The disclosed subject matter is directed to lifting apparatus, and in particular to apparatus capable of lifting and selectively maintaining loads at a lifted position.
In one embodiment, a lifting apparatus includes a base, a receiving portion, and a first pair of laterally offset anus. The base has a proximal end and a distal end, and the laterally offset arms are rotatably coupled to the base for movement between lowered and raised positions. The arms are also rotatably coupled to the receiving portion, and the receiving portion is relatively near the base distal end when the arms are at the lowered position. The arms of the first pair of arms do not share a common axis of rotation with one another. Further, a height of the first pair of arms when at the lowered position is less than the sum of: (a) a thickness of one arm of the first pair of arms; (b) a thickness of the other arm of the first pair of arms; and (c) a height of the base at the distal end.
In another embodiment, a lifting apparatus includes a base, a first pair of rotatable arms, a second pair of rotatable arms, and a receiving portion. The base has a proximal end, a distal end, a first pair of generally parallel laterally offset channels with open top ends, and a second pair of generally parallel laterally offset channels with open top ends. The first pair of rotatable aims extends inside the first pair of channels. The second pair of rotatable arms extends inside the second pair of channels. One arm of the first pair of arms and one arm of the second pair of arms rotate about a generally common first axis, and the other arm of the first pair of arms and the other arm of the second pair of arms rotate about a generally common second axis. The first and second pairs of arms are rotatable in concert between lowered and raised positions. The arms of the first pair of arms are generally laterally adjacent one another when at the lowered position, and the arms of the second pair of arms are generally laterally adjacent one another when at the lowered position. One arm of the first pair of arms and one arm of the second pair of arms is rotatably coupled to the receiving portion about a generally common third axis, and the other arm of the first pair of arms and the other arm of the second pair of arms is rotatably coupled to the receiving portion about a generally common fourth axis. The first and second axes are separated by a distance generally equal to a distance between the third and fourth axes.
In yet another embodiment, a lifting apparatus, includes a base, a receiving portion, first and second arms, and a support. The base has a proximal end, a distal end, and first and second opposed sides. The first side has a plurality of receiving areas spaced apart between the proximal and distal ends. The first and second arms are rotatably coupled to the base for movement between lowered and raised positions, and the first and second arms are coupled to the receiving portion. The receiving portion is relatively near the base distal end when the first and second arms are at the lowered position, and the receiving portion is relatively distant to the base distal end when the first and second arms are at the raised position. The support rotatably extends from the first arm and automatically engages at least one of the receiving areas when the first and second arms move from the lowered position to the raised position.
a is a top view of the lifting apparatus of
b is a top view of the lifting apparatus of
c is a top view of the lifting apparatus of
a is a front view of the lifting apparatus of
b is a rear view of the lifting apparatus of
a is a top view of the lifting apparatus of
b is a bottom view of the lifting apparatus of
a is a perspective view of the lifting apparatus of
b is a top view of the lifting apparatus of
The base 110 is best shown in
To aid in mobility, the base 110 may include wheels 122 and handle 124 (
Turning to the receiving portion 130, as shown for example in
Though the platforms 132, 133 may be, for example, rectangular, it may be desirable for the platforms 132, 133 to instead be L-shaped (as shown) or otherwise configured such that a distance between the platform distal ends 132b, 133b is greater than a distance between the platform proximal ends 132a, 133a. In other words, it may be desirable for the opening between the platform distal ends 132b, 133b to be greater than the opening between the platform proximal ends 132a, 133a. As shown in
As those skilled in the art will appreciate, the platforms 132, 133 may be constructed of steel, aluminum, and/or any other appropriate material, and may be formed through any appropriate processes. It may be desirable to have a non-slip material 138 at upper ends of the platforms 132, 133, as shown in
The receiving portion 130 may also include a tire-receiving member 140 operatively coupled to each platform 132, 133, and attachment between the tire-receiving members 140 and the platforms 132, 133 may be permanent or reversible (e.g., through quick-locking mechanisms, removable bolts, etc.).
Attention now being directed to the arms 150, the arms 150 (specifically denoted in the drawings by reference numbers 150a, 150b) in the first pair 154 are laterally offset from one another and respectively extend inside the first pair 114 of channels 114a, 114b, and the arms 150 (specifically denoted in the drawings by reference numbers 150c, 150d) in the second pair 155 are laterally offset from one another and respectively extend inside the second pair 115 of channels 115a, 115b. All of the arms 150 are rotatably coupled to the base 110 for movement (i.e., rotation) in concert between a lowered position 160a (
All of the arms 150 are also rotatably coupled to the receiving portion 130, causing the receiving portion 130 to move between a lowered position when the arms 150 are at the lowered position 160a and a raised position when the arms 150 are at the raised position 160b. The receiving portion 130 is relatively near the base distal end 112b when the arms 150 are at the lowered position 160a, and it may be desirable for one arm 150 of each pair 154, 155 (e.g., arm 150a and arm 150c) to rotate relative to the receiving portion 130 about a generally common axis (e.g., an axis extending in line with pin 163 at the platform distal ends 132b, 133b, shown in
It may be very desirable for a height of the first pair 154 of arms 150a, 150b when at the lowered position 160a (
As those skilled in the art will appreciate, the arms 150 may be constructed of steel, aluminum, and/or any other appropriate material, and may be formed through any appropriate processes. And though not specifically shown in the drawings, the arms 150 may be telescopic.
