BACKGROUND

[0001] The embodiments as disclosed herein further relate to a vehicle landing gear assembly, and in particular to a landing gear assembly configured to support a heavy- duty trailer when uncoupled from an associated towing vehicle such as a semi-tractor, and which is powered via an electronic motor and/or via a manual input.

SUMMARY

[0002] One embodiment includes a landing gear assembly that includes a leg assembly including a first portion and a second portion, wherein the first and second portions of the leg assembly telescopingly engage one another, a gear assembly operably coupled to the first and second leg portions and configured to telescopingly move the first and second leg portions with respect to one another, and a drive assembly operably coupled to the gear assembly. The drive assembly includes a planetary gear arrangement configured to drive the gear assembly at a first speed and at a second speed that is different than the first speed, and a motor configured to drive the planetary gear assembly.

[0003] Another embodiment includes a landing gear assembly that includes a leg assembly including a first portion and a second portion, wherein the first and second portions of the leg assembly telescopingly engage one another, a gear assembly operably coupled to the first and second leg portions and configured to telescopingly move the first and second leg portions with respect to one another, the gear assembly including an input shaft, and a drive assembly coupled to the gear assembly. The drive assembly includes a gear arrangement configured to drive the drive shaft of the gear assembly at a first speed and at a second speed that is different than the first speed, an electric motor configured to drive the gear arrangement, and a battery configured to provide power to the motor.

[0004] Yet another embodiment includes a landing gear assembly that includes a leg assembly including an upper first portion and a lower second portion telescopingly received within the upper first portion, a single-speed gear assembly located within the upper first portion, operably coupled to the first and second leg portions, and configured to telescopingly move the first and second leg portions with respect to one another, the gear assembly including an input shaft, and a drive assembly coupled to the gear assembly. The drive assembly includes a gear arrangement configured to drive the drive shaft of the gear assembly at a first speed and at a second speed that is different than the first speed, an electric motor is configured to drive the gear arrangement, a battery configured to provide power to the motor, and a controller configured to move the gear arrangement between a first configuration where the gear arrangement operates at the first speed, and a second configuration where the gear arrangement operates at the second speed based on a predetermined parameter.

[0005] Still yet another embodiment includes a landing gear assembly that includes a leg assembly including an attachment member configured to attach the leg assembly to a frame assembly of an vehicle, and a supporting member configured to abut a ground surface, and a drive assembly that includes a gear arrangement operably coupled to the leg assembly, wherein the drive assembly is operable between a first configuration where the drive assembly moves the supporting member toward or away from the attachment member at a first speed and the frame assembly of the vehicle moves toward or away from the ground surface at the first speed, and a second configuration where the drive assembly moves the supporting member toward or away from the attachment member at a second speed that is different from the first speed and the frame assembly moves toward or away from the ground surface at the second speed, and a motor configured to drive the gear arrangement, and wherein the drive assembly is configured to automatically switch between the first and second configurations based on a current draw by the motor.

[0006] Another embodiment includes a landing gear assembly that includes a leg assembly including a first leg portion and a second leg portion moveable with respect to the first leg portion, a drive assembly including a motor configured to move the second leg portion with respect to the first leg portion, a manual input receiver configured to receive a handle allowing manual movement of the second leg portion with respect to the first leg portion by an operator via the handle, and an actuator arrangement movable by an operator between a first position where the motor is coupled with the leg assembly such that operation of the motor moves the second leg portion with respect to the first leg portion, and a second position the where the motor is uncoupled from the leg assembly such that operation of the motor does not move the second leg portion with respect to the first leg portion, wherein the actuator arrangement prevents access to the manual input receiver when in the first position and allows access to the manual input receiver when in the second position.

[0007] The principal objects of the embodiments as disclosed herein are to provide a durable landing gear assembly which may be utilized to support and lift an associated vehicle such as a heavy-duty trailer via a self-contained, battery-powered drive assembly, and/or via a manually driven input arrangement, the present inventive landing gear assembly is efficient in use, capable of a long operating life, and is particularly well adapted for the proposed use.

