presses the paper tube. It was easy to use in water, but there is a problem in that it cannot be used in a winding that requires low tension.

That is, in order to control the slip of the core with the pressure of the compressed air supplied to the center of the shaft, high pressure compressed air must be supplied, and the high pressure compressed air also raises the lug to compress the paper tube, so the tension of the paper tube is high. It can only be tension.

Republic of Korea Registered Utility Model No. 20-0368591

Therefore, the present invention is to solve the above problems, so that a winding material requiring low tension can be easily wound, a plurality of cores can be rotated in different directions, and the structure is not complicated and is for a simple paper tube holder There is a great purpose of providing the core.

The technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those of ordinary skill in the art to which the present invention belongs from the following description. will be able

The core for the paper tube holder of the present invention for achieving the above object is formed in a ring shape, and a first length groove of a predetermined length and an inclined groove in which the depth of the bottom surface becomes deeper toward one side is formed on one side of the outer periphery, , The other side of the outer periphery is a groove is formed along the circumference, one end of the outer periphery body is formed with a first flange;

a ball accommodated in the first length groove;

a pressure roller accommodated in the inclined groove;

The outer diameter is formed with a smaller radius than the first flange, surrounds the outer periphery of the body, and at one end, a first ball fixing groove into which the ball is inserted and a pressing roller groove into which the pressing roller is inserted are formed, the first a body cover in which the ball fixing groove and the pressure roller groove are blocked by a first flange; and

and a snap ring having a cutout formed on one side and fitted into the groove to support the body cover.

In addition, the present invention is formed in a radius smaller than the inner diameter of the body cover at the other end of the outer periphery of the body, the ball inlet groove for guiding the ball to the second ball fixing groove or the second length groove is formed on the outer periphery, , a second flange for supporting the snap ring; includes.

In addition, the present invention, a ring-shaped seating groove formed on the side of the body; and a thrust bearing having a plurality of rotating rollers therein and inserted into the seating groove.

In addition, the present invention, a stepped portion formed on the inner periphery of the body; and a ball bearing seated on the stepped portion.

The core for a paper tube holder according to the present invention has the following effects.

The pressure roller provided in the inclined groove of the body protrudes to the outside of the body cover according to the rotation of the body and presses the inner periphery of the paper tube, thereby maintaining a certain tension and being fixed to the paper tube, and can rotate with the paper tube constantly. can have an effect.

In addition, the winding material requiring low tension can be easily wound on the paper tube, and a number of continuous cores can be rotated fluidly, the structure is not complicated and simple, and the winding material is wound on the paper tube at a constant speed. can have an effect.

1 is a schematic view of a core for a paper tube holder according to the present invention;
2 and 3 are exploded views of a core for a paper tube holder according to the present invention;
4 and 6 are diagrams showing internal and external configurations according to the operating state of the core according to the present invention.
7 is a side view showing a state in which the core of the present invention is continuously provided;
8 to 10 are exploded views, schematic views and cross-sectional views of a core for a paper tube holder provided with a ball bearing on the inner periphery.

The embodiments to be described below are intended to describe in detail enough to be easily practiced by those of ordinary skill in the art to which the present invention pertains, thereby limiting the technical spirit and scope of the present invention. doesn't mean

In addition, the size or shape of the components shown in the drawings may be exaggerated for clarity and convenience of explanation, and the terms specifically defined in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user or operator. It should be noted that definitions of these terms should be made based on the content throughout this specification.

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

The present invention is formed in a ring shape, and a first longitudinal groove 111 of a predetermined length and an inclined groove 120 whose bottom surface becomes deeper toward one side are formed on one side of the outer periphery, and the other side of the outer periphery There is a groove 130 is formed along the circumference, one end of the outer periphery of the body 100 is formed with a first flange 141; a ball (1) accommodated in the first length groove (111); a pressure roller (2) accommodated in the inclined groove (120); A first ball fixing groove 211 and a pressure roller ( 2) the body cover 200 into which the pressure roller groove 220 is inserted, the first ball fixing groove 211 and the pressure roller groove 220 are blocked by the first flange 141; and a snap ring 300 having a cutout 310 formed on one side and fitted in the recess 130 to support the body cover 200 .

In addition, the present invention, the second length groove 112 formed to correspond to the first length groove 111 in the other side of the outer periphery of the body 100; And formed to correspond to the first ball fixing groove 211 at the other end of the body cover 200, before the snap ring 300 is fitted into the recess 130, the ball 1 is inserted into and a second ball fixing groove 212 that is seated in the second length groove 112 and is blocked by the snap ring 300 after the ball 1 is inserted therein.

