The present invention relates to the safe movement of materials. More particularly, the present invention relates to securing loads onto lift-truck vehicles.
Lift trucks such as forklifts or skid-steer vehicles are common machines for moving heavy loads. They are often used in a warehouse or other industrial setting in which speed and efficiency are required. This need for quick movement of loads often results in the lift truck operator driving at a high rate of speed. At high rates of speed and during quick stops, the load on a lift truck can shift or fall. This can present a dangerous situation to people around the lift truck, as well as damage to the materials on the load. The potential danger of a lift truck load falling is compounded by the fact that in the interest of efficiency, loads are often stacked onto pallets. These stacks can become very high, which increases the likelihood of the load shifting or falling off completely. If a load were to fall off a lift truck under any conditions it could be seriously harmful, and even deadly.
There have been several prior art devices that have attempted to solve this problem. One method used in the prior art to stabilize loads employs a clamping means in which long stabilizing arms extend outward and clamp around a load. U.S. Pat. No. 4,354,795 discloses a clamping means in which the clamping means comprises a downwardly facing load engaging surface. U.S. Pat. No. 4,090,628 discloses a clamping means in which the arms engage the sides of the load. The problem with these clamping devices is that the clamping arms are long and straight, and thus they are only effective if the load is comprised of a long straight surface. These clamping devices also require additional expensive hydraulics and/or mechanics to move the clamping arms toward and away from the load.
Yet another prior art method used to stabilize loads on skid-steers is disclosed in U.S. Pat. No. 4,538,953. This patent discloses a gravity operated latch that is vertically engaged when the pallet fork of the skid-steer is lifted off of the ground. As the pallet fork is lifted from the ground, the latch is lowered by gravity until is catches on a hook or handle located on the load. When the pallet fork is lowered to the ground again, the latch's lower portion contacts the ground, which pushes the latch away from the hook or handle located on the load. The problem with this device is the latching mechanism is useless if the load does not have a hook or handle in the proper position, or if the load is of an obscure shape.
There is therefore a need for a device that will secure a load to a pallet fork of a lift truck and support the weight of that load, even if the load shifts on the pallet fork and/or if the load is of an obscure shape.
It is therefore an object of the present invention to provide a simple and cost effective device for safely and efficiently transporting loads on pallet forks.
It is another object of the present invention to provide a device for safely and efficiently transporting loads on pallet forks when the loads are of an obscure shape.
The present invention combines a load securing D-ring with the pallet fork carriage attachment of a lift truck such as a forklift or skid-steer loader. The D-ring is securely combined with the pallet fork carriage and is made of a sturdy material so that it is strong enough to support a heavy load. The load on the pallet forks are tied, strapped, or otherwise fastened to the D-ring so that it will not slide off of the pallet fork in the event the skid-steer makes a sharp turn or in the event the load is of an obscure or round shape. If the load is secured to the D-ring yet manages to slide off the pallet forks, the load will only fall the length of the strap and will not fall to the ground and injure anyone or damage the load. The device of the present invention can also provide a craning effect. A craning effect is accomplished when the D-ring assists the skid-steer loader in acting as a crane by fastening loads to the D-ring without resting the load on the forks. Using this method, the skid-steer can lift and carry heavy objects fastened to the D-ring without having to position them on the pallet forks.
The device of the present invention provides significant advantages over merely attaching a load to an already existing area of a fork lift attachment (such as a cross bar) because the D-ring of the present invention is designed to be load bearing, while other areas of a forklift may not be so designed. The D-ring of the present invention is also combined with the fork lift carriage attachment at a place where a significant load will minimally affect the stability of the fork lift truck. Whereas, if a load is fastened too high on the attachment, or is fastened to one side of the attachment or the other, the center of gravity of the fork lift truck may be negatively affected causing the fork lift truck to tip over.
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The D-ring 12 on the pallet fork carriage 10 can also provide a craning effect for the skid-steer loader 16. Using this craning method, the load 18 is securely tied to the D-ring 12 with a tie 20 such as a strap, rope, cable, or chain. The pallet fork carriage 10 is then lifted off of the ground using the hydraulics of the skid-steer which forces the D-ring 12 to lift the load 18 off the ground. The load 18 becomes hoisted and/or transported, and then lowered and detached from the D-ring 12. This craning effect is advantageous when a load 18 is of an obscure shape, or when it would not otherwise easily fit onto the pallet fork 10. The craning effect is also beneficial when a load 18 or other object is not easily accessible by the pallet forks 14, such as when an object buried partially underground (a pipe for example) needs to be raised to the surface.
In its general operation, the D-ring 12 on the pallet fork carriage 10 of the present invention provides a quick and efficient method of securing loads 18 to pallet forks 14. This remains true even if the load 18 is of an obscure shape which a pallet fork 14 attachment may not normally be able to transport. For example, heavy objects that are too small to fit onto the forks 14 of the pallet fork carriage 10 attachment may normally be too dangerous to transport or hoist. However, if the object can be secured to the palled fork carriage 10 with the D-ring 12, the object can be safely transported.
Having thus described the invention in connection with the preferred embodiments thereof, it will be evident to those skilled in the art that various revisions can be made to the preferred embodiments described herein without departing from the spirit and scope of the invention. It is my intention, however, that all such revisions and modifications that are evident to those skilled in the art will be included within the scope of the following claims.
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