[0008] These and other features, advantages, and objects of the present invention will be further understood and appreciated by those skilled in the art by reference to the following specification, claims, and appended drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

[0009] Fig. 1 is a side elevation view of a heavy-duty trailer assembly including a landing gear assembly;

[0010] Fig. 2 is a front perspective view of the landing gear assembly;

[0011] Fig. 3 is a cross-sectional, front elevation view of the landing gear assembly;

[0012] Fig. 4 is a perspective view of a gear assembly and a drive assembly;

[0013] Fig. 5 is a front elevation view of the gear assembly and the drive assembly;

[0014] Fig. 5A is an enlarged view of the area VA, Fig. 5;

[0015] Fig. 6 is a cut-away perspective view of a planetary gear drive; and

[0016] Fig. 7 is a side elevation view of the landing gear assembly.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0017] For purposes of description herein, the terms "upper," "lower," "right," "left,"

"rear," "front," "vertical," "horizontal," and derivatives thereof shall relate to the invention as oriented in Figs. 1 and 2. However, it is to be understood that the invention may assume various alternative orientations, except where expressly specified to the contrary. It is also to be understood that the specific devices and processes illustrated in the attached drawings, and described in the following specification are simply exemplary embodiments of the inventive concepts defined in the appended claims. Hence, specific dimensions and other characteristics relating to the embodiments disclosed herein are not to be considered as limiting, unless the claims expressly state otherwise.

[0018] The reference numeral 10 (Fig. 1) generally designates a landing gear assembly configured to support a heavy-duty vehicle such as a semi-trailer 12 when the trailer 12 is not supported by an associated towing vehicle such as a semi-truck (not shown). In the illustrated example, the semi-trailer 12 includes a cargo-housing container or body 14 supported by a vehicle frame assembly 16, a suspension arrangement 18, and a pair of the landing gear assemblies 10, wherein the landing gear assemblies 10 are spaced from one another on opposite sides of the trailer 12 and extend downwardly between the frame assembly 16 and a ground surface 20. The vehicle frame assembly 16 may include a plurality of longitudinally-extending frame members 22 and mounting plates 24 fixedly secured to the frame members 22 and extending downwardly therefrom. The landing gear assembly 10 is preferably configured to generate a lifting force of at least 45,000 lbs., and more preferably of greater than 65,000 lbs.

[0019] In the illustrated example, each landing gear assembly 10 (Figs. 1 and 2) includes a leg assembly 26, a gear assembly 28 located internally to the leg assembly 26, and a drive assembly 30 that may be located externally to the leg assembly 26. The leg assembly 26 includes an upper leg portion 32 defining an internal space 34 that houses the gear assembly 28, and a lower leg portion 36 that is telescopingly received within the upper leg portion 32 such that the lower leg portion 36 is telescopingly movable in the direction 38 relative to the upper leg portion 32. In the illustrated example, the lower leg portion 36 is pivotably coupled to a foot or supporting member 40 configured to abut the ground surface 20 when the landing gear assembly 10 is in an extended position. A hat-shaped mounting bracket 42 is fixedly secured to an upper portion of the upper leg portion 32. In the illustrated example, the mounting bracket 42 is welded to the upper leg portion 32, however other suitable connections may also be utilized. The mounting bracket 42 is secured to the mounting plate 24 via a plurality of mechanical fasteners such as bolts (not shown) that extend through mounting apertures 44.

[0020] The gear assembly 28 includes an input shaft 46 that receives an input from the drive assembly 30 as described below and that is coaxially aligned with an output shaft 48, where the output shaft 48 is coupled to an input shaft of the corresponding landing gear assembly located on an opposite side of the trailer 12. The gear assembly 28 also includes a first drive gear 48 in the form of a spur gear 50 fixed for rotation with the input shaft 46, a first receiving gear 52 in the form of a spur gear engaging the first drive gear 50 and fixed for rotation with a secondary shaft 54 that is offset from the input shaft 46 and the output shaft 48. A second drive gear 56 in the form of a spur gear is fixed for rotation with the secondary shaft 54 and engages a second receiving gear 58 in the form of a spur gear that is fixed for rotation with the output shaft 48. A third drive gear 60 in the form of a bevel gear is fixed for rotation with the second receiving gear 58 and engages a third receiving gear 62 in the form of a bevel gear that is fixed for rotation with a longitudinally-extending, threaded spindle 64. In the illustrated example, the second receiving gear 58 and the third drive gear 60 are formed as a single and integral member. The input shaft 46 is pivotably mounted within the interior space 34 of the upper leg portion 32 via a pair of bushing members 68, while the secondary shaft 54 is pivotally mounted within the interior space 34 of the upper leg portion 32 via a pair of bushing members 70.

[0021] The upper leg portion 32 includes a bearing wall 72 fixedly mounted within an interiorthereof via welding. The bearing wall 72 is sandwiched between the third receiving gear 62 and a bearing assembly 74 such that the spindle 64 is rotatably secured within the leg assembly 26. A lifting nut 76 is threadably mounted on the spindle 64 between a pair of bearing walls 78 fixedly secured within an interior of the lower leg portion 36 via welding, such that rotation of the spindle 64 in the direction 80 causes the lifting nut 76 to travel along the length of the spindle 64 thereby causing telescoping movement of the lower leg portion 36 within the upper leg portion 32 of the leg assembly 26.

