Patent Grant
7673915
The art of the present invention relates to coil handling assemblies for securing rolls or coils of sheet material in a cradle-like manner. More particularly, the present art cradles sheet material coils such that once a coil is secured to the assembly, the assembly and the attached coil can simply be transported to a processing line and the sheet material unwound from the assembly for processing. This type of coil handling assembly is typically used for processing sheet metal in the HVAC industry although the present invention can conceivably be utilized in other industries employing coiled material, either metallic or non-metallic.
Coiled sheet metal as typically utilized in the metal processing industry consists of a continuous coiled roll or ‘coil,’ which during an earlier processing step was initially wound around a mandrel until the desired quantity or lineal feet of sheet metal was obtained. Subsequently, the coil was removed from the mandrel leaving a center opening in the coil which extends completely through the wound coil from a front edge of the coil to a back edge of the coil. The diameter of the center opening corresponds with the diameter of the mandrel from which it was removed and the length or depth of the center opening corresponds with the width of the sheet metal itself. The standard center opening of coiled sheet metal with a material thickness typically used in the HVAC industry has a diameter of approximately 20 (twenty) to 24 (twenty-four) inches. This center opening in the coil is commonly referred to as the inner diameter (or ID) of the coil. The center opening or coil ID is used whenever the coil is subsequently handled, either for transport and/or for further processing.
The improved coil handling assembly of the present invention first comprises a cylindrical support member capable of supporting the coiled material across the entire width of the coil. The cylindrical support member has a front end, a back end, and a shaft extending from both the front end and the back end. Preferably a front bearing/support assembly is attached to or with a front end extension of the shaft and a back bearing/support assembly is attached to or with a back end extension of the shaft. The cylindrical support member further has a moveable front and back coil stabilizer. Preferably, the front and back coil stabilizers each have a retainer plate with a center aperture capable of receiving the cylindrical support member and a clamping member having a circumferential band and a fastening means or a clamping member having a circumferential band in combination with a fastening means. The clamping member is preferably at least partially attached to the retainer plate such that the clamping member is capable of receiving the cylindrical support member and the fastening means is capable of tightening and/or loosening the clamping member with respect to the cylindrical support member such that both the front and back coil stabilizers can be removably attached and secured to the cylindrical support member.
With the commercially manufactured prior art, the wound coil is not supported along its entire width but is merely supported along the coil's front edge and the coil's back edge with a front hub/front bearing assembly and a back hub/back bearing assembly intermediately connected with a shaft passing through the coil's ID.
With all of the prior art coil handling devices, at least one of the hub/bearing assemblies must be disconnected from the shaft and removed in order to load another coil into the coil handling device. With applicant's improved coil handling assembly, the only part or portion requiring removal for reloading another coil, is one of the coil stabilizers, each of which easily slide off of the cylindrical support member. Applicant's cylindrical support member also has a diameter less than the diameter of the center opening of the wound coil (e.g. ID less than twenty inches) which assures that the coil center of gravity is below the shaft centerline. Since the shaft/bearing assemblies of applicant's improved coil handling assembly are integral to the cylindrical support member unit which easily slides through the coil's ID, said assemblies do not require removal to load or unload a coil. Less modification or changeover to the coil handling equipment results in significant time savings and greater manufacturing efficiencies in the processing line. It is estimated that applicant's improved coil handling assembly reduces coil loading time by approximately 83% over the existing prior art coil handling devices.
The improved coil handling assembly of the present invention also allows for the handling of coils with irregular or egg-shaped ID's. The cylindrical support member of applicant's improved coil handling assembly is capable of supporting the coiled material across the entire width of the coil even though the diameter of the cylindrical support member is less than the diameter of the coil ID. The smaller diameter of the cylindrical support member allows the cylindrical support member to be easily received within irregular shaped center openings (ID) of a wound coil. Prior art alternatives which support the coil only on the edges of the coil's ID require a substantially symmetrical coil ID of a uniform diameter.
Also, the improved coil handling assembly of applicant's invention can be used with any coil width, such as smaller slit coil multiples. Since the coil stabilizers are slidable along the cylindrical support member until completely flush with one another, the present art allows for infinite width accommodation up to the length of the cylindrical support member. The hub/bearing assemblies of the prior art alternatives have significant depth to the hub/bearing assemblies themselves such that said prior art are not fully adjustable. That is, unlike the present art, the prior art assemblies cannot be adjusted flush with one another and therefore have a minimum coil width restriction in addition to a maximum coil width restriction.
