KR102139319B1 - Device for forming reinforcement pipe - Google Patents

Abstract

The present invention relates to an apparatus for forming a reinforcement pipe, which forms two or more line recess parts dented in a straight line form on a hollow circular pipe while preventing the circular pipe and the reinforcement pipe from rotating and stably forming the line recess parts dented on the circular pipe. To this end, the apparatus for forming the reinforcement pipe, which forms two or more line recess parts dented in a straight light form in a longitudinal direction on the circular pipe to manufacture the reinforcement pipe, comprises: a main body unit; a transfer unit formed long in the main body unit corresponding to the longitudinal direction of the circular pipe to move the circular pipe linearly in the longitudinal direction; and a line recess forming unit pressing and forming the line recess parts in a straight line form on the outer circumferential surface of the circular pipe linearly moving by the transfer unit corresponding to the depth of the line recess parts, wherein the transfer unit includes: a first transfer means linearly moving the circular pipe in the longitudinal direction from an input side based on the line recess forming unit; a second transfer means linearly moving the reinforcement pipe in the longitudinal direction from an output side based on the line recess forming unit; and a driving means concurrently driving the first transfer means and the second transfer means.

Description

Reinforcing pipe forming equipment {DEVICE FOR FORMING REINFORCEMENT PIPE}

The present invention relates to a reinforcing pipe forming apparatus, more specifically, to form two or more line grooves recessed in a straight shape in a hollow circular pipe, prevent rotation of the circular pipe and the reinforcing pipe, and stabilize the line groove in the circular pipe It relates to a reinforcing pipe forming apparatus for forming a recess.

In general, hollow pipes are used as frameworks that form the skeleton of greenhouses, buildings, and sculptures, such as greenhouses.

As an example, the vinyl house has the advantages of being able to cultivate various crops that could not be cultivated at low temperatures, easy to install and dismantle, and low in installation cost, because the space inside is isolated from the outside environment and has high heat retention. It is widely distributed in farmhouses.

In such a plastic house, the skeleton is a bent hollow pipe made of metal, and can be made so that an upright portion is formed by leaving about 2 m of both ends of a pipe of about 10 m in length and the arch portion is formed by bending about 6 m in the form of an arch. have.

The frame for the vinyl house is arranged at regular intervals on the farmland to form a tunnel structure, and the tunnel structure is covered with vinyl to form a vinyl house.

However, when the frame for a vinyl house has a simple circular cross-section, if there is a lot of snowfall in a short period of winter in the winter, or if the snow piled up on the surface of the vinyl is not able to remove snow, the vinyl house will load the snow. The phenomenon that it cannot be tolerantly bends and collapses quickly occurs. Then, the farmers or farmers' unions that run the greenhouse can cause enormous economic losses, and many national losses, social costs, and national financial losses.

Republic of Korea Registered Patent Publication No. 10-1562924 (Name of the invention: a frame maker for a vinyl house, announced on October 23, 2015)

An object of the present invention is to solve the conventional problems, the two or more line grooves in the hollow circular pipe is recessed in a linear shape, but the rotation of the circular pipe and the reinforcing pipe is prevented, and the line groove portion is stabilized in the circular pipe. It is to provide a reinforcing pipe forming apparatus for forming a depression.

According to a preferred embodiment for achieving the object of the present invention described above, the reinforcing pipe forming apparatus according to the present invention is to manufacture a reinforcing pipe by forming two or more line grooves that are formed in a linear shape recessed in a circular pipe. Reinforcing pipe forming apparatus, the main body unit; A transfer unit formed elongated in the main body unit corresponding to the longitudinal direction of the circular pipe to linearly move the circular pipe in the longitudinal direction; And a line groove forming unit for press-molding the line groove portion in a linear shape on an outer circumferential surface of the circular pipe that is linearly moved by the transfer unit in correspondence with the depth of the line groove portion, wherein the transfer unit includes the line groove First transfer means for linearly moving the circular pipe in the longitudinal direction from the input side based on the forming unit; A second transfer means for linearly moving the reinforcing pipe in the longitudinal direction from the discharge side based on the line groove forming unit; And driving means for simultaneously operating the first transfer means and the second transfer means, wherein the first transfer means and the second transfer means are each spaced apart from the line groove forming unit and lengthened to the main body unit. A pair of roller supports formed; A plurality of support rollers rotatably coupled between the pair of roller supports; A support sprocket coupled to the support roller and rotatable together with the support roller; A support connecting two adjacent support sprockets in a caterpillar; A pair of roller grips spaced apart from the line groove forming unit and stacked on a pair of roller supports; A plurality of gripping rollers rotatably coupled between the pair of roller grips; And an elastic pressing part elastically pressing the roller grip toward the roller support so that the gripping roller generates a pressing force toward the support roller, wherein the support sprocket is connected to the driving means to the driving means. Rotating by, at least one of the first transfer means and the second transfer means, the phage roller is coaxially coupled to the gripping roller and rotatable with a gripping roller; And a phage chain connecting two adjacent phage sprockets in a caterpillar.

Here, the main unit is a table on which the transfer unit and the line groove forming unit are disposed; And a support for separating the table from the floor.

At this time, the table, a chain hole portion through which the drive chain included in the drive means passes; is formed through.

Here, the second transfer means supports at least one of the line grooves to move in a straight line.

Here, the transfer unit, speed control means for adjusting the rotational force of the drive motor; And control means for controlling the operation of the drive motor and the speed adjusting means. It further includes at least one of.

At this time, the first transfer means and the second transfer means are each coupled to the gripping roller, the gripping sprocket rotatable together with the gripping roller; And a phage chain connecting two adjacent phage sprockets in a caterpillar.

Here, the elastic pressing portion, two or more pressing rods protruding from the roller support; A pressing hole formed through the roller grip so that the pressing rod passes; A support coupling part spaced apart from the roller grip and screwed to an end of the pressure rod; And a pressing elastic part elastically pressing the roller gripping zone based on the supporting coupling part.

Here, the drive means, a drive motor for generating a rotational force for rotation of the drive shaft; A pair of drive sprockets coupled to the drive shaft and rotated together with the drive shaft; A drive chain that connects any one of the pair of drive sprockets and the support sprocket of the first transport means in a caterpillar, while connecting the other of the pair of drive sprockets and the support sprocket of the second transport means in a caterpillar ;.

At this time, the transfer unit, speed control means for adjusting the rotational force of the drive motor; And control means for controlling the operation of the drive motor and the speed adjusting means. It further includes at least one of.