In addition, the present invention is formed with a radius smaller than the inner diameter of the body cover 200 at the other end of the outer periphery of the body 100, and the ball 1 is formed in the second ball fixing groove 212 or the second length. and a second flange 142 in which the ball inlet groove 142a guides to the groove 112 is formed on the outer periphery.

1 to 3, the present invention is a core for a paper tube holder that is inserted into the paper tube (not shown) and coupled to or separated from the paper tube, is formed in a ring or cylindrical shape, and the pressure roller 2 is Body 100 provided on the outer periphery; It surrounds the outer periphery of the body 100, the ball 1 and the pressure roller 2 are accommodated therein and supported, and the pressure roller 2 protrudes outward by the rotation of the body 100, and the branch pipe Body cover 200 for pressing the inner periphery of; and a snap ring 300 for supporting the body cover 200 not to be separated from the body 100 .

The body 100 is formed in a ring or cylindrical shape, and a first longitudinal groove 111 and a second longitudinal groove 112 having a predetermined length in the circumferential direction are spaced apart by a predetermined distance from one side and the other side of the outer periphery. is formed

The first length groove 111 and/or the second length groove 112 may be formed in plurality at least one on the outer periphery of the body 100 or spaced apart at regular intervals along the circumference, and positioned side by side on the outer periphery or may be formed at different locations.

In addition, an inclined groove 120 whose bottom surface gradually becomes deeper in one direction is formed on the outer periphery of the body 100 , and the inclined groove 120 is formed between the first longitudinal grooves 111 in the circumferential direction. do.

The first longitudinal groove 111 and/or the second longitudinal groove 112 may also be formed as an inclined surface in which the depth of the bottom surface increases in one direction.

In addition, the body 100, the first flange 141 is formed at one end or one edge portion of the outer periphery, the other end or the other edge portion of the outer periphery is smaller than the radius of the first flange 141 A second radial flange 142 is formed. A ball inlet groove 142a through which the ball 1 can pass is formed on the outer periphery of the second flange 142, and the ball enters the second length groove 112 through the ball inlet groove 142a. It can be easily inserted.

And in the outer periphery of the body 100, the groove 130 is formed along the circumference of the body 100 between the second length groove 112 and the second flange 142.

A ball 1 is inserted into the first length groove 111 and the second length groove 112 , and a pressure roller 2 in contact with the inner periphery of the paper tube is inserted and accommodated in the inclined groove 120 . Therefore, the ball 1 moves inside the first longitudinal groove 111, and the pressure roller 2 moves inside the inclined groove 120, and in particular, the pressure roller 2 moves in the inclined groove ( When moving inside the 120, the depth of the bottom surface of the inclined groove 120 gradually protrudes to the outside of the body 100 while moving and rising from a deep place to a shallow place.

In addition, one side of the open first longitudinal groove 111 and one side of the inclined groove 120 are blocked by the first flange 141 .

And a ring-shaped seating groove 150 is formed on one side of the body 100, preferably on the side in the direction in which the second flange 142 is formed, and a plurality of rotating rollers ( A thrust bearing (151, thrust bearing) having 151a) is inserted.

The seating groove 150 may be formed on both sides of one side and the other side of the body 100 , and a thrust bearing 151 may be accommodated in the seating groove 150 , respectively.

Meanwhile, the body cover 200 is rotatably provided on the outer periphery of the body 100 .

The body cover 200 is formed in a ring shape, the outer diameter is formed equal to or smaller than the outer diameter of the first flange 141, the inner diameter is formed larger than the outer diameter of the second flange 142, the second The body 100 is inserted into the inside while moving through the flange 142 and caught on the first flange 141 , thereby surrounding the outer periphery of the body 100 . That is, the body cover 200 has a direction of one end of the body 100 in which the first flange 141 is formed at the other end of the body 100 in which the second flange 142 of the body 100 is formed. is inserted to surround the outer periphery of the body 100 .

In addition, the body cover 200 has a first ball fixing groove 211 and a second ball fixing groove 212 corresponding to the first length groove 111 and the second length groove 112 at one end and It is formed at the other end, and the pressure roller groove 220 corresponding to the inclined groove 120 is formed.

