WO2008054136A1

WO2008054136A1 - Apparatus for manufacturing side plate for packaging coil

Info

Publication number: WO2008054136A1
Application number: PCT/KR2007/005427
Authority: WO
Inventors: Seung Hak Baik; Jae Yull Yeo
Original assignee: Samjung Packing & Aluminum Co., Ltd.
Priority date: 2006-10-31
Filing date: 2007-10-31
Publication date: 2008-05-08
Also published as: KR100757070B1

Abstract

An apparatus for manufacturing a side plate for packing a coil by forming inner and outer circumferences of the side plate in a workpiece plate through a single cutting process in a single production line is provided. Accordingly, the apparatus for manufacturing the side plate for packing a coil comprises: a loading plate on which a workpiece plate is loaded; an inner rotary cutter forming an inner circumference of the side plate by cutting the workpiece plate loaded on the loading plate while rotating the workpiece plate; and an outer rotary cutter forming an outer circumference of the side plate by cutting the workpiece plate loaded on the loading plate while rotating the workpiece plate, wherein the side plate for packing a coil is manufactured by forming the inner and outer circumferences of the side plate in the workpiece plate through a single cutting process in a single production line. It is possible to manufacture the side plate for packing a coil by forming the inner and outer circumferences of the side plate in the workpiece plate through a single cutting process in a single production line by comprising a loading plate on which a workpiece plate is loaded and inner and outer rotary cutters respectively forming the inner and outer circumferences of the side plate by cutting the workpiece plate loaded on the loading plate while rotating the workpiece plate.

Description

APPARATUS FOR MANUFACTURING SIDE PLATE FOR

PACKAGING COIL

Technical Field

[I] The present invention relates to an apparatus for manufacturing a side plate for packing a coil, and more particularly, to an apparatus for manufacturing a side plate for packing a coil in order to manufacture the side plate for packing a coil by forming inner and outer circumferences of the side plate in a workpiece plate through a single cutting process in a single production line.

[2]

Background Art

[3] In general, a steel plate produced in an iron works is wound in a coil form. Side plates are attached on both sides of the coil and bound by a strap so as to pack the coil.

[4] At this time, a side plate for packing a coil is cut out from a square workpiece plate so as to form cocentric inner and outer circumferences of the side plate, thereby having a shape like a donut.

[5]

[6] In order to manufacture the side plate for packing a coil, a process of cutting the workpiece plate is performed in two production lines as follows.

[7] First, a workpiece plate that is used to manufacture a side plate for packing a coil is produced in a square shape with a predetermined size by a cutter.

[8] Then, in one production line, the workpiece plate is cut so that an inner circumference that is an inner cocentric circle of the side plate for packing a coil is formed. In the other production line, the workpiece plate is cut so that an outer circumference that is an outer cocentric circle of the side plate for packing a coil is formed.

[9] As a result, the side plate for packing a coil is manufactured in a donut shape by cutting a square workpiece plate to form cocentric inner and outer circumferences of the side plate in two production lines.

[10]

[I I] In the aforementioned apparatus for manufacturing the side plate for packing a coil, a product is manufactured through processes in two production lines.

[12] Accordingly, since it takes much time to manufacture a product, productivity of the product within a given time is low. [13] [14] In addition, since two production lines are installed in order to manufacture a product, equipment investment increases, and it is difficult to effectively use spaces due to the two production lines.

[15] In addition, since a worker handles the heavy workpiece plate, various accidents may frequently occur.

[16]

Disclosure of Invention Technical Problem

[17] The present invention provides an apparatus for manufacturing a side plate for packing a coil by forming inner and outer circumferences of the side plate in a workpiece plate through a single cutting process in a single production line.

[18]

Technical Solution

[19] According to an aspect of the present invention, there is provided an apparatus for manufacturing a side plate for packing a coil, comprising: a loading plate on which a workpiece plate is loaded; an inner rotary cutter forming an inner circumference of the side plate by cutting the workpiece plate loaded on the loading plate while rotating the workpiece plate; and an outer rotary cutter forming an outer circumference of the side plate by cutting the workpiece plate loaded on the loading plate while rotating the workpiece plate, wherein the side plate for packing a coil is manufactured by forming the inner and outer circumferences of the side plate in the workpiece plate through a single cutting process in a single production line.