Here, the line groove forming unit is installed in a position close to the first transfer means of the first transfer means and the second transfer means, the first transfer corresponding to the depth of the pre-groove portion smaller than the depth of the line groove portion First groove forming means for press-molding the preliminary groove on an outer circumferential surface of the circular pipe which is linearly moved by the means; And the first transfer means and the second transfer means installed at a position close to the second transfer means to pass through the first groove forming means in correspondence to the depth of the line groove and move linearly by the first transfer means. And a second groove forming means for press-molding the line groove on the pre-groove formed on the outer circumferential surface of the circular pipe.

At this time, the line groove forming unit, the first groove forming means and the second groove forming means to further secure the cover to the table of the body unit;

At this time, an exposed hole is opened in the finishing cover so that the adjustment means protruding around the plate is exposed.

Here, the first groove forming means and the second groove forming means are respectively coupled to the main body unit between the first conveying means and the second conveying means, and a through hole portion formed through the circular pipe to pass therethrough. , A plate including a guide groove formed radially recessed from the center of the through hole portion corresponding to a forming position of the line groove portion, and a guide rail portion formed by the guide groove portion; A pressing means coupled to the guide groove portion of the plate to press the outer circumferential surface of the circular pipe passing through the through hole portion in a straight line along the longitudinal direction; And adjusting means for moving the pressing means in a normal direction extending from the center of the through hole portion in the plate corresponding to the depth of the preliminary groove portion or the depth of the line groove portion.

Here, the pressing means, the slider portion is fitted to the guide groove portion; A rail groove portion extending from the slider portion so that the guide rail portion is slidably coupled; A fork portion protruding from the slider portion toward a center of the passage hole portion; And a groove forming wheel part rotatably coupled to the fork part.

Here, the wheel end portion of the groove forming wheel portion represents a semi-circular cross-section or an arc-shaped cross-section.

Here, the adjusting means, the screw portion is screwed to the plate corresponding to the normal direction extending from the center of the through-hole portion in a rotatably supported state on the slider portion; And a screw fixation screwed to the screw portion to fix the screw portion to the plate.

At this time, the adjustment means, is provided at the end of the threaded portion that has passed through the plate, the user is gripping or rotating the threaded head for engaging the tool; further comprises a.

According to the reinforcing pipe forming apparatus according to the present invention, two or more line grooves are recessed in a hollow circular pipe in a linear shape, but rotation of the circular pipe and the reinforcing pipe is prevented, and the line groove is stably formed in the circular pipe. do.

In addition, the present invention can smoothly arrange the linear arrangement of the transfer unit and the line groove forming unit through the detailed configuration of the main body unit, and prevent interference with the driving chain.

In addition, the present invention improves the straightness of the line groove portion along the longitudinal direction of the circular pipe through the coupling relationship between the line groove portion and the second conveying means, and the inclination or reinforcement of the line groove portion based on the longitudinal direction of the circular pipe. Warping can be prevented.

In addition, the present invention allows the plurality of support rollers to rotate equally through the detailed configuration of the first conveying means and the second conveying means, smoothing the linear movement of the circular pipe and the reinforcing pipe, and the gripping roller reinforcing the circular pipe and reinforcing. The movement of the pipe can be stably supported. In addition, the support roller and the gripping roller through the elastic pressing portion to stably support the circular pipe or the reinforcing pipe, respectively, and when the circular pipe or the reinforcing pipe is linearly moved, the concentricity can be matched.

In addition, the present invention simultaneously rotates the gripping roller capable of idle rotation through the additional configuration of the gripping sprocket and the gripping chain, and suppresses or prevents the friction between the gripping roller and the circular pipe, or the friction between the gripping roller and the reinforcement pipe, or The linear movement of the reinforcing pipe can be smoothed.

In addition, the present invention simplifies the adjustment of the gap between the support roller and the gripping roller through which the circular pipe or the reinforcing pipe is inserted through the detailed configuration of the elastic pressing part, and the elastic pipe is used to form a circular pipe or a reinforcing pipe between the support roller and the gripping roller. Flow can be inhibited or prevented.

In addition, the present invention can rotate the support roller of the first transport means and the support roller of the second transport means in the same rotational direction as the same rotational force with a single driving force through the detailed configuration of the driving means.

In addition, the present invention can adjust the rotational force of the support roller through the speed adjusting means.

In addition, the present invention can control the rotation operation of the support roller through the control means, and can form a line groove in the circular pipe stably.

In addition, the present invention prevents a change in thickness in the line groove portion as the pre-groove portion and the line groove portion are formed at the same position through the detailed configuration of the line groove forming unit, and the convex portion is stable between two adjacent line groove portions. It can be induced to show a shape.

In addition, the present invention can block the external manipulation of the groove forming means as much as possible through the additional configuration of the finishing cover, and prevent the flow of the groove forming means in the body unit.

In addition, the present invention can smoothly move the slide of the pressing means to the center of the through hole portion through the detailed configuration of the groove forming means, and stably position the wheel end of the groove forming wheel portion from the center of the through hole portion.

In addition, the present invention is to smooth the slide movement of the slider portion in the plate through the detailed configuration of the pressing means, while minimizing the flow of the slider portion in the plate, and clear the rotation of the groove forming wheel portion to improve the accuracy of the depth of the line groove portion Can be improved.

In addition, the present invention, by limiting the shape of the end of the wheel in the groove forming wheel portion, prevents the thickness change of the line groove portion by the groove forming wheel portion, prevents the line groove portion breakage, the line groove portion is cracked by the groove forming wheel portion It can prevent tearing.

In addition, the present invention can precisely adjust the position of the slider portion relative to the plate using the pitch of the thread through the detailed configuration of the adjusting means, while minimizing the flow of the slider portion, the groove forming wheel portion protrudes toward the center of the through hole portion It can keep the stable state.

In addition, the present invention simplifies the rotation of the screw part through the additional configuration of the head part, and can precisely adjust the rotation amount of the screw part.