And in the first ball fixing groove 211 and the second ball fixing groove 212, the ball 1 accommodated in the first length groove 111 and the second length groove 112 is inserted and fixed so as not to fall out, The pressure roller 2 accommodated in the inclined groove 120 is inserted into the pressure roller groove 220 and is supported and fixed so as not to fall out.

Looking at the coupling sequence of the present invention, the ball 1 is inserted into the first length groove 111 , and the pressure roller 2 is inserted into the inclined groove 120 . Then, the outer periphery of the body 100 is wrapped around the body cover 200 . At this time, the ball 1 is inserted into the first ball fixing groove 211 in the state accommodated in the first length groove 111 , and the pressing roller 2 is accommodated in the inclined groove 120 , the pressing roller groove It is also inserted into 220, and the open end of the first ball fixing groove 211 in which the ball 1 is disposed and the pressing roller groove 220 in which the pressing roller 2 is disposed is the first It is blocked by a flange 141 .

In a state in which the body cover 200 surrounds the outer surface of the body 100, and the ball 1 and the pressure roller 2 are accommodated in the first ball fixing groove 211 and the pressure roller groove 220, respectively, the The ball 1 is inserted into the second ball fixing groove 212 of the body cover 200, and the ball 1 is accommodated in the second ball fixing groove 212 and seated in the second length groove 112 at the same time. to be accepted Then, a snap ring 300 to be described later is inserted into the groove 130 of the body 100 to block the second length groove 112 .

The snap ring 300 has an inner diameter smaller than the outer diameter of the second flange 142, and a cutout 310 is formed on one side so that both ends of the cutout can be opened. 2 It passes through the flange 142 and is inserted into the groove 130 , and supports the body cover 200 so as not to be separated from the body 100 , and at the same time, the ball 1 moves in the second ball fixing groove 212 . One end of the second ball fixing groove 212 is blocked so as not to fall out.

Learn about the operation of the core for the paper tube holder according to the present invention configured as described above.

The body 100 is coupled to a rotating means having a rotational force such as an air shaft or a rotating shaft therein, and is inserted into a branch pipe (not shown).

As shown in FIGS. 4 and 6 , when the ball 1 is positioned on an inner side of the first longitudinal groove 111 and/or the second longitudinal groove 112 , the pressure roller 2 is It is located at one end with the deepest depth of the bottom surface inside the inclined groove 120 , and in this case, the pressure roller 2 does not protrude to the outside of the body cover 200 .

And as shown in FIGS. 5 and 6, when the body 100 rotates in one direction by an air shaft or a rotation shaft, the pressure roller 2 is supported by the body cover 200 while being supported by the inclined groove 120. It rises by moving to the other end of which the depth of the bottom surface becomes shallow from the inside of the and protrudes more and more to the outside of the body cover 200 through the pressure roller groove 220, which causes the pressure roller 2 to By pressing the inner periphery of the paper tube, the core of the present invention and the paper tube are fixed. A knurling or protrusion is formed on the surface of the pressure roller 2 to maximize the frictional force so as not to slip or idle when in contact with the inner periphery of the paper tube.

In addition, as the body 100 rotates in one direction, the ball 1 moves from one end of the first longitudinal groove 111 and/or the second longitudinal groove 112 to the other end, and the body 100 ) continues to rotate, the ball 1 is caught at the other end of the first length groove 111 and/or the second length groove 112 so that the body 100, the body cover 200, and the branch pipe are integrated. will rotate The ball 1 helps to align the centering of the branch pipe.

Conversely, when the body 100 rotates in the other direction while the core of the present invention is fixed to the branch pipe, the pressure roller 2 moves to the position where the depth of the bottom surface is the deepest inside the inclined groove 120 . and is contained under the body cover 200, whereby the pressure roller 2 and the paper tube are separated, and the fixing of the core and the paper tube is released.

Therefore, the core of the present invention is fixed to the paper tube by the pressure roller 2 or separated from the paper tube.

The body cover 200 supports the ball 1 and the pressure roller 2 when the body 100 starts to rotate in one direction. In addition, in the process of winding the film paper by the paper tube, the rotation shaft, the core, and the paper tube rotate together in the same direction, and the force, that is, the tension, that pulls the film paper due to internal and external factors is greater than the frictional force generated between the pressure roller 2 and the paper tube. When it becomes large, since the body cover 200 is relatively rotated with respect to the body 100 coupled to the rotation shaft and the pressure roller 2 is moved from the bottom surface of the inclined groove 120 to a deep position, the body cover 200 ), the contact between the pressure roller (2) and the branch pipe protruding to the outside is released, so that the rotation of the branch pipe together with the rotating shaft can be stopped.

