This application is based on and claims the benefit of priority from United Kingdom Patent Application No. 1812047.7, filed 24 Jul. 2018, the entire disclosure of which is incorporated herein by reference.
This invention relates to a fork carriage for a truck mounted forklift. In particular, the present invention relates to a fork carriage for a truck mounted forklift that has a pantograph linkage to extend the reach of the forks.
Truck mounted forklift trucks are provided with a number of different lifting assemblies including, inter alia, static mast and moving mast arrangements. In order to improve the reach of the forklift truck and facilitate far side loading and unloading of goods to and from the bed of a carrying vehicle, it is known to provide a fork carriage with a pantograph linkage. The fork carriage with pantograph linkage can enable the tines of the truck mounted forklift's lifting assembly to reach these far side loads.
There is however a problem with the known embodiments of fork carriages with pantograph linkages. Heretofore, the known embodiments of fork carriages with pantograph linkages require a tall upright forward section. This tall upright forward section is necessary to allow the bearing at the end of the pantograph linkage arm to travel upwards when the pantograph is in a retracted configuration. As a result, when attempting to engage top far side loads, the fork carriage may be prevented from engaging a top far side load by the roof of the carrying vehicle. This will require the goods to be engaged from the opposite side of the carrying vehicle which will require either the forklift to be moved to the other side of the vehicle or for the carrying vehicle to be moved. Either way, this increases the amount of time required for the loading or unloading operation which is undesirable.
Other important requirements of truck mounted forklift trucks are that they must be lightweight and they must not protrude too far from the rear of the carrying vehicle. The heavier the forklift, the less carrying capacity of the carrying vehicle there will be for goods. Therefore, it is essential to keep the truck mounted forklift as light as possible. The amount by which the forklift protrudes from the rear of the carrying vehicle, referred to as overhang, is also important as this dimension is restricted by law in many jurisdictions. Furthermore, the greater the overhang, the greater the forces imparted on the forks during transit as well as during mounting and dismounting of the forklift from the carrying vehicle. Greater forces require reinforcement of the forks, increasing the weight of the forklift. Pantograph linkages will inherently increase the overhang of the forklift so it is desirable to have the pantograph linkage as compact as possible when they are in a retracted configuration.
It is an object of the present invention to provide a fork carriage for a truck mounted forklift that overcomes at least some of the above-identified problems and provides a useful choice for the consumer.
According to the invention there is provided a fork carriage for a truck mounted forklift truck comprising an upright rear section for mounting onto the lifting assembly of a truck mounted forklift truck, an upright forward section, shorter than the upright rear section, for reception of tines, and a pantograph linkage connecting the upright rear section and the upright forward section together, the pantograph linkage comprising:
By having such a fork carriage, the height of the upright forward section will be greatly decreased and the fork carriage can be used for loading and unloading far top side loads without fear of being impeded by the roof of the carrying vehicle. Advantageously, the pantograph linkage will be compact so that when the pantograph is retracted when the forklift is mounted on a carrying vehicle, the overhang of the forklift will not be increased substantially.
In one embodiment of the invention there is provided a fork carriage for a truck mounted forklift in which the second linkage arm extends beyond the first pivot joint.
In one embodiment of the invention there is provided a fork carriage for a truck mounted forklift in which the first end of the third linkage arm is pivotably connected to the first linkage arm, the second end of the third linkage arm is pivotably connected to the end of the second linkage arm that extends beyond the first pivot joint, and the hinge joint is slidably mounted for reciprocal movement upwards and downwards along the upright forward section. This is seen as a particularly preferred embodiment of the present invention that will enable reduced height of the upright forward section while at the same time allowing the linkage arms to collapse into a compact configuration.
In one embodiment of the invention there is provided a fork carriage for a truck mounted forklift in which the first end of the third linkage arm is pivotably connected to the first linkage arm at a point along the first linkage arm away from the upright rear section so that the first end and the second end of the third linkage arm are equidistant from the upright rear section. In this way, the linkage will be symmetrical resulting in horizontal movement of the tines as they are extended or retracted. This is important for ensuring that the load is stable on the tines and for ease of manipulation of the load.
In one embodiment of the invention there is provided a fork carriage for a truck mounted forklift in which the hinge joint is located centrally along the length of the third linkage arm. Again, this will provide symmetry allowing the tines to move horizontally as the pantograph linkage is extended or retracted.
In one embodiment of the invention there is provided a fork carriage for a truck mounted forklift in which the first end of the third linkage arm is pivotably connected to the first linkage arm and the second end of the third linkage arm is slidably mounted for reciprocal movement upwards and downwards along the upright forward section with the portion of the third linkage arm intermediate the hinge joint and the second end being connected to the end of the second linkage arm about the second pivot joint. This is another useful embodiment of the present invention. Although in this embodiment, the pantograph linkage will still be relatively tall when partially extended, the configuration provides for better load distribution than alternative configurations and when extended will be substantially lower than the existing configurations.
In one embodiment of the invention there is provided a fork carriage for a truck mounted forklift in which the first end of the third linkage arm is pivotably connected to the first linkage arm at a point along the first linkage arm so that the first end of the third linkage arm and the second pivot joint are at the same height above the ground. In this way, the linkage will be symmetrical resulting in horizontal movement of the tines as they are extended or retracted. This is important for ensuring that the load is stable on the tines and for ease of manipulation of the load.