1 is a perspective view showing a reinforcement pipe forming apparatus according to an embodiment of the present invention.
Figure 2 is a perspective view showing a state in which the finishing cover is separated from the reinforcement pipe forming apparatus according to an embodiment of the present invention.
3 is a front view of FIG. 2.
4 is a plan view of FIG. 2.
5 is a view showing a process in which a circular pipe is deformed into a reinforcement pipe in a reinforcement pipe forming apparatus according to an embodiment of the present invention.
Figure 6 is an enlarged perspective view showing the inlet side of the first transfer means in the reinforcement pipe forming apparatus according to an embodiment of the present invention.
7 is a right side view showing the arrangement state of the first transfer means in the reinforcement pipe forming apparatus according to an embodiment of the present invention.
8 is an enlarged perspective view showing the outlet side of the second transfer means in the reinforcement pipe forming apparatus according to an embodiment of the present invention.
9 is a left side view showing the arrangement state of the second transfer means in the reinforcement pipe forming apparatus according to an embodiment of the present invention.
10 is a right side view showing a first groove forming unit in a reinforcement pipe forming apparatus according to an embodiment of the present invention.
11 is a left side view showing a second groove forming unit in the reinforcement pipe forming apparatus according to an embodiment of the present invention.

Hereinafter, an embodiment of a reinforcing pipe forming apparatus according to the present invention will be described with reference to the accompanying drawings. At this time, the present invention is not limited or limited by the examples. In addition, in describing the present invention, detailed descriptions of known functions or configurations may be omitted to clarify the gist of the present invention.

1 to 11, the reinforcing pipe forming apparatus according to an embodiment of the present invention is formed by forming two or more line grooves P2 recessed in a straight shape along a longitudinal direction in a circular pipe to form a reinforcing pipe (P) It is a device to manufacture.

Here, the circular pipe is used as an existing frame and exhibits a hollow tube shape forming a circular cross section. In addition, the reinforcing pipe P exhibits a hollow tube shape in which the line groove portion P2 is press molded on a circular pipe. According to the formation of the line groove portion P2, the reinforcement pipe P is provided with an arc-shaped convex portion.

Two or more of the line grooves P2 are spaced apart from each other along the circumference of the hollow circular pipe forming a circular cross section. The line groove portion P2 is formed long in the longitudinal direction based on the circular pipe. The line groove portion P2 is formed to be recessed from the outside of the circular pipe relative to the circular pipe. The line groove portion P2 is formed to protrude toward the inside of the circular pipe relative to the circular pipe.

The convex portion is provided in an arc shape between two adjacent line groove portions P2. As the convex portion is formed along the periphery of the circular pipe as the line groove portion P2 is formed, it may exhibit a stable arc shape. The convex portion is formed long in the longitudinal direction based on the circular pipe. The convex portion is recessed relative to the inside of the circular pipe relative to the circular pipe. The convex portion is formed to protrude outwardly of the circular pipe relative to the circular pipe.

In one embodiment of the present invention, the reinforcing pipe (P) may be formed by pressing the line groove portion (P2) on the circular pipe once as the circular pipe passes through the line groove forming unit (300) in a linear motion.

In one embodiment of the present invention, the reinforcing pipe (P) is a preliminary groove portion (P1) smaller than the depth of the line groove portion (P2) to the circular pipe as the circular pipe passes through the first groove forming means (60) in a linear motion 1 Secondary pressure molding is performed, and the line groove portion P2 may be subjected to secondary pressure molding on the circular pipe as the circular pipe formed with the preliminary groove portion P1 passes through the second groove forming means 70 in a linear movement.

In more detail, as shown in FIG. 5, the circular pipe maintains a circular cross-sectional shape as the circular pipe is transferred as it is in the entry section (the section through which the circular pipe passes through the first transfer means 10). In addition, as shown in FIG. 5, in the first forming section (the section where the circular pipe passes through the first groove forming means 60), the preliminary groove portion P1 smaller than the depth of the line groove portion P2 to be formed in the circular pipe ) Shows a shape in which the pre-groove portion P1 is relatively recessed on the outer circumferential surface of the circular pipe. In addition, as shown in FIG. 5, in the second forming section (a section in which the circular pipe in which the preliminary groove portion P1 is formed passes through the second groove forming means 70), the line groove portion P2 to be formed in the circular pipe As the line groove portion P2 is molded in response to the depth of the line groove portion P2 is relatively recessed on the outer circumferential surface of the circular pipe, and the convex portion between the two adjacent line groove portions P2 exhibits an arc-shaped cross section. It is formed long in the longitudinal direction of can complete the reinforcement pipe (P).

In one embodiment of the present invention, the reinforcement pipe (P) is shown as six line grooves (P2) are arranged at equal intervals along the circumference of the circular pipe, but is not limited to this, the line groove (P2) is It is sufficient if two or more can be arranged at equal intervals along the circumference of the circular pipe.

Reinforcing pipe forming apparatus according to an embodiment of the present invention includes a body unit 100, a transfer unit 200, and a line groove forming unit 300.

The body unit 100 supports the transfer unit 200 and the line groove forming unit 300.

The body unit 100 may include a table 110 on which the transfer unit 200 and the line groove forming unit 300 are disposed, and a support 130 that separates the table 110 from the floor.

The table 110 is coupled with the first transfer means 10 and the second transfer means 20 of the transfer unit 200 spaced apart. The first groove forming means 60 and the second groove forming means 70 of the line groove forming unit 300 are separated from the table 110 between the first conveying means 10 and the second conveying means 20. Combined into a state.

The table 110 is formed with a chain hole through which the drive chain 33 included in the drive means 30 passes.

The transfer unit 200 is formed long in the main body unit 100 in correspondence with the length direction of the circular pipe to move the circular pipe linearly in the longitudinal direction.

The transfer unit 200 is the first transfer means 10 for linearly moving the circular pipe in the longitudinal direction from the input side based on the line groove forming unit 300, and the discharge side based on the line groove forming unit 300. It may include a second conveying means 20 for linearly moving the reinforcing pipe P in the longitudinal direction, and a driving means 30 for operating the first conveying means 10 and the second conveying means 20 simultaneously. .

The first conveying means 10 and the second conveying means 20 each include a roller support, a support roller, a support sprocket, a support phosphor, a roller grip, a gripping roller, and an elastic pressing part, and the gripping sprocket And, it may further include a phage chain.

The roller supports are spaced in parallel by a pair. The roller support is spaced apart from the line groove forming unit 300 and is formed to be long in the body unit 100.

The support roller is rotatably coupled between a pair of roller supports. A plurality of support rollers are arranged along the longitudinal direction of the roller support.

The support sprocket is coaxially coupled to the support roller and can be rotated together with the support roller. It is advantageous that a pair of support sprockets are superposed on the basis of one support roller. The support sprocket is connected to the drive chain 33 of the drive means 30 in a caterpillar to be rotated by the drive means 30.

The supporter connects two adjacent support sprockets in a caterpillar. In the support sprockets superposed in a pair, the support splints connect the support sprockets substantially parallel to the roller support in a caterpillar.