Furthermore, the present art improved coil handling assembly minimizes unintentional unwinding or free spooling of the coil when the coil is attached to the improved coil handling assembly. That is, since the unique cylindrical support member actually lowers the coil's center of gravity while supporting the coil's weight, the coils ability to free spool is minimized.
Still further, the present invention provides an improved coil handling assembly capable of being edge guided, center guided, and/or multiple position guided for essentially unlimited guide positions and therefore maximum flexibility on various processing lines. Additionally, the improved coil handling assembly provides for the coil to be over wound or under wound during processing.
The preferred embodiment of the improved coil handling assembly of the present invention comprises a cylindrical support member capable of being at least partially received within the coil's ID and extending through the coil's ID from the coil's front edge to the coil's back edge such that the cylindrical support member is capable of providing support to the coiled material across the entire width of the coil itself.
Accordingly, it is an object of the present invention to provide an improved coil handling assembly and method of manufacture which provides a coil support along the entire coil width and not simply the coil ID edges.
Another object of the present invention is to provide an improved coil handling assembly and method of manufacture which minimizes the labor and time requirements for loading and unloading coils.
A further object of the present invention is to provide an improved coil handling assembly and method of manufacture which handles coils having an irregular shaped ID.
A still further object of the present invention is to provide an improved coil handling assembly and method of manufacture which is adaptable to most any width coil.
A yet further object of the present invention is to provide an improved coil handling assembly and method of manufacture which minimizes coil free spooling and provides maximum flexibility on various processing lines.
The art of the present invention comprises a new and improved coil handling assembly having unique sizing, adjustability, construction, and utilization attributes which allow for quick and easy handling of coiled sheet metal. The improved coil handling assembly of the present invention comprises a cylindrical support member capable of supporting the coiled material across the entire width of the coil. The cylindrical support member has a front end, a back end, and preferably a shaft extending from both the front end and the back end with preferably a front bearing/support assembly attached to a front end extension of the shaft and a back bearing/support assembly attached to a back end extension of the shaft.
Two coil stabilizers, a front and a back coil stabilizer, are utilized in the preferred embodiment to hold the coiled material. Preferably, the front and back coil stabilizers each have a retainer plate with an aperture in the center capable of receiving the cylindrical support member and a clamping member having a circumferential band and a fastening means or a clamping member having a circumferential band in combination with a fastening means. The clamping member is preferably at least partially attached to the retainer plate such that the clamping member is capable of receiving the cylindrical support member and the fastening means is capable of tightening and/or loosening the clamping member with respect to the cylindrical support member such that both the front and back coil stabilizers can be removably attached and secured to the cylindrical support member.
In the preferred embodiment, the cylindrical support member has a front end, a back end opposite the front end, a middle portion intermediate the front end and the back end, a center circular opening extending completely through the cylindrical support member from the front end to the back end, the middle portion further having an outer surface and an inner surface adjacent the center circular opening. The cylindrical support member also comprises a front end cover having a center aperture, the front end cover attached to the front end of the cylindrical support member, and a back end cover having a center aperture, the back end cover attached to the back end of the cylindrical support member. In the preferred embodiment, the shaft extending from the front end and the back end of the cylindrical support member has one or more drive shafts comprising a square or other cross section for connection with a processing line motor assembly.
The improved coil handling assembly is typically manufactured from tubular, plate, and bar stock carbon steel but may be manufactured from a plurality of other materials including but not limited to stainless steel, aluminum, titanium, composites, ceramics, and polymers.
Numerous other objects, features and advantages of the invention should now become apparent upon a reading of the following detailed description taken in conjunction with the accompanying drawings, in which:
Referring now to the drawings, there is shown in
In a preferred embodiment, the present art improved coil handling assembly 10 comprises a cylindrical support member 12 capable of supporting the coiled material across the entire width of the coil. The cylindrical support member 12 has a front end 14, a back end 16, and a shaft 42 extending from both the front end 14 and the back end 16. A front bearing/support assembly 48 is attached to a front end extension 46 of the shaft 42 and a back bearing/support assembly 56 attached to a back end extension 54 of the shaft 42. A front coil stabilizer 62 and a back coil stabilizer 86, each having a retainer plate 64, 88 with a center aperture 72, 94 capable of receiving the cylindrical support member 12, are mounted upon said cylindrical support member 12. A clamping member 80, 102 having a circumferential band 82, 104 and a fastening means 84 or a clamping member 80, 102 having a circumferential band 82, 104 in combination with a fastening means 106 is at least partially attached to the retainer plate 64. The clamping member 80, 102 is thereby capable of receiving the cylindrical support member 12 and the fastening means 84, 106 is further capable of tightening and/or loosening with respect to the cylindrical support member 12 such that both the front 62 and back 86 coil stabilizers are removably attached and secured to the cylindrical support member 12.