[0022] The drive assembly 30 includes an electric motor 82 powered by a lithium battery

84, which in the present example, includes a lithium battery. The drive assembly 30 further includes a planetary gear arrangement 86 driven by the motor 82. In the illustrated example, the gear arrangement 86 is operable between a first gearing ratio configuration where the gear arrangement 86 drives the gear assembly at a high first speed and low torque, and a second gearing ratio configuration where the gear arrangement 86 drives the gear assembly 28 at a low second speed and high torque. As best illustrated in Fig. 6, the planetary gear arrangement 86 includes a housing 87, a first sun gear 88 coupled with and driven by the motor 86, first stage planetary gears 89, a first ring gear 90, a second sun gear 91, second stage planetary gears 92, a second ring gear 93, a third sun gear 94, third stage planetary gears 95, a third ring gear 96, a fourth sun gear 97. In the low speed, high torque configuration, the motor 82 drives the first stage planetary gears 89 via the first sun gear 88, which in turn drives the second stage planetary gears 192 and the second sun gear 91, which in turn drives the third stage planetary gears 95 and the third sun gear 94, which in turn drives the fourth sun gear 97, which in turn drives the bevel drive gear 110, and wherein the first, second and third ring gears 90, 93, 96 are locked. In the high speed, low torque configuration, the second and third gears 93, 96 rotate with the second and third stage planetary gears 92, 95, while the first ring gear is fixed.

[0023] The drive assembly 30 may be coupled to the gear assembly 28 via an actuator arrangement 100. In the illustrated example, the actuator arrangement 100 includes an input gear 102 in the form of a spur gear and that is rotatably fixed to a driveshaft 104 that is rotatably supported within a housing 106 of the drive arrangement via a pair of bushing members 108. A drive gear 110 in the form of a bevel gear is driven by the planetary gear arrangement 86 and engages a receiving gear 112 in the form of a bevel gear and that is fixed for rotation with the driveshaft 104. The input gear 102 is configured to engage and disengage an output gear 114 in the form of a spur gear, where the output gear 114 is fixed for rotation with the input shaft 46 of the gear assembly 28.

[0024] In one embodiment of the actuator arrangement 100, the output gear 114 may be configured to be slidably displaced along a length of the input shaft 46 in a direction 116 between an engaged position where the input gear 102 engages the output gear 114 and the drive assembly 30 is coupled to the gear assembly 28, and a disengaged position where the output gear 114 is moved laterally outward from the engaged position such that the output gear 114 is offset from the input gear 102 and does not engage the input gear 102 and the drive assembly 30 is uncoupled from the gear assembly 28. In the illustrated example, the actuator arrangement 100 includes an actuator member 118 in the form of a cover. In the present example, the cover 118 is movable between an engaged or coupled position as shown in Figs. 3 and 5, where the cover 118 prevents access to the input shaft 46, and a second or uncoupled/removed position as shown in Fig. 4, where a hexagonally- shaped end 26 of the input shaft 46 is accessible to an operator such that the operator can drive the landing gear assembly 10 via a manual handle (not shown) as well known in the art or a powered hand tool (not shown) that includes a motorized drive arrangement. In the present example, the cover 118 abuts a release ring 124, which in turn abuts the output gear 114 thereby forcing the output gear 114 laterally inward such that the output gear 114 engages the input gear 102. The actuator arrangement 100 further includes a spring member 26 that biases the output gear 114 from the engaged position to the disengaged position, such that when an operator removes the cover member 118, the spring member biases the output gear 114 from the engaged position toward the disengaged position where the output gear 114 is disengaged from the input gear 102, thereby automatically uncoupling the drive assembly 30 from the gear assembly 28.