A pair of roller grips are spaced apart in parallel. The roller grips are spaced apart from the line groove forming unit 300 so as to be stacked on a pair of roller supports. At this time, it is advantageous that the roller grips are spaced apart from the roller supports.

The gripping roller is rotatably coupled between a pair of roller grips. A plurality of gripping rollers are arranged along the longitudinal direction of the roller gripping zone.

In particular, a circumferential groove having a semi-circular or arc-shaped cross-section corresponding to the curvature of the circular pipe is formed around at least one of the support roller and the gripping roller to smoothly grip and support the circular pipe or the reinforcement pipe P. A circular pipe or a reinforcing pipe P may be prevented from flowing between the roller and the gripping roller.

The elastic pressing portion elastically presses the roller grip against the roller support so that the gripping roller generates a pressing force toward the support roller.

The elastic pressing portion includes two or more pressing rods protruding from the roller support, a pressing hole formed through the roller grip so that the pressing rod passes, and a support coupling part spaced apart from the roller grip and screwed to the end of the pressing rod, It may include a pressing elastic portion for elastically pressing the roller grips based on the support coupling portion. As the support coupling part is screwed at the end of the pressure rod, the pressing force generated by the gripping roller toward the support roller can be adjusted in proportion to the force compressing the pressurized elastic part, and the circular pipe or the reinforcement pipe (P ) Can be prevented from flowing.

The phage sprocket is coaxially coupled to the phage roller and can be rotated together with the phage roller. On the basis of one phage roller, it is advantageous that a pair of phage sprockets are overlapped.

The phage chain connects two adjacent phage sprockets in a caterpillar. The gripping chain connects the gripping sprockets substantially parallel to the roller grips in a caterpillar in a pair of gripping sprockets.

In more detail, the first transport means 10 includes a first roller support 11, a first support roller 12, a first support sprocket 13, a first support chain 131, and a first roller It includes a gripping table 14, a first gripping roller 15, a first elastic pressing portion 17, and may further include a first gripping sprocket 16 and a first gripping chain 161. .

A pair of first roller supports 11 are spaced apart in parallel. The first roller support 11 is spaced apart from the line groove forming unit 300 and is formed to be long in the main body unit 100.

The first support roller 12 is rotatably coupled between a pair of first roller supports 11. A plurality of first support rollers 12 are arranged along the longitudinal direction of the first roller support 11.

The first support sprocket 13 is coaxially coupled to the first support roller 12 and is rotatable together with the first support roller 12. The first support sprocket 13 based on one first support roller 12 is advantageously paired. The first support sprocket 13 is connected to the drive chain 33 of the drive means 30 in a caterpillar to be rotated by the drive means 30.

The first support chain 131 connects two adjacent first support sprockets 13 in a caterpillar. The first support chain 131 connects the first support sprocket 13 substantially parallel to the first roller support 11 in a caterpillar orbit in a first support sprocket 13 arranged in a pair.

A pair of first roller grips 14 are spaced apart in parallel. The first roller grips 14 are spaced apart from the line groove forming unit 300 so as to be stacked on a pair of first roller supports 11. At this time, it is advantageous that the first roller holder 14 is spaced apart from the first roller holder 11.

The first gripping roller 15 is rotatably coupled between a pair of first roller gripping portions 14. A plurality of first gripping rollers 15 are arranged along the longitudinal direction of the first roller gripping zone 14.

Particularly, at least one of the first support roller 12 and the first gripping roller 15 has a semi-circular or arc-shaped cross-section groove corresponding to the curvature of the circular pipe to smoothly grip the circular pipe. It is possible to prevent the circular pipe from flowing between the first support roller 12 and the first gripping roller 15.

The first elastic pressing unit 17 elastically presses the first roller gripper 14 toward the first roller holder 11 so that the first gripping roller 15 presses toward the first support roller 12 do.

The first elastic pressing part 17 is provided to the first roller gripping zone 14 such that two or more first pressing rods 171 protruding from the first roller support 11 and the first pressing rod 171 pass through. The first pressing hole 172 which is formed through, the first supporting coupling part 174 spaced apart from the first roller grip 14 and screwed to the end of the first pressing rod 171, and the first supporting coupling It may include a first pressing elastic portion 173 that elastically presses the first roller grip 14 based on the portion 174. As the first support coupling portion 174 is screwed at the end of the first pressing rod 171, the first holding roller 15 is proportional to the force compressing the first pressing elastic portion 173, and the first holding roller 15 is the first supporting roller. The pressing force generated toward (12) can be adjusted, and it is possible to prevent the circular pipe from flowing between the first support roller (12) and the first gripping roller (15).

The first gripping sprocket 16 is coaxially coupled to the first gripping roller 15 and is rotatable together with the first gripping roller 15. It is advantageous that a pair of first gripping sprockets 16 are overlapped on the basis of one first gripping roller 15.

The first gripping chain 161 connects two adjacent first gripping sprockets 16 in a caterpillar. The first gripping chain 161 connects the first gripping sprocket 16 substantially parallel to the first roller gripping zone 14 in the first gripping sprocket 16 arranged in a pair in an infinite orbit.

Likewise, the second transport means 20 includes a second roller support 21, a second support roller 22, a second support sprocket 23, a second support chain 231, and a second roller wave. It may include a zone 24, a second gripping roller 25, a second elastic pressing portion 27, a second gripping sprocket 26, and a second gripping chain 261.

The pair of second roller supports 21 are spaced apart in parallel. The second roller support 21 is spaced apart from the line groove forming unit 300 and is formed to be long in the main body unit 100.

The second support roller 22 is rotatably coupled between the pair of second roller supports 21. A plurality of second support rollers 22 are disposed along the longitudinal direction of the second roller support 21.

The second support sprocket 23 is coaxially coupled to the second support roller 22 and is rotatable together with the second support roller 22. It is advantageous that a pair of the second support sprockets 23 are overlapped on the basis of one second support roller 22. The second support sprocket 23 is connected to the drive chain 33 of the drive means 30 in a caterpillar to be rotated by the drive means 30.

The second support chain 231 connects two adjacent second support sprockets 23 in a caterpillar. The second support chain 231 connects the second support sprocket 23 substantially parallel to the second roller support 21 in the second support sprocket 23 arranged in a pair in an infinite orbit.

A pair of second roller grips 24 are spaced apart in parallel. The second roller grips 24 are spaced apart from the line groove forming unit 300 so as to be stacked on a pair of second roller supports 21. At this time, it is advantageous that the second roller gripper 24 is spaced apart from the second roller holder 21.

