(i) Field of the Invention
This invention relates to spools for receiving wire, cord, string and the like stranded materials bound thereon and, more particularly, relates to a spool assembled from three moulded plastic components.
(ii) Description of the Related Art
Conventional spools and reels for drawing or winding cordage such as wire, cord, string, cable and the like stranded materials onto the spool or reel are fabricated from wood, metal and plastic materials. The spools must be able to transfer cordage onto the barrel between the end flanges of the spools during winding of the cordage onto the spool and must have sufficient strength to not only support the load of the cordage but also to avoid failure of the flanges when transporting and loading and unloading loaded spools.
Plastic spools have become preferred over wood or metal spools because plastic material typically is less expensive than metal or wood material and the plastic spools can be molded from polyolefin polymers which are environmentally friendly in that the plastic materials are thermoplastic and usually can be recycled.
A disadvantage of plastic spools, however, resides in the difficulty of assembling the plastic end flanges to the ends of the plastic barrels. Unless molded integrally with the barrel, or glued to the barrel, the flanges are not fastened to the barrel and are prone to slip circumferentially with respect to the barrel. Each flange has a central arbour hole for receiving a shaft through the hollow barrel for rotating the spool during loading and unloading of cordage by winding of the spool by engagement with drive holes formed in the flanges. Slippage of the flanges on the barrel impedes winding of cordage on the spools during loading.
It is a principal object of the invention therefore to provide a spool assembly having the flanges locked or keyed onto the barrel to prevent circumferential slippage of the flanges on the barrel.
It is another object of the present invention to provide a simple and inexpensive plastic spool assembly which, can be readily manufactured, transported in a compact knock down form and assembled when required for use.
In its broad aspect, the plastic spool assembly of the invention for receiving and supporting a strand of cordage comprises a central barrel having opposite cylindrical ends with an annular recess extending about each barrel end perimeter in proximity to each end, and a circular end flange for attachment to each cylindrical end of the barrel, each end flange having a central hub defining a central opening for receiving the cylindrical end of the barrel in tight-fitting engagement, said central hub opening having an annular ridge formed thereon extending radially inwardly for snap-fitting into and mating with the annular recess of the central barrel for tight-fitting locking engagement therewith, each end flange having a plurality of radial slots, preferably equispaced and diametrically opposed, formed about the central hub opening for flexing of the end flange adjacent the central hub opening for snap-fitting of an end flange onto the central barrel and into the annular recess at each end of the barrel.
The annular recess extending about each end perimeter of the central barrel preferably has a plurality of equispaced teeth extending outwardly therefrom and the inwardly extending annular ridge formed in the central hub opening of each flange has a plurality of mating equispaced teeth extending inwardly therefrom about the central hub opening for interlocking with and engaging the teeth of the annular recess of the central barrel for preventing angular cirumferential movement or slippage of the end flanges on the central barrel.
The central barrel preferably is moulded from a polymeric plastic as a pair of mirror-image plastic halves, preferably joined by a plastic hinge, for assembly into a cylindrical barrel at the time of assembly of the spool.
The central barrel and end flanges of the spool assembly of the invention preferably are formed of a moulded thermoplastic polymer such as polyethylene, polypropylene or polyvinyl chloride.
Each end flange has an inner face and an outer face and preferably a first circular rib formed on the flange outer face between the central hub and a peripheral rim joining outer ends of the radial slots. Radial ribs are formed on the outer flange face on each side of the radial slots between the hub and the first circular rib. A plurality of equispaced spokes interconnect the peripheral rim to the first circular rib. The plurality of spokes are disposed at an angle of about 45° to the peripheral rim and to the circular rib. Each end flange may have a second circular rib intermediate the first circular rib and the peripheral rim and joined thereto by the plurality of equispaced spokes. The plurality of spokes joining the second circular rib to the first circular rib and to the peripheral rim may meet at nodes formed in the second circular rib or the plurality of spokes joining the second circular rib to the first circular rib and to the peripheral rim are angularly offset.
The spool assembly of the invention will now be described with reference to the accompanying drawings, in which:
An embodiment of the spool 10 of the invention as depicted in
In the preferred embodiment of the invention, the central barrel and the end flanges are molded from a rigid thermoplastic material such as a high impact moulded olemeric polymer typified by polyethylene, polypropylene and polyvinyl chloride which can be readily injection molded.
Barrel 14, shown most clearly in
Each barrel part interior preferably has at least one transverse partition or rib 21 for reinforcement, opposed to a corresponding partition or rib 23 formed on the other part. Alignment tabs 25 formed on the interior along one edge 27 of parts 20, 22 are axially offset from alignment tabs 29 formed on the interior along the other edge 31 of the parts, as shown most clearly in
The opposite ends 26, 28 of barrel 14 have a central opening 30 defining an arbour hole for receiving an arbour during winding and unwinding of cordage, shown most clearly in
Annular grooves or recesses 32, 34 extend about opposite ends of barrel 14 in proximity to the barrel ends defining end ridges 36, 38 extending radially outwardly. A plurality of equispaced teeth 40 are formed in annular recesses 32, 34 at least partially around recesses 32, 34 extending radially outwardly for reasons which will become apparent as the description proceeds.
Flanges 16 shown most clearly in FIGS. 2 and 6-9 have a central hub opening 50 with an annular shoulder 54 having an inwardly extending tapered annular ridge 56 with equispaced teeth 58 extending radially inwardly.
Flange web 52 connects central hub shoulder 54 to peripheral rim shoulder 60. The inner surface 62 of the flange web 52 is smooth to facilitate winding and unwinding of cordage contents, while the outer surface 64 preferably has radial and/or circumferential ridges and the rim shoulder 60 for structural strength, as depicted in
Flange web 52 has a plurality of radial slits 66 formed therein extending from hub shoulder 54 about one-half the distance to rim shoulder 60. Slits 66 preferably are equispaced and diametrically opposed in pairs to permit flexing of central hub shoulder 54 during assembly of flanges 16 on core barrel 14, as depicted in
With reference now to
The flange embodiments shown in
Flanges 16, 70 and 92 have start holes 99 formed therein adjacent the central hub for receiving an end of the cordage to be wound on the spool as the spool is rotated about an arbour and one or more finish holes 100 in proximity to the rim. The embodiments of
It will be understood that other embodiments and examples of the invention will be readily apparent to a person skilled in the art, the scope and purview of the invention being defined in the appended claims.
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2164020 | Mar 1986 | GB |
Number | Date | Country | |
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20110108659 A1 | May 2011 | US |
Number | Date | Country | |
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61272820 | Nov 2009 | US |