METAL COIL COMPRESSION BINDING APPARATUS

Abstract

A metal coil compression device includes: a lifting device configured to generate a vertically downward pressing force; a cylindrical outer pressure barrel that is supported by the lifting device; a cylindrical inner pressure barrel that is located inside a peripheral wall of the outer pressure barrel; and a connecting mechanism that connects the inner and outer pressure barrels so that the inner and outer pressure barrels are vertically engaged and are supported relatively rotatably in a circumferential direction. The outer pressure barrel has an outer recess being recessed vertically upward from a bottom end. The inner pressure barrel has an inner recess in a peripheral wall of the inner pressure barrel, the inner recess being recessed vertically upward from a bottom end, and a coil pressing surface that makes contact with a top of the metal coil to transmit the vertically downward pressing force to the metal coil.

Claims

1. A metal coil compression device configured to axially compress a metal coil placed with an axis thereof vertical to bind the metal coil with a binding band, the metal coil compression device comprising: a lifting device configured to generate a vertically downward pressing force; a cylindrical outer pressure barrel that is supported by the lifting device so that it can move vertically and has an opening opened vertically downward on a bottom thereof; a cylindrical inner pressure barrel that is located inside a peripheral wall of the outer pressure barrel; and a connecting mechanism that is located between the inner pressure barrel and the outer pressure barrel, and connects the inner and outer pressure barrels so that the inner and outer pressure barrels are vertically engaged and are supported relatively rotatably in a circumferential direction, wherein the outer pressure barrel has an outer recess in the peripheral wall of the outer pressure barrel, the outer recess being recessed vertically upward from a bottom end, and the inner pressure barrel has an inner recess in a peripheral wall of the inner pressure barrel, the inner recess being recessed vertically upward from a bottom end, and a coil pressing surface that is located at the bottom end of the peripheral wall of the inner pressure barrel and makes contact with a top of the metal coil to transmit the vertically downward pressing force to the metal coil.

2. The metal coil compression device according to claim 1, wherein the inner pressure barrel has a plurality of the inner recesses in the circumferential direction.

3. The metal coil compression device according to claim 1, comprising: a placing table on which the metal coil is placed; and a rotation mechanism configured to rotate the placing table with the inner pressure barrel.

4. A metal coil compression binding apparatus including: the metal coil compression device according to claim 1; and a binding device that binds the metal coil placed with an axis thereof vertical with the binding band, wherein the binding device includes a binding band insertion portion configured to insert the binding band into both the outer recess and the inner recess.

5. The metal coil compression device according to claim 2, comprising: a placing table on which the metal coil is placed; and a rotation mechanism configured to rotate the placing table with the inner pressure barrel.

6. A metal coil compression binding apparatus including: the metal coil compression device according to claim 5; and a binding device that binds the metal coil placed with an axis thereof vertical with the binding band, wherein the binding device includes a binding band insertion portion configured to insert the binding band into both the outer recess and the inner recess.

7. A metal coil compression binding apparatus including: the metal coil compression device according to claim 2; and a binding device that binds the metal coil placed with an axis thereof vertical with the binding band, wherein the binding device includes a binding band insertion portion configured to insert the binding band into both the outer recess and the inner recess.

8. A metal coil compression binding apparatus including: the metal coil compression device according to claim 3; and a binding device that binds the metal coil placed with an axis thereof vertical with the binding band,

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0018] FIG. 1 is a top view of a metal coil compression binding apparatus according to an embodiment of the present invention.

[0019] FIG. 2(A) is a side view of the metal coil compression binding apparatus.

[0020] FIG. 2(B) is an explanatory diagram of a compression operation of the metal coil compression binding apparatus.

[0021] FIG. 3 is an explanatory diagram of coil pressing surfaces located at the bottom of an inner pressure barrel.

[0022] FIG. 4(A) is an explanatory diagram of an outer pressure barrel.

[0023] FIG. 4(B) is an operation explanatory diagram of the outer pressure barrel and the inner pressure barrel located therein.

[0024] FIG. 5(A) is an explanatory diagram of an operation of a binding device and the metal coil compression device.

[0025] FIG. 5(B) is an explanatory diagram of an operation of the metal coil compression device where the inner pressure barrel rotates simultaneously with the metal coil.

[0026] FIG. 5(C) is an explanatory diagram showing a mode where a binding band insertion portion is inserted into the metal coil compression device again.

[0027] FIG. 6(A) is an explanatory diagram of a conventional metal coil compression binding apparatus 125.

[0028] FIG. 6(B) is an explanatory diagram showing a mode where a metal coil 120 is compressed and bound by the compression binding apparatus 125.

DETAILED DESCRIPTION

[0029] An embodiment of the present invention will be described below with reference to the accompanying drawings.

[0030] FIGS. 1 to 5 show an example of a mode for carrying the invention. In the diagrams, parts designated by the same reference numerals represent the same components. A basic configuration is similar to the conventional one shown in the diagram.