In one embodiment of the invention there is provided a fork carriage for a truck mounted forklift in which the first end of the third linkage arm is pivotably connected to the second linkage arm at a point along the arm intermediate the upright rear section and the first hinge joint, and the second end of the third linkage arm is slidably mounted for reciprocal movement upwards and downwards along the upright forward section with the portion of the third linkage arm intermediate the hinge joint and the second end being connected to the first linkage arm about a second pivot joint. In this embodiment, a very low profile pantographic linkage component is provided. However, as a trade-off, without careful arrangement of the linkage arms, the pantograph linkage may have a greater fore and aft dimension in a collapsed state, thereby increasing the overhang of the forklift from the carrying vehicle.
In one embodiment of the invention there is provided a fork carriage for a truck mounted forklift in which the first end of the third linkage arm is pivotably connected to the second linkage arm at a point along the second linkage arm so that the first end of the third linkage arm and the second pivot joint are at the same height above the ground. In this way, the linkage will be symmetrical resulting in horizontal movement of the tines as they are extended or retracted. This is important for ensuring that the load is stable on the tines and for ease of manipulation of the load.
In one embodiment of the invention there is provided a fork carriage for a truck mounted forklift in which there is provided an actuating cylinder to expand and retract the pantograph linkage, one end of which is connected to the upright rear section and the other end of which is connected to one of the first linkage arm and the second linkage arm.
In one embodiment of the invention there is provided a fork carriage for a truck mounted forklift in which the actuating cylinder is connected at one of its ends to the upright rear section adjacent the base thereof and is connected to the first linkage arm at its other end.
In one embodiment of the invention there is provided a truck mounted forklift comprising a U-shaped chassis having a pair of forwardly projecting side bars bridged by a rear crossbar, a wheel located adjacent the front of each of the side bars and a steered rear wheel mounted on the rear crossbar, a driver's station mounted on one side of the chassis and a motive power unit mounted on the other side of the chassis, a lifting assembly mounted on the assembly intermediate the side bars, and in which the lifting assembly comprises an upright mast having mounted thereon a fork carriage as claimed in any of the preceding claims.
The invention will now be more clearly understood from the following description of some embodiments thereof given by way of example only with reference to the accompanying drawings, in which:—
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The first linkage arm 209 has a forward end 215 pivotably mounted adjacent the bottom of the upright forward section and a rearward end 217 slidably mounted for reciprocal movement upwards and downwards along the upright rear section 201. The second linkage arm 211 has a forward end 219 and a rearward end 221, the rearward end 221 being pivotably mounted adjacent the bottom of the upright rear section 201. The second linkage arm 211 is shorter than the first linkage arm 209 so that the forward end 219 of the second linkage arm 211 terminates before reaching the upright forward section 203.
In addition to the upright forward section 203 being shorter than the upright rear section 201, the pantograph linkage 207 comprises a third linkage arm 223 having a first end 225 and a second end 227. The third linkage arm is cranked intermediate its ends about a hinge joint 229. The first end 225 of the third linkage arm is pivotably connected to the second linkage arm 211 and the second end 227 of the third linkage arm 223 is slidably mounted for reciprocal movement upwards and downwards along the upright forward section 203. A portion of the third linkage arm 223 intermediate the hinge joint 229 and the second end 227 is connected to the first linkage arm 209 about a second pivot joint 231. An actuating cylinder 233 is provided with one end thereof connected to the upright rear section 201 and the other end thereof connected to the first linkage arm. Operation of the actuating cylinder will cause expansion or retraction of the pantograph linkage 207. The second pivot joint 231 and the first end 225 of the third linkage arm are at substantially the same height above the ground, thereby providing a symmetrical pantograph linkage that will permit horizontal movement of the tines as the pantograph is expanded and retracted. In this embodiment, the upright forward section 203 is very low, permitting access to far side loads without impacting against the roof of a carrying vehicle.
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Again, it will be seen that the first end 225 of the third linkage arm and the second pivot joint 231 are at substantially the same height above the ground, thereby providing a symmetrical pantograph linkage that will permit horizontal movement of the tines 205 as the pantograph is expanded and retracted. In this embodiment, the upright forward section 203 is still quite low however it will be appreciated that when in a fully contracted configuration (as illustrated on
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It will be understood that various modifications to the foregoing may be made to provide a low profile upright forward section of the fork carriage with pantograph linkage. Indeed, the precise positioning of the pivot connections and hinge joints as well as the length of the various linkage arms can be determined based on the reach requirements of the forklift. The upright forward section 203 is of the order of 50% to 80% of the height of the upright rear section 201.
In this specification the terms “comprise, comprises, comprised and comprising” and the terms “include, includes, included and including” are all deemed totally interchangeable and should be afforded the widest possible interpretation.
The invention is not limited to the embodiments hereinbefore described but may be varied in both construction and detail within the scope of the appended claims.
Number | Date | Country | Kind |
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1812047.7 | Jul 2018 | GB | national |