The second gripping roller 25 is rotatably coupled between a pair of second roller gripping zones 24. A plurality of second gripping rollers 25 are disposed along the longitudinal direction of the second roller gripping zone 24.

Particularly, at least one of the second support roller 22 and the second gripping roller 25 has a semi-circular or arc-shaped cross-section groove corresponding to the curvature of the circular pipe to form a groove of the reinforcement pipe P. It is possible to smooth the gripping and prevent the reinforcing pipe P from flowing between the second supporting roller 22 and the second gripping roller 25.

The second elastic pressing unit 27 elastically presses the second roller gripper 24 toward the second roller holder 21 so that the second gripping roller 25 pushes toward the second support roller 22. do.

The second elastic pressing part 27 is provided to the second roller holding zone 24 so that the two or more second pressing rods 271 and the second pressing rods 271 are formed to protrude from the second roller support 21. The second pressing hole 272, which is formed through, and the second supporting coupling part 274 spaced apart from the second roller grip 24 and screwed to the end of the second pressing rod 271, and the second supporting coupling A second pressing elastic portion 273 for elastically pressing the second roller gripper 24 based on the portion 274 may be included. The second holding roller 25 is proportional to the force compressing the second pressing elastic portion 273 as the second supporting coupling portion 274 is screwed at the end of the second pressing rod 271, the second holding roller 25 is the second supporting roller The pressing force generated toward the 22 can be adjusted, and the reinforcing pipe P can be prevented from flowing between the second support roller 22 and the second gripping roller 25.

The second gripping sprocket 26 is coaxially coupled to the second gripping roller 25 and is rotatable together with the second gripping roller 25. It is advantageous that the pair of the second gripping sprocket 26 is overlapped on the basis of one second gripping roller 25.

The second gripping chain 261 connects two adjacent second gripping sprockets 26 in a caterpillar. The second gripping chain 261 connects the second gripping sprocket 26 substantially parallel to the second roller gripping zone 24 in the second gripping sprocket 26 arranged in a pair in an infinite orbit.

Particularly, the second transfer means 20 can smoothly induce linear movement of the reinforcing pipe P by supporting at least one of the two or more line grooves P2 to move linearly. In other words, at least one inlet portion of the two or more line grooves P2 on the outer circumferential surface of the reinforcing pipe P is at least one of the circumferential surface of the second support roller 22 and the circumferential surface of the second gripping roller 25. Supported by one, the second support roller 22 and the second gripping roller 25 may be linearly moved in response to rotation.

The driving means 30 includes a driving motor 31 for generating a rotational force for rotation of the driving shaft 311, a pair of driving sprockets 32 coupled to the driving shaft 311 and rotated together with the driving shaft 311, While connecting one of the pair of drive sprockets 32 and the support sprocket of the first transport means 10 in an infinite track, the other of the pair of drive sprockets 32 and the second transport means 20 It may include a drive chain (33) for connecting the support sprocket in a caterpillar.

The drive chain 33 includes a first chain 331 connecting any one of the pair of drive sprockets 32 and the first support sprocket in an infinite track, and the second and second ones of the pair of drive sprockets 32. A second chain 332 connecting the support sprocket 23 to the caterpillar may be included.

The transfer unit 200 is at least one of the speed control means 40 for adjusting the rotational force of the drive motor 31 and the control means 50 for controlling the operation of the drive motor 31 and the speed control means 40 It may further include. The speed adjusting means 40 may be disposed on the support 130 of the main body unit 100, and the control means 50 may be disposed on the support 130 of the main body unit 100. The speed adjusting means 40 may include an inverter.

The line groove forming unit 300 pressurizes the line groove portion P2 in a linear shape on the outer circumferential surface of the circular pipe that is linearly moved by the transfer unit 200 in correspondence to the depth of the line groove portion P2.

The line groove forming unit 300 is installed in a position close to the first transfer means 10 of the first transfer means 10 and the second transfer means 20, the preliminary groove portion P1 smaller than the depth of the line groove portion P2 ), the first groove forming means 60 and the first conveying means 10 for press-molding the preliminary groove portion P1 on the outer circumferential surface of the circular pipe which is linearly moved by the first conveying means 10 in correspondence with the depth of It is installed in a position close to the second transport means 20 among the second transport means 20 and passes through the first groove forming means 60 corresponding to the depth of the line groove portion P2 to the first transport means 10. It may include a second groove forming means 70 for press-molding the line groove portion (P2) to the pre-groove portion (P1) formed on the outer peripheral surface of the circular pipe that is linearly moved by.

The first groove forming means 60 and the second groove forming means 70 may each include a plate, a pressing means, and an adjusting means.

The plate is coupled to the body unit 100 between the first transfer means 10 and the second transfer means 20.

The plate may include a through hole portion formed to pass through the circular pipe, a guide groove portion formed radially recessed from the center of the through hole portion corresponding to the forming position of the line groove portion P2, and a guide rail portion formed by the guide groove portion. have.

The pressing means is coupled to the guide groove of the plate and presses the outer circumferential surface of the circular pipe passing through the through hole in a straight line along the longitudinal direction.

The pressing means includes a slider portion fitted to the guide groove portion, a rail groove portion extending from the slider portion so that the guide rail portion is slidably coupled, a fork portion protruding toward the center of the through hole portion from the slider portion, and a fork portion It may include a groove forming wheel portion that is rotatably coupled.

The shaft portion of the groove forming wheel portion may exhibit a cylindrical or disc shape having a predetermined diameter, thereby preventing the flow of the groove forming wheel portion from the fork portion.

The wheel end portion of the groove forming wheel portion may indicate a semi-circular cross-section or arc-shaped cross-section, thereby making it possible to clarify the pre-groove portion P1 or the line groove portion P2 that is recessed on the outer circumferential surface of the circular pipe.

The adjusting means moves the pressing means in the normal direction extending from the center of the through-hole portion in the plate corresponding to the depth of the preliminary groove portion P1 or the depth of the line groove portion P2.

The adjusting means may include a screw portion screwed to the plate in response to a normal direction extending from the center of the through hole portion while being rotatably supported on the slider portion, and a screw fixing portion screwed to the screw portion to fix the screw portion to the plate. Can.

The adjusting means is provided at an end of the threaded portion passing through the plate, and may further include a head portion to which a user grips or a tool for rotating the threaded portion is coupled.

More specifically, the first groove forming means 60 may include a first plate 61, a first pressing means 62, and a first adjusting means 63.