[20] In the above aspect of the present invention, the inner and outer rotary cutters comprise upper and lower cutters arranged respectively in upper and lower sides of the workpiece plate to correspond to each other and rotated by rotary motors, and wherin the upper cutters may move down by a moving cylinders and pres singly support the upper and lower surfaces of the workpiece plate together with the lower cutters, thereby cutting the workpiece plate while rotating the workpiece plate.

[21] In addition, the aforementioned apparatus may further comprise a screw axis rotated by a screw motor so that the outer rotary cutter is movable toward the center of the workpiece plate.

[22] In addition, the aforementioned apparatus may further comprise a fixer provided with a pressure member which rotates while pressingly supporting the center of the workpiece plate loaded on the loading plate by a pressure supporting cylinder.

[23] In addition, the aforementioned apparatus may further comprise a first vacuum absorber which absorbs the side plate for packing a coil under a vacuum, pivots by a pivot motor, and conveys the workpiece plate to a product receptacle, the side plate being manufactured by cutting the workpiece plate with the inner and outer rotary cutters.

[24] On the other hand, the aforementioned apparatus may further comprise a conveying unit for conveying the workpiece plate to the loading plate, wherein the loading unit may includes: a carrying vehicle loading and conveying the workpiece plate; a conveyor conveying the loaded workpiece plates that is carried by the carrying vehicle by vacuum-absorbing the loaded workpiece plates one by one; and an aligner centering the workpiece plate conveyed by the conveyor and transferring to the loading plate.

[25] At this time, the conveyor may include: a conveying frame; a conveying member provided in the conveying frame and reciprocating between the carrying vehicle and the aligner by a conveying motor; and a second vacuum absorber installed on the conveying member and moving up and down by a conveying cylinder.

[26] In addition, the aligner may include: an alignment frame on which the workpiece plate conveyed by the conveyor is loaded; a screw bar installed on a side of the alignment frame and rotated by an alignment motor; an alignment member constructed so as to be engaged with both ends of the screw bar and movable along the screw bar, the alignment member centering the workpiece plate; a rack installed on an upper part of the alignment frame in a longitudinal direction; and a push member constructed so as to be movable along the rack by a push motor having a rack gear engaged with the rack, the push member pushing the workpiece plate toward the loading plate.

[27]

Brief Description of the Drawings

[28] The above and other features and advantages of the present invention will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings in which:

[29] FIG. 1 is a front view illustrating an apparatus for manufacturing a side plate for packing a coil according to an exemplary embodiment of the present invention;

[30] FIG. 2 is a top plan view illustrating the apparatus for manufacturing the side plate for packing a coil of FIG. 1 which further includes a first vacuum absorber;

[31] FIG. 3 is a side view illustrating a carrying vehicle and a conveyor in the apparatus for manufacturing the side plate for packing a coil of FIG. 1;

[32] FIG. 4 is a front view illustrating an aligner in the apparatus for manufacturing the side plate for packing a coil of FIG. 1 ;

[33] FIG. 5 is a top plan view illustrating the aligner of FIG. 4;

[34] FIG. 6 is a side view illustrating the aligner of FIG. 1 ;

[35] FIG. 7 is a front view illustrating a fixer and an outer rotary cutter in the apparatus for manufacturing the side plate for packing a coil of FIG. 1;

[36] FIG. 8 is a top plan view illustrating an inner and the outer rotary cutters and a first vacuum absorber in the apparatus for manufacturing the side plate for packing a coil of FIG. 1;

[37] FIG. 9 is a perspective view illustrating a workpiece plate cut by the inner and outer rotary cutters of FIG. 8; and

[38] FIG. 10 illustrates a receptacle for receiving products obtained by cutting a workpiece plate and a receptacle for receiving outer cut parts.