Therefore, the core of the present invention is fixed to the paper tube by pressing the inner periphery of the paper tube while the pressure roller 2 protrudes to the outside of the body cover 200 according to the rotation of the body 100, and the pressure roller 2 is the body It is depressed in the inner direction of the cover 200 and is separated from the branch pipe.

On the other hand, as shown in FIGS. 2, 3, and 7, the core of the present invention has a ring-shaped seating groove on the side surface of the body 100, preferably on the side in the direction in which the second flange 142 is formed. 150 is formed, and a thrust bearing 151 is inserted into the seating groove 150 .

The thrust bearing 151 may be formed on one side or both sides of the body 100, and the thrust bearing 151 has a plurality of rotating rollers 151a spaced therein by a predetermined interval, and the rotating roller 151a ) protrudes by a predetermined volume to the outside of the body 100 .

Accordingly, when at least two or a plurality of cores are continuously provided on the shaft, the cores and the cores adjacent to each other come into contact with the thrust bearing 151 , so that the respective cores can rotate in different directions.

In addition, on the outer surface of the thrust bearing 151 exposed to the outside of the body 100 , a shape corresponding to the shape of the seating groove 150 or the thrust bearing 151 is formed to form the thrust bearing 151 . A blocking ring 400 to block the outer surface of the may be provided.

In addition, as shown in FIGS. 8 to 10 , in the core for a branch tube holder of the present invention, an “L”-shaped stepped portion 160 may be formed on one side or both sides of the body 100 , the stepped portion The ball bearing 161 may be seated and fixed to the 160 .

Therefore, when at least two or a plurality of cores are continuously provided, there is an effect that each of the cores can be rotated in different directions by the ball bearing 161 .

Although the present invention has been described in relation to the above-mentioned preferred embodiments, it will be readily recognized by those skilled in the art that various modifications and variations are possible without departing from the spirit and scope of the invention, and the ball inlet groove 142a is It is apparent that all such changes and modifications fall within the scope of the appended claims.

1: Ball 2: Pressing roller
100: body 111: first length groove
112: second length groove 120: inclined groove
120: groove 141: first flange
142: second flange 150: seating groove
151: thrust bearing 160: stepped portion
161: ball bearing 200: body cover
211: first ball fixing groove 212: second ball fixing groove
220: pressure roller groove 300: snap ring
400: blocking ring

Claims (5)

It is formed in a ring shape, and the first longitudinal groove 111 and the inclined groove 120 whose bottom surface becomes deeper toward one side are formed on one side of the outer periphery, and the first longitudinal groove ( A second length groove 112 and a groove 130 corresponding to 111) are formed, a first flange 141 is formed at one end of the outer periphery, and the other end of the first flange 141 is formed at the other end of the outer periphery. The body 100 is formed with a radius smaller than the radius and the second flange 142 having a ball inlet groove (142a) is formed;
a ball (1) accommodated in the first length groove (111);
a pressure roller (2) accommodated in the inclined groove (120);
A first ball fixing groove 211 into which the ball 1 is inserted and a pressure roller groove 220 into which the pressure roller 2 is inserted are formed at one end of the body 100, and the other At the end, a second ball fixing groove 212 corresponding to the first ball fixing groove 211 is formed, and the ball 1 is inserted into the second ball fixing groove 211 while being inserted into the second length groove 112 . The body cover 200 is accommodated, and the outer diameter is formed smaller than the outer diameter of the first flange 141 so that the first ball fixing groove 211 and the pressure roller groove 220 are blocked by the first flange 141 . ; and
A cutout 310 is formed on one side, and a snap ring 300 is inserted into the recess 130 to support the body cover 200; includes,
a ring-shaped seating groove 150 formed on a side surface of the body 100; and
A core for a paper tube holder comprising: a plurality of rotating rollers (151a) provided therein, and a thrust bearing (151) inserted into the seating groove (150).
According to claim 1,
A blocking ring ( 400); a core for a paper tube holder comprising a.
3. The method of claim 1 or 2,
a stepped portion 160 formed on the inner periphery of the body 100; and
A core for a paper tube holder comprising a; a ball bearing 161 to be seated on the stepped portion 160. delete delete

Images