The first plate 61 is coupled to the body unit 100 between the first transfer means 10 and the second transfer means 20.

The first plate 61 is formed to be radially recessed from the center of the first through hole portion 611 corresponding to the forming position of the first through hole portion 611 and the line groove portion P2 formed to pass through the circular pipe. A first guide groove portion 612 and a first guide rail portion 613 formed by the first guide groove portion 612 may be included.

The first pressing means 62 is coupled to the first guide groove portion 612 of the first plate 61 and presses the outer circumferential surface of the circular pipe passing through the first through hole portion 611 in a straight line along the longitudinal direction.

The first pressing means 62 is a first slider portion 621 such that the first slider portion 621 is fitted to the first guide groove portion 612 and the first guide rail portion 613 is slidably coupled. The first rail groove portion 622 extending from the first fork portion 623 protruding toward the center of the first through hole portion 611 from the first slider portion 621, and the first fork portion 623 It may include a first groove forming wheel portion 625 that is rotatably coupled to.

The first shaft portion 624 of the first groove forming wheel portion 625 exhibits a cylindrical or disc shape having a predetermined diameter, thereby preventing the flow of the first groove forming wheel portion 625 in the first fork portion 623. Can.

The first wheel end portion 626 of the first groove forming wheel portion 625 may indicate a semi-circular cross-section or arc-shaped cross-section, so that the preliminary groove P1 recessed on the outer peripheral surface of the circular pipe can be clarified.

The first adjusting means 63 moves the first pressing means 62 in the normal direction extending from the center of the first passing hole part 611 in the first plate 61 corresponding to the depth of the preliminary groove part P1. .

The first adjusting means 63 is screwed to the first plate 61 in response to a normal direction extending from the center of the first through hole portion 611 in a state rotatably supported by the first slider portion 621 The first screw portion 631 and a first screw fixing portion 632 that is screwed to the first screw portion 631 to fix the first screw portion 631 to the first plate 61 may be included.

The first adjustment means 63 is provided at the end of the first screw portion 631 that has passed through the first plate 61, the first head portion 633 to which a user grips or a tool for rotating the screw is coupled. It may further include.

Likewise, the second groove forming means 70 may include a second plate 71, a second pressing means 72, and a second adjusting means 73.

The second plate 71 is coupled to the body unit 100 between the second transfer means 20 and the second transfer means 20.

The second plate 71 is formed to be radially recessed from the center of the second through hole portion 711 corresponding to the forming position of the line through portion P711 and the second through hole portion 711 formed to pass through the circular pipe. A second guide groove portion 712 and a second guide rail portion 713 formed by the second guide groove portion 712 may be included.

The second pressing means 72 is coupled to the second guide groove portion 712 of the second plate 71 and presses the outer circumferential surface of the circular pipe passing through the second through hole portion 711 in a straight line along the longitudinal direction.

The second pressing means 72 is a second slider portion 721 so that the second slider portion 721 is fitted to the second guide groove portion 712 and the second guide rail portion 713 is slidably coupled. The second rail groove portion 722 extending from the second fork portion 723 and the second fork portion 723 protruding from the second slider portion 721 toward the center of the second through hole portion 711, It may include a second groove forming wheel portion 725 rotatably coupled to.

The second shaft portion 724 of the second groove forming wheel portion 725 exhibits a cylindrical or disc shape having a predetermined diameter, thereby preventing the flow of the second groove forming wheel portion 725 in the second fork portion 723. Can.

The second wheel end portion 726 of the second groove forming wheel portion 725 may indicate a semi-circular cross-section or arc-shaped cross-section, so that the line groove portion P2 recessed on the outer peripheral surface of the circular pipe can be clarified.

The second adjusting means 73 moves the second pressing means 72 in the normal direction extending from the center of the second passing hole portion 711 in the second plate 71 in response to the depth of the line groove portion P2. .

The second adjusting means 73 is screwed to the second plate 71 in response to a normal direction extending from the center of the second passing hole portion 711 while being rotatably supported by the second slider portion 721 The second screw part 731 and a second screw fixing part 732 that is screwed to the second screw part 731 to fix the second screw part 731 to the second plate 71 may be included.

The second adjusting means 73 is provided at the end of the second screw portion 731 that has passed through the second plate 71, and the second head portion 733 to which a user grips or engages a tool for rotating the screw portion is coupled. It may further include.

The line groove forming unit 300 may further include a finishing cover 80 surrounding the first groove forming means 60 and the second groove forming means 70 and fixing them to the table 110 of the body unit 100. have.

An exposure hole may be opened in the closing cover 80 so that the adjusting means 63 and 73 protruding around the plates 61 and 71 are exposed.

Now, the operation of the reinforcement pipe forming apparatus according to an embodiment of the present invention will be described.

According to the control of the control means 50, the speed adjusting means 40 and the driving means 30 are operated, and the first support roller 12 and the second transport means 20 of the first transport means 10 are removed. 2 Support roller 22 is rotated in the same direction. At this time, the first gripping roller 15 is rotated in the opposite direction to the first supporting roller 12 as it is supported by the first supporting roller 12, and the second gripping roller 25 is the second supporting roller 22 As it is supported on, it is rotated in the opposite direction to the second support roller 22.

In addition, by operating the first adjusting means 63 in the first groove forming means 60, the first groove forming wheel part 625 of the first pressing means 62 is defined so that the preliminary groove part P1 is formed in the circular pipe. The first wheel end portion 626 is radially positioned relative to the center of the first passing hole portion 611 according to the positioning.

In addition, by operating the second adjusting means 73 in the second groove forming means 70, the second groove of the second pressing means 72 is formed so that the line groove P2 is formed in the preliminary groove part P1 of the circular pipe. The second wheel end portion 726 is radially fixed relative to the center of the second passing hole portion 711 according to the positioning of the wheel portion 725.

A circular pipe is inserted between the first support roller 12 and the first gripping roller 15 at the inlet side of the first transfer means 10. Then, the first support roller 12 and the second support roller 25 grip the circular pipe while the first roller support 14 is spaced in an elastically supported state based on the first roller support 11, As the first support roller 12 and the first gripping roller 15 rotate, the circular pipe moves linearly in the longitudinal direction from the first transfer means 10.

Subsequently, as the circular pipe passes through the first transfer means 10 and passes through the first groove forming means 60, the first groove forming wheel portion 625 presses the outer peripheral surface of the circular pipe, and the outer peripheral surface of the circular pipe The preliminary groove portion P1 is recessed along a lengthwise direction of the circular pipe.