[39]

Best Mode for Carrying Out the Invention

[40] FIG. 1 is a front view illustrating an apparatus for manufacturing a side plate for packing a coil according to an exemplary embodiment of the present invention. FIG. 2 is a top plan view illustrating the apparatus for manufacturing the side plate for packing a coil of FIG. 1 which further includes a first vacuum absorber.

[41] Referring to drawings, the apparatus for manufacturing the side plate for packing a coil serves to cut a workpiece plate 1 so as to form inner and outer circumference of the side plate in the workpiece plate 1 through a single process in a single production line in order to pack a steel coil. The apparatus for manufacturing the side plate for packing a coil comprises a conveying unit for conveying the workpiece plate 1, a fixer 50 for fixing the conveyed workpiece plate 1, an inner and outer rotary cutters 60 and 70 for cutting the fixed workpiece plate 1, and a first vacuum absorber 80 for conveying the cut and finished product.

[42] At this time, the conveying unit includes a carrying vehicle 10, a conveyor 20, and an aligner 30. The conveying unit serves to convey the workpiece plate 1 that is cut in a square shape to a loading plate 40 to be described later, so as to manufacture the side plate for packing a coil.

[43]

[44] FIG. 3 is a side view illustrating a carrying vehicle and a conveyor in the apparatus for manufacturing the side plate for packing a coil of FIG. 1.

[45] Referring to FIGS. 1 and 3, the carrying vehicle 10 is constructed so that the workpiece plate 1 that is cut in a square shape is loaded on the upper surface of the carrying vehicle 10. The carrying vehicle 10 includes a driving roller 12 installed at lower end of the carrying vehicle 10 and a carrying motor 11 for supplying driving power to the driving roller 12.

[46] In the aforementioned carrying vehicle 10, the driving roller 12 is driven by the carrying motor 11, and accordingly, the loaded workpiece plates Ia are conveyed to the conveyor 20 to be described later.

[47] At this time, a guide rail 13 may be installed on the bottom surface of a path in which the carrying vehicle 10 moves to the conveyor 20. The driving roller 12 in the lower end of the carrying vehicle 10 is engaged in the guide rail 13 so that the driving roller 12 is movable in the guide rail 13, and accordingly, the carrying vehicle 10 easily moves to the conveyor 20 along the guide rail 13.

[48] The conveyor 20 serves to convey the loaded workpiece plates Ia that is carried by the carrying vehicle 10 by vacuum- absorbing the loaded workpiece plates 1 one by one. The conveyor 20 includes a conveying frame 21, a conveying member 23 mounted on the conveying frame 21, and a second vacuum absorber 25 that is installed on the conveying member 23, thereby moving up and down by the conveying cylinder 26.

[49] At this time, the conveying frame 21 is located relatively higher than the carrying vehicle 10, so that the conveying member 23 is located at an upper side of the carrying vehicle 10.

[50]

[51] In addition, the conveying member 23 is installed on an upper surface of the conveying frame 21. The conveying member 23 is constructed so as to reciprocate between the carrying vehicle 10 and the aligner 30 to be described later by a conveying motor 24. The conveying member 23 includes a conveying roller 23a at a lower end of the conveying member 23 and the conveying motor 24 for supplying driving power to the conveying roller 23 a.

[52] The conveying roller 23a is driven by the conveying motor 24, and accordingly, the aforementioned conveying member 23 serves to convey the workpiece plate 1 to the aligner 30.

[53] At this time, a guide rail 22 may be installed on the bottom surface of a path in which the conveying member 23 moves to the aligner 30. The conveying roller 23a in the lower end of the conveying member 23 is engaged in the guide rail 22, so that the conveying roller 23a is movable in the guide rail 22, and accordingly, the conveying member 23 easily moves to the aligner 30 along the guide rail 22.

[54]

[55] In addition, the second vacuum absorber 25 is installed in the conveying member 23, thereby moving up and down by the conveying cylinder 26. That is, the second vacuum absorber 25 is installed on the lower surface of the conveying member 23 and driven by the conveying cylinder 26, thereby moving up and down.