The cylindrical support member 12 has a front end 14, a back end 16 opposite the front end 14, a middle portion 18 intermediate the front end 14 and the back end 16, and a center circular opening 24 extending completely through the cylindrical support member 12 from the front end 14 to the back end 16. The middle portion 18 further has an outer surface 20 and an inner surface 22 adjacent the center circular opening 24. The cylindrical support member 12 also comprises a front end cover 26 having a center aperture 30, the front end cover 26 attached to the front end 14 of the cylindrical support member 12, and a back end cover 32 having a center aperture 36, the back end cover 32 attached to the back end 16 of the cylindrical support member 12.
In the preferred embodiment, the front end cover 26 has at least one or more openings 28 and the back end cover 32 has at least one or more openings 34. At least one of the one or more openings 28 of the front end cover 26 and at least one of the one or more openings 34 of the back end cover 32 are shaped to receive an auxiliary lifting device such as the forks of a conventional forklift. In the preferred embodiment, the cylindrical support member 12 further comprises a stabilizing member 38 attached to the inner surface 22 of the cylindrical support member 12 approximately equidistant from the front end 14 and the back end 16 of the cylindrical support member 12 such that a first surface 39 of the stabilizing member 38 is in substantial alignment with a lifting surface at least one of the one or more openings 28, 34 which are shaped to receive an auxiliary lifting device such as the forks of a conventional forklift. At least one of the one or more openings 28 of the front end cover 26 and/or at least one of the one or more openings 34 of the back end cover 32 in combination with the stabilizing member 38 allows the improved coil handling or lifting device 10 to remain substantially stable and essentially level when lifted by the forks of a conventional forklift. In the preferred embodiment, the stabilizing member 38 has a semicircular cross section 40 to simplify attachment to the inner surface of the cylindrical support member 12. Additional openings of the one or more openings 28, 34 of the front 26 and back 32 end covers are for weight reduction purposes such that the front end cover 26 and the back end cover 32 can be further described as having a spoke-like appearance.
In the preferred embodiment, the cylindrical support member 12 is initially fabricated as a pipe or tube with end covers 26, 32 thereby creating a drum-like member or a coil drum assembly. One embodiment of the preferred embodiment, as shown in the Figures, utilizes quarter inch thick steel welded into an eighteen inch outside diameter (OD) pipe or tube having a length of approximately sixty six inches. Another envisioned embodiment utilizes a pipe or tube having a length of approximately seventy eight inches. In other embodiments the aforesaid dimensions will vary. The front end cover 26 and the back end cover 32 are preferably welded to the front end 14 and back end 16, respectively, of the cylindrical support member 12 or pipe or tube yet may be attached using a plurality of methods including but not limited to bolts, screws, rivets, frictional press fits, and crimps.
The improved coil handling assembly 10 further comprises a shaft 42 having a front end 44, a back end 52 opposite the front end 44 and a middle portion 60 intermediate the front end 44 and the back end 52. The shaft 42 is capable of being at least partially received within the center opening 24 of the cylindrical support member 12 and extending completely through said opening 24 from the front end 14 to the back end 16 of the cylindrical support member 12. The shaft 42 also preferably extends completely through the center aperture 30 of the front end cover 26 and the center aperture 36 of the back end cover 32 such that when received, both the front end 44 and the back end 52 of the shaft 42 extend out of the opening of the cylindrical support member 12. That is, the shaft 42 extends from the respective center openings or apertures 30, 36 of both the front end cover 26 and the back end cover 32 such that said middle portion 60 of the shaft 42 has a front end extension 46 and a back end extension 54 extending from said cylindrical support member 12. The shaft 42 is also preferably attached to both the front end cover 26 and the back end cover 32 of the cylindrical support member 12 such that when the shaft 42 rotates, the cylindrical support member 12 also rotates. In one embodiment of the preferred embodiment, as shown in
The improved coil handling assembly 10 also comprises a front bearing/support assembly 48 attached to the front end extension 46 of the shaft 42 and a back bearing/support assembly 56 attached to the back end extension 54 of the shaft 42. The back bearing/support assembly 56 and/or the front bearing/support assembly 48, and/or preferably the shaft front end extension 46 and/or shaft back end extension 54, further have a drive shaft 58 capable of being connected to a motor assembly in a processing line. Preferably, the drive shaft 58 having a square cross section
The improved coil handling assembly 10 further comprises a front coil stabilizer 62 and a back coil stabilizer 86. The front coil stabilizer 62 comprises a retainer plate 64 with a front inner surface 66, a front outer surface 68, and a center aperture 72 extending from the front inner surface 66 to the front outer surface 68. The center aperture 72 is capable of receiving the cylindrical support member 12. The front coil stabilizer 62 further comprises an outer edge 74, an inner edge 76 adjacent the center aperture 72, and a front clamping member 80 having an angled circumferential band 82 and front fastening means 84.