[0031] FIG. 1 is an explanatory diagram of a metal coil compression binding apparatus 1 according to the embodiment of the present invention. The metal coil compression binding apparatus 1 includes a metal coil compression device 7 including a metal coil setting area 5 where the direction of a metal coil 20 is changed and a metal coil compression binding area 10 where the metal coil is compressed and bound, and a binding device 35. The metal coil compression binding area 10 includes a lifting device 25, and a metal coil compression unit 75 is moved up and down to compress the metal coil 20 via coil pressing surfaces 30. A steel strip for use in the binding device 35 is transported by a jib crane 40.

[0032] Specifically, the metal coil compression binding apparatus 1 includes the metal coil compression device 7 that axially compresses the metal coil 20 placed with its axis vertical, and the binding device 35 that binds the metal coil 20 with binding bands. The metal coil compression device 7 includes the lifting device 25 that generates a vertically downward pressing force, a cylindrical outer pressure barrel 50 (see FIG. 2(A) to be described below) that is supported by the lifting device 25 so that it can move vertically and has an opening 63 (see FIG. 4(A) to be described below) opened vertically downward at the bottom, a cylindrical inner pressure barrel 45 (see FIG. 2(A) to be described below) that is located inside a peripheral wall of the outer pressure barrel 50, and connecting mechanisms 53 (see FIG. 2(A) to be described below) that are located between the inner pressure barrel 45 and the outer pressure barrel 50 and connect the inner and outer pressure barrels so that the inner and outer pressure barrels are vertically engaged and supported relatively rotatably in the circumferential direction. The outer pressure barrel 50 has an outer recess 60 in the peripheral wall of the outer pressure barrel 50, the outer recess 60 being recessed vertically upward from the bottom end. The inner pressure barrel 55 has inner recesses 55 in a peripheral wall of the inner pressure barrel 45, the inner recesses 55 being recessed vertically upward from the bottom end, and the coil pressing surfaces 30 that are located at the bottom end of the peripheral wall of the inner pressure barrel 45 and make contact with the top of the metal coil 20 to transmit the vertically downward pressing force to the metal coil 20. The binding device 35 includes a binding band insertion portion 85 (see FIG. 5(A) to be described below) that inserts a binding band into both the outer recess 60 and an inner recess 55.

[0033] In terms of miniaturization, it is desirable that the lifting device 25 move the metal coil compression device 75 up and down to generate the pressing force by using servomotors. More specifically, the pressing force is preferably generated by rotating ball screws included in the lifting device 25 using servomotors. It should be understood that hydraulic pistons may be used to generate the pressing force.

[0034] FIG. 2(A) is a side view of the metal coil compression device 7 in the metal coil compression binding apparatus 1. The metal coil 20 is wound around a carrier 15, transported with its center axis horizontal, and placed on the metal coil setting area 5 of the metal coil compression device 7. The metal coil 20 is rotated and turned in the direction of the arrow by a cycloidal reduction gear 70 and a chain transmission, such that its center axis is vertical. The metal coil 20 is moved from the metal coil setting area 5 to the metal coil compression binding area 10 by a carriage 65.

[0035] FIG. 2(B) is an explanatory diagram of a compression operation of the metal coil compression device 7 in the metal coil compression binding apparatus 1. The metal coil 20 is transported to a placing table 90 by the carriage 65. In the metal coil compression device 7, the outer recess 60 in the peripheral wall of the outer pressure barrel 50 is directed so that the binding band insertion portion 85 of the binding device 35 can be inserted thereinto. The outer pressure barrel 50 held by the lifting device 25 accommodates the inner pressure barrel 45, and the outer pressure barrel 50 and the inner pressure barrel 45 are held rotatably in the horizontal direction by the connecting mechanisms 53 (see FIG. 4 to be described below). Moving the outer pressure barrel 50 vertically up and down by the lifting device 25 generates a pressing force against the metal coil 20. Specifically, the pressing surfaces 30 located at the bottom of the inner pressure barrel 45 held by the outer pressure barrel 50 vertically press the top of the metal coil 20, whereby the metal coil 20 is compressed in the center axis direction.

[0036] The peripheral wall of the inner pressure barrel 45 has a plurality of inner recesses 55. A rotation mechanism 95 rotates the inner pressure barrel 45 with the metal coil 20 so that one of the inner recesses 55 is directed to the inserting direction of the binding band insertion portion 85 like the outer recess 60.

[0037] Specifically, the metal coil compression binding apparatus 1 further includes the placing table 90 on which the metal coil 20 is placed, and the rotation mechanism 65 that rotates the placing table 90 with the inner pressure barrel 45.

[0038] FIG. 3 is an explanatory diagram showing the coil pressing surfaces 30 located at the bottom of the inner pressure barrel 45. There are a plurality of coil pressing surfaces 30, which receive the pressing force occurring when the outer pressure barrel 50 is moved vertically downward by the lifting device 25 from the outer pressure barrel 50 and transmit the pressing force to the top of the metal coil 20.