[56] The aforementioned second vacuum absorber 25 moves down so as to lift up a single workpiece plate 1 located on the top of the workpiece plates Ia loaded on the carrying vehicle 10 by vacuum-absorbing the single workpiece plate 1. In this state, the conveying member 23 moves to the upper side of the aligner 30 by the conveying motor 24, and the second vacuum absorber 25 moves down so as to place the workpiece plate 1 on the aligner 30. [57]

[58] FIG. 4 is a front view illustrating an aligner in the apparatus for manufacturing the side plate for packing a coil of FIG. 1. FIG. 5 is a top plan view illustrating the aligner of FIG. 4. FIG. 6 is a side view illustrating the aligner of FIG. 1.

[59] Referring to FIGS. 4 to 6, the aligner 30 serves to center the workpiece plate 1 conveyed by the conveyor (20 of FIG. 1) and to convey the workpiece plate 1 to the loading plate (40 of FIG. 1). The aligner 30 includes an alignment frame 31, a screw bar 32 installed in the alignment frame 31, an alignment member 34 constructed so as to be movable along the screw bar 32, a rack 35 installed in an upper part of the alignment frame 31, and a push member 38 including a push motor 37 having a rack gear 36 engaged with the rack 35.

[60] At this time, the alignment frame 31 is constructed so that the upper surface of the alignment frame 31 is connected to the upper surface of the loading plate 40 in order to easily move the workpiece plate 1 to the loading plate 40.

[61]

[62] In addition, the screw bar 32 is installed on a side of the alignment frame 31 and constructed so as to be rotated by an alignment motor 33.

[63] The alignment members 34 are constructed so as to be engaged with both ends of the aforementioned screw bar 32 and to be movable along the screw bar 32, thereby centering the workpiece plate 1 loaded on the alignment frame 31.

[64] That is, the alignment member 34 serves to push both sides of the workpiece plate 1 loaded on the alignment frame 31 while moving along the screw bar 32 and to position the workpiece plate 1 on the alignment frame 31.

[65]

[66] In addition, the rack 35 is installed on an upper part of the alignment frame 31 in a longitudinal direction. The push member 38 is constructed so as to be movable along the rack 35 by the push motor 37 having the rack gear 36 engaged with the rack 35.

[67] The aforementioned push member 38 serves to push and convey the workpiece plate

1 loaded on the alignment frame 31 toward the loading plate 40, while moving along the rack 35 by the push motor 37.

[68] On the other hand, in the aligner 30, a sensor (not shown) sensing the workpiece plate 1 loaded on the alignment frame 31 by second vacuum absorber (25 of FIG. 3) is installed in the alignment frame 31. The sensor allows the alignment motor 33 to operate to center the workpiece plate 1 by sensing the workpiece plate 1 loaded on the alignment frame 31.

[69]

[70] As described above, the apparatus for manufacturing the side plate for packing a coil according to the embodiment of the present invention carries the loaded workpiece plates Ia, conveys and aligns the loaded workpiece plates Ia one by one, and automatically and conveniently conveys the workpiece plate 1 to the loading plate 40 for cutting the workpiece plate 1 by including a conveying unit having the carrying vehicle 10, the conveyor 20, and the aligner 30.

[71]

[72] FIG. 7 is a front view illustrating a fixer and an outer rotary cutter in the apparatus for manufacturing the side plate for packing a coil of FIG. 1. FIG. 8 is a top plan view illustrating the inner and outer rotary cutters and a first vacuum absorber in the apparatus for manufacturing the side plate for packing a coil of FIG. 1. FIG. 9 is a perspective view illustrating a workpiece plate cut by the inner and outer rotary cutters of FIG. 8.

[73] Referring to FIGS. 7 to 9, the fixer 50 is provided with a pressure supporting member

51 that rotates while pressingly supporting the workpiece plate 1 by a pressure supporting cylinder 52. When the workpiece plate 1 conveyed by the aligner 30 is loaded on the loading plate 40, the fixer 50 pressingly supports and fixes the center part of the workpiece plate 1, so that the workpiece plate 1 is rotatable.