In the preferred embodiment, the clamping member 80 of the front coil stabilizer 62 is a split angled circumferential band 82 at least partially attached to the front outer surface 68 of the retainer plate 64 adjacent the inner edge 76 such that the clamping member 80 is essentially perpendicular to the front outer surface 68 of the retainer plate 64 and capable of receiving the cylindrical support member 12. The split angled circumferential band 82 is also at least partially attached to the front outer surface 68 of the retainer plate 64 such that the fastening means 84 is capable of tightening and/or loosening said band 82 in order that the front coil stabilizer 62 can be removably attached and secured to the cylindrical support member 12.
In the aforesaid preferred embodiment, the retainer plate 64 further has one or more stops or retainers 70 attached to the front outer surface 68 adjacent the clamping member 80 such that the stops 70 effectively prevent the unattached portion of the split angled circumferential band 82 from springing loose when the fastening means 84 are loosened. Preferably, the fastening means 84 is a threaded nut and bolt combination attached to the angled circumferential band 82 adjacent to the split but may comprise a plurality of fasteners including but not limited to clamps, rivets, screws, and dowels.
As shown in the Figures, the center aperture 72 of the preferred embodiment of the front coil stabilizer's 62 retainer plate 64 is approximately eighteen inches in diameter which approximately corresponds with the diameter of the cylindrical support member 12. Preferably, the front coil stabilizer's 62 retainer plate 64 is circular and also has one or more observation openings 78 extending from the front inner surface 66 to the front outer surface 68 such that it is possible to observe the remaining amount of material still wound in the coil. Preferably, the clamping member 80 of the front coil stabilizer 62 is partially attached or welded to the outer surface 68 of the front coil stabilizer's 62 retainer plate 64 such that the split angled circumferential band 82 is still capable of at least partial movement whereby the fastening means 84 can tighten and/or loosen the clamping member 80 with respect to the cylindrical support member 12 such that the front coil stabilizer 62 can be removably attached and secured to or with the cylindrical support member 12.
The back coil stabilizer 86 comprises a retainer plate 88 with a back inner surface 90, a back outer surface 92, and a center aperture 94 extending from the back inner surface 90 to the back outer surface 92. The center aperture 94 is capable of receiving the cylindrical support member 12. The back coil stabilizer 86 further comprises an outer edge 96, an inner edge 98 adjacent the center aperture 94, and a back clamping member 102 comprising an angled circumferential band 104 in combination with separate back fastening means 106.
In the preferred embodiment, the clamping member 102 of the back coil stabilizer 86 is an angled circumferential band 104 attached to the back outer surface 92 of the retainer plate 88 adjacent the inner edge 98 such that the clamping member 102 is essentially perpendicular to the back outer surface 92 of the retainer plate and capable of receiving the cylindrical support member 12. The angled circumferential band 104 is also attached to the back outer surface 92 of the retainer plate 88 such that the back fastening means 106 is capable of tightening and/or loosening the clamping member 102 with respect to the cylindrical support member 12 in order that the back coil stabilizer 86 can be removably attached and secured to or with the cylindrical support member 12.
In this preferred embodiment, the back fastening means 106 comprises one or more substantially L-shaped members 108 having a threaded aperture 110 in combination with a threaded member 112 such as a bolt. The one or more substantially L-shaped members 108 are attached to the outer surface 20 of the middle portion 18 of the cylindrical support member 12 adjacent the back end 16. A portion of the one or more L-shaped members 108 functions as a stop which effectively serves as an alignment point for the back coil stabilizer 86 and adds strength and stability to the clamping member 102. As such, in this preferred embodiment the back coil stabilizer 86, while moveable and therefore adjustable, is not removable from the back end 16 of the cylindrical support member 12 but rather can only be removed from the front end 14 of the cylindrical support member 12.
