The present invention relates generally to reel or spool handling equipment and, in particular, to a reel handling device and method.
Many industries require use of large spools or reels for storing elongated products such as cables, wire, tubing, rope and the like. More specifically, cable (for example) is wound about the reel several times for space efficient storage and ease of use. The reels are quite heavy, especially when loaded with cable, and thus require equipment, such as a forklift truck, for handling. As a result, equipment has been developed to facilitate the carrying of reels by forklift trucks and the like.
Prior art devices used for carrying reels on forklift trucks typically feature two components that must be attached one each to the forks of a forklift truck. As a result, they suffer from a number of drawbacks. More specifically, (1) it is time consuming and cumbersome to attach the two pieces of the device to the forks of a forklift. Furthermore, (2) the two pieces must be picked up and fitted onto the forks by hand. Since the two pieces are handled manually, they are subject to abuse and damage. In addition, (3) the two pieces of the device must be manually positioned on the forks so that they are aligned with each other. Also, tools must be used to adjust the prior art devices. More specifically, (4) an allen wrench is typically needed to fix the devices onto each fork of a forklift and (5) in order to change the length of the lifting hooks, a pair of pliers is typically required to remove cotter pins on each lifting hook in order to reposition them for a different size reel. Finally, (6) the prior art devices require more than one different model to pick up the full range of reel sizes.
A need therefore exists for a reel handling device and method that addresses at least some of the above issues.
An embodiment of the reel handling device of the present invention is indicated in general at 10 in
As indicated in
The fork sleeves are secured to the underside and near the opposite ends of a telescoping assembly, indicated in general at 16. The telescoping assembly includes an inner slider bar 18 that is received within a hollow outer slider bar 22 in a telescoping fashion. The top of the inner slider bar is provided with an elongated slot 24. The outer slider bar is provided with a sliding pin 26 that protrudes inward so as to be received within the elongated slot 24 of the inner slider bar. The sliding pin 26 traverses the elongated slot as the inner slider bar 18 is moved into and out of the outer slider bar as the telescoping assembly is adjusted as described below. The pin 26 engages the ends of the elongated slot 24 to limit the travel of the inner slider bar within the outer slider bar.
A pair of reel lifter arms 28a and 28b are received within corresponding slotted reel lifter fittings 32a and 32b in a sliding fashion. Reel lifter arms 28a and 28b are each provided with bottom hook portions 34a and 34b and a number of locator holes 36a and 36b. Reel lifter fitting 32a is rigidly secured to the distal end of inner slider bar 18 via collar 40, while reel lifter fitting 32b is rigidly secured to the distal end of outer slider bar 22.
As illustrated in
The telescoping assembly also allows the device to be stored on the fixed stand 12 which holds the device in a position to be easily mounted on the forklift forks without the driver having to get off the forklift, except to tighten locking hand screws without a tool (as explained below). The stand 12 includes a base 44, a main vertical support 46 and a cradle 48 positioned at the top of the support. The cradle preferably is U-shaped so as to support the device via the inner and outer slider bars of the telescoping assembly with the hook portions of the reel lifters elevated above the floor or other surface supporting the base 44 of the stand.
All of the components of the stand, the telescoping assembly, the reel lifters and the reel lifter fittings are preferably constructed of steel.
The heavy duty hook portions 34a and 34b and locator holes 36a and 36b of the reel lifter arms 28a and 28b can be positioned to accommodate various sizes of reels. The reel lifter arms are each locked into the proper position using a ball-lock pin, indicated at 52 in
With reference to
With the reel handing device 10 attached to the forks 42a and 42b of the forklift and the reel lifter arms 28a and 28b adjusted to the right length, the forklift operator lifts the device off of the stand 12, as illustrated in
The driver next drives the forklift up to a reel to be lifted. As illustrated in
The distance between the reel lifter arms 28a and 28b are adjusted in close to the flanges 82a and 82b of the reel using the fork adjustment feature of the forklift and the telescoping assembly 16 of the reel handing device. The forklift advances toward the reel so that the hook portions 34a and 34b of the reel lifter arms hook under the shaft, as illustrated in
As illustrated in
The embodiment of the reel handling device of the present invention described above thus is a one piece design that easily adjusts to the width of the reel to be lifted. The device sits on a stand when not in use so that a forklift truck can drive to the stand and insert its forks into the device without the driver having to lift anything manually or get off of the forklift. The driver can easily lock the device onto the forks without tools using the locking hand screws. When the forklift operator is finished using the device, he loosens the locking hand screws and sets the device on its stand. The reel lifter arms of the device are always aligned with each other since they are attached by the telescoping assembly and the forklift driver has only to drive straight into the stand to have the lifting hooks properly aligned with each other. Furthermore, only one ball-lock pin per side is used to secure the hook portions of the reel lifter arms in the correct positions. No hand tools are required to remove or insert the ball-lock pins. The device will also pick up the full range of reel sizes from X to X1.
While the preferred embodiments of the invention have been shown and described, it will be apparent to those skilled in the art that changes and modifications may be made therein without departing from the spirit of the invention, the scope of which is defined by the appended claims.
This application is a U.S. Non-provisional Application, which claims priority from Patent Application No. 61/750,134 filed Jan. 8, 2013. The entirety of the above-listed application is incorporated herein by reference.
Number | Name | Date | Kind |
---|---|---|---|
3157370 | Govatsos | Nov 1964 | A |
4467893 | Hobson | Aug 1984 | A |
5366339 | Gould | Nov 1994 | A |
9120636 | Cavirani | Sep 2015 | B2 |
20110280701 | Brighenti | Nov 2011 | A1 |
20120153654 | Cole | Jun 2012 | A1 |
Number | Date | Country | |
---|---|---|---|
20140193235 A1 | Jul 2014 | US |
Number | Date | Country | |
---|---|---|---|
61750134 | Jan 2013 | US |