Various means for moving the pairs 154, 155 of arms 150 between the lowered and raised positions 160a, 160b may be included. For example, a winch may be used to wind and unwind a rope or chain coupled to one of the arms 150. Or, for example, a motor and gearing may be used to rotate one of the arms 150. Or, as shown throughout the drawings, a pump 170 (e.g., a hydraulic or pneumatic pump) may be in communication with at least one of the arms 150 to selectively move the arms 150 between the lowered and raised positions 160a, 160b. In the embodiment shown in the drawings, the pump 170 moves a piston 172 (
Various means may also be included for mechanically maintaining the arms 150 at the raised position 160b to prevent the arms 150 from undesirably moving from the raised position 160b to the lowered position 160a. For example, as shown in
In use, a device (or “load”) to be lifted is placed atop the receiving portion 130. For example, tires of a lawn tractor may be received by the tire-receiving members 140. Due to the proximity of the tire-receiving members 140 to the ground (made possible, for example, by the arms 150 being laterally offset and the tire-receiving members 140 extending below the platforms 132, 133 as discussed above), the tires may be easily received in the tire-receiving members 140. If necessary, the tire-receiving members 140 may be telescopically extended to correspond to the spacing between the tires. The configuration and spacing of the platforms 132, 133 may avoid interference with a mower deck of the lawn tractor, and it should be appreciated that other low-clearance devices may accordingly be received as well.
It should also be understood that the receiving portion 130 may be utilized with the tire-receiving members 140 removed, as discussed above and shown in
To raise the load, the pump 170 may be actuated (such as through the foot pedal 178), causing the piston 172 to extend (
To lower the load, the release 188 (
One difference between the lifting apparatus 200 and the lifting apparatus 100 is that the lifting apparatus 200 has two arms 250 instead of four arms 150. In addition, base 210 in the lifting apparatus 200 differs from the base 110 by not including the channels 114a, 114b, 115a, 115b. The base 210 has proximal and distal ends 212a, 212b and includes first and second opposed sides 214, 215. One or both of the sides 214, 215 may include a plurality of receiving areas 216 spaced apart between the proximal and distal ends 212a, 212b. The receiving areas 216 may be, for example, holes, indentations, or projections. A strap 219 may fix the position of the opposed sides 214, 215 relative to one another at the distal end 212b and aid in transferring forces throughout the base 210, and the position of the opposed sides 214, 215 relative to one another at the proximal end 212a may also be fixed.
One of the arms 250 is rotatably coupled to the first side 214 (e.g., such that the arm 250 is laterally adjacent the first side 214), and the other arm 250 is rotatably coupled to the second side 215 (e.g., such that the arm 250 is laterally adjacent the second side 215) for movement (i.e., rotation) in concert between a lowered position 260a (
In the lifting apparatus 200, the arms 250 are fixedly coupled to a receiving portion 230 that includes two tire-receiving members 240.
In use, a device (or “load”) to be lifted is placed atop the tire-receiving members 240. For example, tires of a lawn tractor may be received by the tire-receiving members 240. To raise the load, the pump 170 may be actuated (such as through the foot pedal 178), causing the arms 250 to raise. Raising the arms 250 causes the tire-receiving members 240 to raise, as those elements are coupled together. As the arms 250 raise, the supports 280 automatically rotate (e.g., due to gravity) and interact with the receiving areas 216 to restrict the arms 250 from lowering, even if the pump 170 fails. Due to the level of safety provided by the arms 250 being mechanically maintained at the raised position 260b, people may work underneath the lifted load without fear of the load being unintentionally lowered.
To lower the load, the supports 280 are released from engaging the receiving areas 216, and a controlled release valve may be used to release pressure. The release of pressure in turn lowers the arms 250 and the tire-receiving members 240. The controlled release valve may allow the load to be lowered at various speeds to suit various applications. Once the arms 250 are at the lowered position 260a, the load may be easily removed from the tire-receiving members 240.
Many different arrangements of the various components depicted, as well as components not shown, are possible without departing from the spirit and scope of the present invention. Embodiments of the present invention have been described with the intent to be illustrative rather than restrictive. Alternative embodiments will become apparent to those skilled in the art that do not depart from its scope. A skilled artisan may develop alternative means of implementing the aforementioned improvements without departing from the scope of the present invention. Further, it will be understood that certain features and subcombinations are of utility and may be employed without reference to other features and subcombinations and are contemplated within the scope of the claims. Moreover, various steps set forth herein may be carried out in orders that differ from those set forth herein without departing from the scope of the present methods. The description should not be restricted to the above embodiments, but should be measured by the following claims.
This application is a continuation-in-part of U.S. patent application Ser. No. 12/76,749, filed Apr. 20, 2010, the disclosure of which is incorporated herein by reference.
Number | Date | Country | |
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Parent | 12763749 | Apr 2010 | US |
Child | 13250580 | US |