[0039] FIG. 4(A) is an explanatory diagram showing the outer pressure barrel 50. The outer pressure barrel 50 is cylindrical in shape and has the opening 63 opened vertically downward at the bottom. The peripheral wall of the outer pressure barrel 50 has the outer recess 60. The outer pressure barrel 50 is held by the lifting device 25 so that it can move vertically (see FIG. 3(B)).

[0040] FIG. 4(B) is an explanatory diagram of the operation of the outer pressure barrel 50 and the inner pressure barrel 45 located therein. The inner pressure barrel 45 is accommodated inside the outer pressure barrel 50 via the opening 63. The inner pressure barrel 45 is axially engaged with, and held rotatably in the circumferential direction on, the outer pressure barrel 50 by the connecting mechanisms 53. If the outer pressure barrel 50 is moved vertically downward (in the direction of the hollow arrow in FIG. 4) by the lifting device 25, the coil pressing surfaces 30 compress the metal coil 20 in the center axis direction.

[0041] The steel strip can be inserted into the inside of the metal coil 20 by aligning the positions of the outer recess 60 of the outer pressure barrel 50 and the inner recesses 55 of the inner pressure barrel 45 (see FIG. 5 to be described below).

[0042] The pressing force on the metal coil 20 may be generated by using servomotors and rolling ball screws for the lifting device 25, for example. It should be understood that hydraulic pistons and the like may be used.

[0043] FIG. 5(A) is an explanatory diagram of the operation of the binding device 80 and the metal coil compression device 7. The binding band insertion portion 85 of the binding device 80 for guiding the steel strip to the metal coil 20 is inserted into the metal coil 20 through the outer recess 60 in the outer pressure barrel 50 and an inner recess 55 in the inner pressure barrel 45. After the steel strip is caulked to bind the metal coil 20 in one position, the metal coil 20 and the inner pressure barrel 45 are rotated in the circumferential direction by an angle of, e.g., 90° by the rotation mechanism 95.

[0044] The binding device 80 desirably includes a head that feeds, tightens, and cuts the steel strip (binding band, strap) like conventional binding devices.

[0045] FIG. 5(B) is an explanatory diagram of an operation of the metal coil compression device 7, where the inner pressure barrel 45 rotates simultaneously with the metal coil 20. The binding device 80 is once separated from the metal coil compression device 7 to withdraw the binding band insertion portion 85 to outside the outer pressure barrel 50, and the inner pressure barrel 45 and the metal coil 20 are rotated. The metal coil 20 is placed on the placing table 90 and rotated, for example, horizontally clockwise by the rotation mechanism 95. With the rotation of the metal coil 20, the inner pressure barrel 45 is also rotated in the circumferential on a horizontal plane by a frictional force between the top of the metal coil 20 and the bottom of the pressing surfaces 30.

[0046] FIG. 5(C) shows a mode where the outer recess 60 in the outer pressure barrel 50 and an inner recess 55 in the inner pressure barrel 45 are aligned again and the binding band insertion portion 85 can be inserted to insert the steel strip into the inside of the metal coil 20 and fasten the steel strip.

[0047] For example, in the case of FIGS. 5(A) to 5(C), the steel strip can be fastened at regular angles of 90° in the circumferential direction of the metal coil 20.

[0048] According to the metal coil compression device 7 of the embodiment of the present invention, the binding band insertion portion 85 of the binding device for binding the metal coil 20 with a binding band can be inserted through respective recesses in the outer pressure barrel 50 and the inner pressure barrel 45 with the pressing force applied to the metal coil 20. The steel strip (binding band) can thus be inserted into the inside of the metal coil 20, and there is provided an excellent effect that the metal coil can be safely and reliably compressed and bound.

[0049] According to the metal coil compression device 7 of the embodiment of the present invention, the plurality of inner recesses 55 are located in the circumferential direction in the inner pressure barrel 45. The binding band insertion portion 85 can thus be inserted into the inner pressure barrel 45 in a plurality of directions when the metal coil 20 is rotated. This can provide an excellent effect that the metal coil 20 can be reliably bound with a plurality of steel strips in a plurality of directions.

[0050] According to the metal coil compression device 7 of the embodiment of the present invention, the metal coil 20 as heavy as several tons can be mechanically rotated. The steel strip binding can thus be performed by inserting the binding band insertion portion only in a predetermined direction. This provides an excellent effect that the metal coil 20 can be safely bound without manual intervention.

[0051] According to the metal coil compressing binding apparatus 1 of the embodiment of the present invention, the binding band insertion portion 85 of the binding device for binding the metal coil with a binding band is inserted through respective recesses in the outer pressure barrel 50 and the inner pressure barrel 45 with the pressing force applied to the metal coil. The steel strip (binding band) can thus be inserted into the inside of the metal coil 20, and the steel strip can be mechanically fastened. This provides an excellent effect that the metal coil can be safely and reliably compressed and bound.

[0052] It should be understood that the metal coil compression device and the metal coil compression binding apparatus according to the present invention are not limited to the foregoing embodiment, and various modifications can be made without departing from the gist of the present invention.

[0053] For example, while the foregoing embodiment has described the case of steel strip binding, PET hoop binding may also be used.