Subsequently, as the circular pipe passes through the second groove forming means 70, the second groove forming wheel portion 725 presses the preliminary groove portion P1 of the circular pipe, and the longitudinal direction of the circular pipe is applied to the outer circumferential surface of the circular pipe. Accordingly, the line groove portion P2 is recessed in a straight line shape. At this time, between two adjacent line groove portions P2, as the circumference of the circular pipe is bent, an arc-shaped convex portion protruding outward of the circular pipe is formed.

Subsequently, the reinforcement pipe P completed as the line groove portion P2 and the convex portion are formed is formed between the second support roller 22 and the second gripping roller 25 at the inlet side of the second transfer means 20. Is inserted. Then, the second support roller 22 and the second support roller 25 are reinforcing pipes (P) while the second roller support 24 is spaced in an elastically supported state based on the second roller support 21. The gripping, and the reinforcing pipe (P) is linearly moved in the longitudinal direction from the second transfer means (20) according to the rotation of the second support roller (22) and the second gripping roller (25).

Therefore, the pipe discharged from the second transfer means 20 is discharged while moving linearly in the form of a reinforcement pipe P provided with a line groove portion P2 and a convex portion.

According to the above-described reinforcing pipe forming apparatus, the hollow circular pipe is formed with two or more line grooves (P2) recessed in a straight line shape, preventing rotation of the circular pipe and the reinforcing pipe (P), and the line groove (P2) in the circular pipe. ) To stably form a depression.

In addition, through the detailed configuration of the main body unit 100, the linear arrangement of the transfer unit 200 and the line groove forming unit 300 can be facilitated, and interference with the drive chain 33 can be prevented.

In addition, through the coupling relationship between the line groove portion P2 and the second transfer means 20, the straightness of the line groove portion P2 is improved along the length direction of the circular pipe, and the line groove portion based on the length direction of the circular pipe ( It is possible to prevent inclination of P2) or distortion of the reinforcing pipe P.

In addition, through the detailed configuration of the first conveying means 10 and the second conveying means 20, a plurality of support rollers 12 and 22 are rotated in the same manner, and the linear movement of the circular pipe and the reinforcement pipe P is performed. Smoothly, the gripping rollers 15 and 25 can stably support the movement of the circular pipe and the reinforcement pipe P. In addition, through the elastic pressing portions 17 and 27, the support rollers 12 and 22 and the gripping rollers 15 and 25 respectively support the circular pipe or the reinforcement pipe P stably, and the circular pipe or the reinforcement pipe ( When P) is moved in a straight line, concentricity can be matched.

In addition, through the additional configuration of the gripping sprockets 16 and 26 and the gripping chains 161 and 261 in the conveying means 10 and 20, the gripping rollers 15 and 25 that can be idle are rotated at the same time, and the first gripping roller ( 15) The friction between the circular pipe and the second gripping roller 25 and the reinforcing pipe P can be suppressed or prevented to smooth the linear movement of the circular pipe or reinforcing pipe P.

In addition, through the detailed configuration of the elastic pressing portion (17, 27), the circular pipe or the reinforcing pipe (P) is inserted into the support rollers (12, 22) and the gripping rollers (15, 25) to easily adjust the gap, Due to the elastic force, the flow of the circular pipe or the reinforcement pipe P between the support rollers 12 and 22 and the gripping rollers 15 and 25 can be suppressed or prevented.

In addition, through the detailed configuration of the driving means 30, the same rotational force as the first supporting roller 12 of the first conveying means 10 and the second supporting roller 22 of the second conveying means 20 with one driving force It can be rotated in the same rotation direction.

In addition, the rotational force of the support rollers 12 and 22 can be adjusted through the additional configuration of the speed adjusting means 40.

In addition, it is possible to control the rotational movement of the support rollers 12 and 22 through the additional configuration of the control means 50 and stably form the line groove portion P2 in the circular pipe.

In addition, by forming the pre-groove part P1 and the line groove part P2 at the same position through the detailed configuration of the line groove forming unit 300, the thickness change in the line groove part P2 is prevented, and adjacent The convex portion between the two line groove portions P2 can be induced to exhibit a stable arc shape.

In addition, through the additional configuration of the finishing cover 80 in the line groove forming unit 300, the external manipulation of the groove forming means 60 and 70 is blocked as much as possible, and the groove forming means 60 and 70 in the main unit 100 To prevent flow.

In addition, through the detailed configuration of the groove forming means (60, 70) to facilitate the slide movement of the pressing means (62, 72) to the center of the through-holes (611, 711), from the center of the through-holes (611, 711) The wheel end portions 626 and 726 of the groove forming wheel portions 625 and 725 can be stably positioned.

In addition, through the detailed configuration of the pressing means (62, 72) to smooth the slide movement of the slider portion (621, 721) in the plate (61, 71), while the slider portion (621, 721) in the plate (61, 71) It is possible to minimize the flow of, and improve the accuracy of the depth of the line groove portion P2 by making the idle rotation of the groove forming wheel portions 625 and 725 clear.

In addition, by limiting the shape of the wheel end portions 626 and 726 in the groove forming wheel portions 625 and 725, the thickness of the line groove portion P2 is prevented by the groove forming wheel portions 625 and 725, and the line groove portion ( It is possible to prevent the damage of P2), and to prevent the line groove portion P2 from being cracked or torn by the groove forming wheel portions 625 and 725.

In addition, through the detailed configuration of the adjustment means (63, 73) can be precisely adjusted the position of the slider portion (621, 721) relative to the plate (61, 71) using the pitch of the thread, the slider portion (621, While minimizing the flow of 721, it is possible to stably maintain the state in which the groove forming wheel portions 625 and 725 protrude toward the center of the through hole portions 611 and 711.

In addition, the adjustment means (63, 73) through the additional configuration of the head portion (633, 733), while simplifying the rotation of the screw portion (631, 731), it is possible to precisely adjust the amount of rotation of the screw portion (631, 731) .

Although the preferred embodiments of the present invention have been described with reference to the drawings as described above, those skilled in the art may vary the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. It can be modified or changed.