[74] That is, the pressure supporting member 51 pressingly supports and fixes the center part of the workpiece plate 1 that is rotated by inner and outer rotary cutter 60 and 70 so that the workpiece plate 1 is rotatable.

[75]

[76] The aforementioned fixer 50 pressingly supports and fixes the center part of the workpiece plate 1 so that the workpiece plate 1 is rotatable, thereby preventing the center part of the workpiece plate 1 from deviating from the rotation center.

[77]

[78] In addition, the inner and outer rotary cutters 60 and 70 comprise upper cutters 61 and 71 and lower cutters 62 and 72 arranged respecively in upper and lower sides of the workpiece plate to correspond to each other, and rotated by rotary motors 61 and 71. The upper cutters 61 and 71 are constructed so to move down by a moving cylinders 63 and 73.

[79] The aforementioned upper cutters 61 and 71 move down by the moving cylinders 63 and 73 and pressingly support the upper and lower surfaces of the workpiece plate 1 together with the lower cutters 62 and 72. At this time, when the upper and lower cutters 61, 71, 62, and 72 are rotated by a rotary motors 64 and 74, the workpiece plate 1 is cut by the upper and lower cutters 61, 71, 62, and 72 while rotating.

[80]

[81] At this time, the apparatus for manufacturing the side plate for packing a coil according to the embodiment of the present invention may further include a screw axis 76 rotated by a screw motor 77 so that the outer rotary cutter 70 is movable toward the center of the workpiece plate 1.

[82] The outer rotary cutter 70 and the rotary motor 74 supplying driving power in order to rotate the outer rotary cutter 70 are installed in an outer housing 75. The screw axis 76 is engaged with the lower part of the outer housing 75, so that the outer housing 75 is movable toward the center of the workpiece plate 1. In order to rotate the screw axis 76, driving power is supplied by the screw motor 77 engaged with an end part of the screw axis 76.

[83]

[84] Accordingly, it is possible to control a size of an outer circumference of a side plate 3 for packing a coil to be manufactured.

[85] That is, the size of the outer circumference of the coil is changed based on the number of windings. The apparatus for manufacturing the side plate for packing a coil according to the embodiment of the present invention can control the size of the outer circumference of the side plate 3 formed in the workpiece plate 1 in correspondence with the size of the changed outer circumference of the coil by including the outer rotary cutter 70 that is movable along the screw axis 76 rotated by the screw motor 77.

[86] The apparatus for manufacturing the side plate for packing a coil according to the embodiment of the present invention may further include a screw axis (not shown) rotated by a screw motor (not shown), so that the inner rotary cutter 60 is movable toward the center of the workpiece plate 1.

[87]

[88] The aforementioned inner rotary cutter 60 forms an inner circumference of the side plate 3 by cutting the workpiece plate 1 loaded on the loading plate 40 while rotating the workpiece plate 1. The outer rotary cutter 70 forms an outer circumference of the side plate 3 by cutting the workpiece plate 1 loaded on the loading plate 40 while rotating the workpiece plate 1.

[89] Accordingly, the square workpiece plate 1 is manufactured as a side plate 3 for packing a coil in a donut shape having inner and outer circumferences.

[90] The apparatus for manufacturing the side plate for packing a coil according to the embodiment of the present invention can manufacture the side plate 3 for packing a coil by forming inner and outer circumferences of the side plate 3 in the workpiece plate 1 through a single cutting process in a single production line by including the loading plate 40 on which the workpiece plate 1 is loaded, and the inner and outer rotary cutters 60 and 70 for forming inner and outer circumferences of the side plate 3 by cutting the workpiece plate 1 loaded on the loading plate 40 while rotating the workpiece plate 1.