Also in the aforesaid preferred embodiment, the center aperture 94 of the retainer plate 88 of the back coil stabilizer 86 is also approximately eighteen inches in diameter which approximately corresponds with the diameter of the cylindrical support member 12. Preferably, the back coil stabilizer's 86 retainer plate 88 is circular and also has one or more observation openings 100 extending from the back inner surface 90 to the back outer surface 92 such that it is possible to observe the remaining amount of material still wound in the coil.
The angled circumferential band 104 of the back coil stabilizer 86 is preferably attached via welding to the outer surface 92 of the back coil stabilizer's 86 retainer plate 88 in order that the threaded member 112 of the fastening means 106 is capable of contacting the angled circumferential band 104 such that when the fastening means 106 is tightened, the threaded member 112 can apply sufficient pressure or force to prevent substantial movement of the back coil stabilizer 86. The angled circumferential band 104 in combination with the fastening means 106 is capable of tightening and/or loosening the clamping member 102 such that the back coil stabilizer 86 can be removably attached and secured to or with the cylindrical support member 12. Said fastening means 106 may further comprise a plurality of fasteners or retainers including but not limited to pins, dowels, frictional fits, clamps, or stops.
In an alternate embodiment, the one or more substantially L-shaped members 108 are removed from the outer surface 20 of the cylindrical support member 12. In this alternate embodiment, two front coil stabilizers 62 are utilized instead of the preferred embodiment of the back coil stabilizer 86. In this alternate embodiment, one of the front coil stabilizers 62 is merely flipped around and attached near the back end 16 of the cylindrical support member 12 and positioned where the back coil stabilizer 86 would have been positioned in the preferred embodiment.
In yet another alternate embodiment, only one coil stabilizer 86, 62 is utilized. As such, either the preferred embodiment of the front coil stabilizer 62 or the preferred embodiment of the back coil stabilizer 86 could be provided and utilized as the one coil stabilizer.
In operation or use, the fastening means 84, 106 can be loosened thereby loosening the clamping member 80, 102 such that the coil stabilizers 62, 86 can be removed. It is typically necessary to remove only the front coil stabilizer 62 when loading a coil for use on an edge guided processing line. If the coil is processed on a center guided processing line and the width of the processed coil changes, the back coil stabilizer 86 must be at least loosened whereby the coil can be centered on the cylindrical support member 12 and subsequently secured.
For example, with the preferred embodiment, the clamping member 80 of the front coil stabilizer 62 is quickly loosened and simply removed from the front end 14 of the cylindrical support member 12. A conventional fork lift inserts a set of closed forks into the at least one or more openings 34 of the back end cover 32 and lifts the entire improved coil handling assembly 10 (absent the removed front coil stabilizer). Since the assembly 10 remains essentially level when lifted, the forklift simply inserts the improved coil handling assembly 10 into the ID of a coif, from either the front edge side of the coil or the back edge side of the coil. The front coil stabilizer 62 can then be reattached to provide additional stability. The fork lift is now capable of lifting the improved coil handling assembly 10 such that the cylindrical support member 12 now supports the coils weight across the entire width of the coil. The improved coil handling assembly 10 and coil combination can now be transported for placement such that both the front bearing/support assembly 48 and the back bearing/support assembly 56 support the improved coil handling assembly 10 and coil combination in order that the coil can be rotated to wind/unwind the coiled material.
From the foregoing description, those skilled in the art will appreciate that an improved coil handling assembly 10 and method of manufacture has been shown and described. The art represents a quick, easy, safe, and cost effective way to transport, store, and utilize coiled material without the complexities and inconveniences of the prior art.
Having described the invention in detail, those skilled in the art will appreciate that all the objects of the present invention are realized and that modifications may be made to the invention without departing from its spirit. Therefore, it is not intended that the scope of the invention be limited to the specific embodiments illustrated and described. Rather, it is intended that the scope of this invention be determined by the appended claims and their equivalents.
This application claims priority of U.S. Provisional Patent Application No. 60/650,370, filed Feb. 4, 2005, entitled Improved Coil Handling Assembly.
| Number | Name | Date | Kind |
|---|---|---|---|
| 3134620 | Blaisdell | May 1964 | A |
| 4687244 | Cullen et al. | Aug 1987 | A |
| 5143507 | Haugen et al. | Sep 1992 | A |
| 6174125 | Davis et al. | Jan 2001 | B1 |
| Number | Date | Country | |
|---|---|---|---|
| 60650370 | Feb 2005 | US |