P: Reinforcement pipe P1: Spare groove P2: Line groove
100: main unit 110: table 120: chain hole
130: support 200: transfer unit 300: line groove forming unit
10: first transport means 11: first roller support 12: first support roller
13: first support sprocket 131: first support chain 14: first roller grip
15: first phage roller 16: first phage sprocket 161: first phage chain
17: first elastic pressing portion 171: first pressing rod 172: first pressing hole
173: first pressing elastic portion 174: first support coupling portion 20: second transfer means
21: second roller support 22: second support roller 23: second support sprocket
231: second support chain 24: second roller grip zone 25: second grip roller
26: second grip sprocket 261: second grip chain 27: second elastic pressing portion
271: second pressing rod 272: second pressing hole 273: second pressing elastic portion
274: second support coupling portion 30: drive means 31: drive motor
311: drive shaft 32: drive sprocket 33: drive chain
331: first chain 332: second chain 40: speed control means
50: control means 60: first groove forming means 61: first plate
611: first passage hole portion 612: first guide groove portion 613: first guide rail portion
62: first pressing means 621: first slider portion 622: first rail groove portion
623: first fork portion 624: first shaft portion 625: first groove forming wheel portion
626: first wheel end portion 63: first adjustment means 631: first screw portion
632: 1st thread fixing section 633: 1st head part 70: 2nd groove forming means
71: 2nd plate 711: 2nd passage hole part 712: 2nd guide groove part
713: 2nd guide rail part 72: 2nd pressing means 721: 2nd slider part
722: 2nd rail groove part 723: 2nd fork part 724: 2nd shaft part
725: second groove forming wheel portion 726: second wheel end portion 73: second adjusting means
731: 2nd thread part 732: 2nd thread accident part 733: 2nd head part
80: finish cover

Claims (10)

It is a reinforcing pipe forming device that manufactures reinforcing pipes by molding two or more line grooves that are recessed in a straight shape along a longitudinal direction in a circular pipe,
Body unit;
A transfer unit formed elongated in the main body unit corresponding to the longitudinal direction of the circular pipe to linearly move the circular pipe in the longitudinal direction; And
It includes; a line groove forming unit for press-molding the line groove portion in a linear shape on an outer circumferential surface of the circular pipe that is linearly moved by the transfer unit in correspondence with the depth of the line groove portion.
The transfer unit,
First transfer means for linearly moving the circular pipe in the longitudinal direction from the input side based on the line groove forming unit;
A second transfer means for linearly moving the reinforcing pipe in the longitudinal direction from the discharge side based on the line groove forming unit; And
Includes; driving means for operating the first transfer means and the second transfer means at the same time;
The first transfer means and the second transfer means, respectively,
A pair of roller supports spaced apart from the line groove forming unit and formed long on the main unit;
A plurality of support rollers rotatably coupled between the pair of roller supports;
A support sprocket coupled to the support roller and rotatable together with the support roller;
A support connecting two adjacent support sprockets in a caterpillar;
A pair of roller grips spaced apart from the line groove forming unit and stacked on a pair of roller supports;
A plurality of gripping rollers rotatably coupled between the pair of roller grips; And
It includes; an elastic pressing portion for elastically pressing the roller grip toward the roller support so that the gripping roller generates a pressing force toward the support roller;
The support sprocket,
Is connected to the driving means is rotated by the driving means,
At least one of the first transfer means and the second transfer means,
A phage sprocket coupled coaxially to the phage roller and rotatable together with the phage roller; And
Reinforcement pipe forming apparatus further comprising; a gripping chain connecting two adjacent phage sprockets in an infinite track.
According to claim 1,
The second transport means,
Reinforcement pipe forming apparatus, characterized in that at least one of the line grooves are supported so as to move in a straight line.
According to claim 1,
The transfer unit,
Speed control means for adjusting the rotational force of the drive motor; And
Control means for controlling the operation of the drive motor and the speed adjusting means; Reinforcement pipe forming apparatus further comprising at least one of the.
According to claim 3,
The elastic pressing portion,
Two or more pressure rods protruding from the roller support;
A pressing hole formed through the roller grip so that the pressing rod passes;
A support coupling part spaced apart from the roller grip and screwed to an end of the pressure rod; And
Reinforcing pipe forming apparatus comprising a; pressing member for elastically pressing the roller grips based on the support coupling portion.
According to claim 3,
The driving means,
A drive motor that generates a rotational force for rotation of the drive shaft;
A pair of drive sprockets coupled to the drive shaft and rotated together with the drive shaft;
A drive chain that connects any one of the pair of drive sprockets and the support sprocket of the first transport means in a caterpillar, while connecting the other of the pair of drive sprockets and the support sprocket of the second transport means in a caterpillar ; Reinforcement pipe forming apparatus comprising a.
The method according to any one of claims 1 to 5,
The line groove forming unit,
The circular pipe which is installed in a position close to the first transfer means among the first transfer means and the second transfer means and moves linearly by the first transfer means in correspondence with the depth of the preliminary groove portion smaller than the depth of the line groove portion. A first groove forming means for press-molding the preliminary groove on the outer circumferential surface of the; And
It is installed at a position close to the second transport means among the first transport means and the second transport means to pass through the first groove forming means and move linearly by the first transport means corresponding to the depth of the line groove portion. And a second groove forming means for press-molding the line groove in the pre-groove formed on the outer circumferential surface of the circular pipe.
The method of claim 6,
The first groove forming means and the second groove forming means, respectively,
Is coupled to the body unit between the first transfer means and the second transfer means, the through-hole portion is formed to pass through the circular pipe, and corresponding to the forming position of the line groove portion radially from the center of the through-hole portion A plate including a guide groove formed in a depression and a guide rail formed by the guide groove;
A pressing means coupled to the guide groove portion of the plate to press the outer circumferential surface of the circular pipe passing through the through hole portion in a straight line along the longitudinal direction; And
And adjusting means for moving the pressing means in the normal direction extending from the center of the through hole portion in the plate corresponding to the depth of the preliminary groove portion or the depth of the line groove portion.
The method of claim 7,
The pressing means,
A slider unit fitted to the guide groove;
A rail groove portion extending from the slider portion so that the guide rail portion is slidably coupled;
A fork portion protruding from the slider portion toward a center of the passage hole portion; And
Reinforcing pipe forming apparatus comprising a; groove forming wheel portion rotatably coupled to the fork portion.
The method of claim 8,
The wheel end portion of the groove forming wheel portion,
A reinforcing pipe forming apparatus characterized by showing a semi-circular cross section or an arc-shaped cross section.
The method of claim 7,
The adjusting means,
A screw portion screwed to the plate corresponding to a normal direction extending from the center of the through hole portion while being rotatably supported on the slider portion; And
Reinforcing pipe forming apparatus comprising a; screw fixing to be screwed to the screw portion to secure the screw portion to the plate.

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