[91] Thus, the apparatus for manufacturing the side plate for packing a coil according to the embodiment of the present invention can improve productivity of the side plate 3 for packing a coil for a given time. In addition, it is possible to reduce the cost and space of equipments by changing two production lines into a single production line installed to manufacture a side plate 3 for packing a coil.

[92] In addition, in the present invention, a worker dose not handle the heavy workpiece plate 1, it is possible to reduce a danger due to a manual process.

[93]

[94] FIG. 10 illustrates a receptacle for receiving products obtained by cutting a workpiece plate and a receptacle for receiving outer-cut parts.

[95] Referring to FIGS. 9 and 10, the apparatus for manufacturing the side plate for packing a coil according to the embodiment of the present invention further includes a first vacuum absorber 80 which absorbs the side plate 3 for packing a coil under a vacuum, pivots by a pivot motor 81, and conveys the workpiece plate 1 to a product receptacle 83, the side plate 3 being manufactured by cutting workpiece plate with the inner and outer rotary cutters 60 and 70.

[96] In addition, the apparatus for manufacturing the side plate for packing a coil according to the embodiment of the present invention further includes an inner-cut parts receptacle 84 for receiving inner-cut parts 4 and an outer-cut parts receptacle 86 for receiving outer-cut parts 5.

[97] In addition, two guideline members (82 of FIG. 8) are installed on a movement path of the first vacuum absorber 80 from the loading plate 40 to the product receptacle 83. It is preferable that the distance between the two guideline members 82 is smaller than the diameter of the side plate 3 for packaging a coil and longer than the diameter of the inner-cut part.

[98]

[99] Accordingly, the workpiece plate 1 having the inner-cut part 4 is absorbed by the first vacuum absorber 80 under a vacuum and slid along the upper surface of the two guideline members 82, as the first vacuum absorber 80 pivots by the pivot motor 81.

[100] While the workpiece plate 1 having the inner-cut part 4 is being slid, the inner-cut part 4 falls into the inner-cut parts receptacle 84 located under a space between the two guideline members 82, and the side plate 3 for packing a coil falls into the product receptacle 83 located at ends of the two guideline members 82. The first vacuum absorber 80 suitably controls absorbing power so that the inner-cut part 4 or the side plate 3 for packing a coil falls into spaces that lack the two guideline members 82.

[101]

[102] On the other hand, the apparatus for manufacturing the side plate for packing a coil according to the embodiment of the present invention further includes a cutter 85 for cutting the outer-cut part 5 from the cut workpiece plate 1 and a outer-cut parts receptacle 86 for receiving the outer-cut part 5 cut by the cutter 85. [103] Here, the outer-cut part 5 is lead into the cutter 85 by being pushed by the next workpiece plate 1. The outer-cut part 5 that is lead into the cutter 85 is cut into a plurality of pieces and received by the outer-cut parts receptacle 86.

[104]

[105] Accordingly, the apparatus for manufacturing the side plate for packing a coil according to the embodiment of the present invention can automatically and easily collect the side plate 3 for packing a coil by including the first vacuum absorber 80 that absorbs the side plate 3 for packing a coil under a vacuum which is manufactured by cutting the workpiece plate 1, pivots by the pivot motor 81, and conveys the side plate 3 to the product receptacle 83. In addition, the apparatus for manufacturing the side plate for packing a coil according to the embodiment of the present invention can collect the inner-cut part 4 and the outer-cut part 5 of the workpiece plate 1 by including the two guideline members 82, the inner-cut parts receptacle 84, the cutter 85, and the outer-cut parts receptacle 86.

[106]

Industrial Applicability

[107] It is possible to manufacture the side plate for packing a coil by forming the inner and outer circumferences of the side plate in the workpiece plate through a single cutting process in a single production line by including a loading plate on which a workpiece plate is loaded and inner and outer rotary cutters respectively forming the inner and outer circumferences of the side plate by cutting the workpiece plate loaded on the loading plate while rotating the workpiece plate.

[108] Accordingly, it is possible to improve productivity of the side plate for packing a coil for a given time. In addition, it is possible to reduce the cost and space of equipments by changing two production lines into a single production line installed to manufacture the side plate for packing a coil.

[109] In addition, in the present invention, a worker dose not handle the heavy workpiece plate, it is possible to reduce a danger due to a manual process.

[HO]

[111] In addition, the apparatus for manufacturing the side plate for packing a coil according to the embodiment of the present invention can automatically and easily collect the side plate for packing a coil by including the first vacuum absorber that absorbs the side plate for packing a coil under a vacuum which is manufactured by cutting the workpiece plate, pivots by the pivot motor, and conveys the side plate to the product receptacle. In addition, the apparatus for manufacturing the side plate for packing a coil according to the embodiment of the present invention can collect the inner-cut part and the outer-cut part of the workpiece plate by including the two guideline members, the inner-cut parts receptacle, the cutter, and the outer-cut parts receptacle.

[112] On the other hand, the apparatus for manufacturing the side plate for packing a coil according to the embodiment of the present invention carries the loaded workpiece plates, conveys and aligns the loaded workpiece plates one by one, and automatically and conveniently conveys the workpiece plate to the loading plate for cutting the workpiece plate by including a conveying unit having the carrying vehicle, the conveyor, and the aligner.

[113]

[114] While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

Claims

[1] An apparatus for manufacturing a side plate for packing a coil, comprising: a loading plate on which a workpiece plate is loaded; an inner rotary cutter forming an inner circumference of the side plate by cutting the workpiece plate loaded on the loading plate while rotating the workpiece plate; and an outer rotary cutter forming an outer circumference of the side plate by cutting the workpiece plate loaded on the loading plate while rotating the workpiece plate, wherein the side plate for packing a coil is manufactured by forming the inner and outer circumferences of the side plate in the workpiece plate through a single cutting process in a single production line.

[2] The apparatus of claim 1, wherein the inner and outer rotary cutters comprise upper and lower cutters arranged respectively in upper and lower sides of the workpiece plate to correspond to each other and rotated by rotary motors, and wherein the upper cutters move down by a moving cylinders and pres singly support the upper and lower surfaces of the workpiece plate together with the lower cutters, thereby cutting the workpiece plate while rotating the workpiece plate.

[3] The apparatus of claim 2, further comprising a screw axis rotated by a screw motor so that the outer rotary cutter is movable toward the center of the workpiece plate.

[4] The apparatus of claim 1, further comprising a fixer provided with a pressure member which rotates while pressingly supporting the center of the workpiece plate loaded on the loading plate by a pressure supporting cylinder.

[5] The apparatus of claim 1, further comprising a first vacuum absorber which absorbs the side plate for packing a coil under a vacuum, pivots by a pivot motor, and conveys the workpiece plate to a product receptacle, the side plate being manufactured by cutting the workpiece plate with the inner and outer rotary cutters.

[6] The apparatus of any one of claims 1 to 5, further comprising a conveying unit for conveying the workpiece plate to the loading plate, wherein the loading unit includes: a carrying vehicle loading and conveying the workpiece plate; a conveyor conveying the loaded workpiece plates that is carried by the carrying vehicle by vacuum-absorbing the loaded workpiece plates one by one; and an aligner centering the workpiece plate conveyed by the conveyor and tranf erring to the loading plate. [7] The apparatus of claim 6, wherein the conveyor includes: a conveying frame; a conveying member provided in the conveying frame and reciprocating between the carrying vehicle and the aligner by a conveying motor; and a second vacuum absorber installed on the conveying member and moving up and down by a conveying cylinder. [8] The apparatus of claim 6, wherein the aligner includes: an alignment frame on which the workpiece plate conveyed by the conveyor is loaded; a screw bar installed on a side of the alignment frame and rotated by an alignment motor; an alignment member constructed so as to be engaged with both ends of the screw bar and movable along the screw bar, the alignment member centering the workpiece plate; a rack installed on an upper part of the alignment frame in a longitudinal direction; and a push member constructed so as to be movable along the rack by a push motor having a rack gear engaged with the rack, the push member pushing the workpiece plate toward the loading plate.