[0025] In operation, the trailer 12 may be uncoupled or lifted from a supporting towing vehicle by extending each of the landing gear assemblies 10 by actuating the motor 82 via an input extension button 136. Electrical power from the battery 84 is then supplied to the motor 82 which drives the gear arrangement 86 which is in the first gearing ratio configuration. The gear arrangement 86 drives the gear assembly 28 via the actuator arrangement 100, thereby extending the lower gear portion 36 of the leg assembly 26 from the upper leg portion 32. It is noted that the current draw by the motor 82 is relatively low as the lower leg portion 36 extends from the upper leg portion 32 and before the foot or supporting member 40 contacts the ground surface 20. Once the foot 40 abuts the ground surface 20 the landing gear assemblies 10 begin to support the load or weight of the trailer 12, thereby increasing the power required from the motor 82 and necessarily increasing the current draw by the motor 82. The controller 130 is configured to switch the gear arrangement 86 from the first gearing ratio configuration to the second gearing ratio configuration once the current draw by the motor 82 is increased and maintained for a predetermined amount of time. In the present example, the controller 130 is configured to move the gear arrangement 86 from the first gearing ratio configuration to the second gearing ratio configuration after an increase in the average current draw is preferably between about 50 percent and about 10,000 percent, more preferably between about 100 percent and about 1,000 percent, and most preferably about 300 percent, is maintained preferably for approximately 10 seconds, and more preferably for about 5 seconds. The controller 130 may be configured to pause the lifting cycle momentarily while the gear arrangement 86 is reconfigured from the first gearing ratio configuration to the second gearing ratio configuration before continuing the lifting cycle in the second gearing ratio configuration. Extension of the landing gear assembly 10 is then continued until a predetermined condition is reached, such as a predetermined extension amount, a vehicle level condition, and the like. Extension of the landing gear assembly 10 may also be terminated by the operator releasing the associated input button. The controller 130 may also be configured to turn the motor 82 off if the change in current draw by the motor 82 is maintained for a predetermined amount of time. In the present example, the controller is configured to shut the motor 82 off if a significant change in current draw has been maintained for less than or equal to about one second, such as would occur during a malfunction where a component or subassembly of the landing gear assembly 10 is locked preventing extension/retraction, and/or if minimal or zero current draw is maintained for approximately 30 seconds or a predetermined time of less than 30 seconds, thereby decreasing the possibility of damage to various components of the landing gear assembly 10. Coupling of the trailer 12 to an associated supporting towing vehicle may be accomplished in the reverse manner as described above. Specifically, the operator may actuate the motor 82 via an input extension button 132 of the interface, where the motor 82 then drives the gear arrangement 86 in the second gearing ratio configuration, and the gearing arrangement 86 drives the gear assembly 28 and telescopingly retracts the lower leg portion 36 into the upper leg portion 32 thereby lowering the trailer 12 onto the supporting vehicle. The gear arrangement 86 remains in the second gearing ratio configuration until the load or weight of the trailer 12 begins to be reduced, as by supporting of the towing vehicle. Once the trailer 12 begins to be supported by the supporting, towing vehicle, the power required by the motor 82 decreases, thereby causing a decrease in current draw by the motor 82. Similar to as described above, the controller 130 is configured to monitor the current draw from the motor 82, such that when the decrease in current draw by the motor 82 is maintained for a predetermined amount of time, the controller 82 reconfigures the gear arrangement from the second gearing ratio configuration to the first gearing ratio configuration. In the present example, the controller 130 is configured to switch the gear arrangement 86 from the second gearing ratio configuration to the first gearing ratio configuration once a decrease in current draw is maintained preferably for about 10 seconds and more preferably for about 5 seconds. Again, as noted above, the controller 130 may be configured to pause driving of the gear arrangement 86 while the gear arrangement 86 is reconfigured from the second gearing ratio configuration to the first gearing ratio configuration. The gear arrangement 86 then continues operation in the first gearing ratio configuration and to retract the lower leg portion 36 into the upper leg portion 32 at the first speed. The lower leg portion 36 continues to be retracted into the upper leg portion 32 until a predetermined limit is reached, such as a height limit. The controller 130 may also be configured to shut the motor 82 off if the change in current draw is maintained for a predetermined amount of time. In the instant example, the controller 130 is configured to shut the motor 182 off if a significant change in current has been maintained for less than or equal to about one second, such as would occur during a malfunction where a component or subassembly of the landing gear assembly 10 is locked preventing retraction/extension, and/or may be configured to shut the motor 82 off if minimal or zero current draw is maintained for approximately 30 seconds or a predetermined time of less than 30 seconds, thereby reducing the possibility of damage to components of the landing gear assembly 10. An emergency shut off button 132 extends outwardly from the housing 106 and is configured to allow an operator to manually prevent operation of the motor 182 and consequently shut down the drive assembly 30 from extending and/or retracting leg assembly 26.

[0026] Creep of the landing gear assembly 10 from an extended position to a more retracted position while the landing gear assembly 10 is supporting a load may be prevented by locking arrangement 200 (Figs. 5 and 5A) that includes a solenoid or electric actuator 202 configured to actuate a lock pin 204 between a retracted or unlocked position (shown in dashed) where the output gear 114 is free to rotate, and an extended or locked position (shown in solid) where the lock pin 204 engages a relief 206 of the output gear 114 thereby preventing the output gear 114 from rotating and thus the landing gear assembly 10 from retracting.

[0027] It is noted that while the present embodiment includes an extension/retraction control arrangement that is coupled to the overall landing gear assembly, external controls may also be utilized, including remotely located controls, e.g. controls associated with a towing vehicle or located within a cab of a towing vehicle, and/or wireless control arrangements configured to communicate with the controller 130 via Bluetooth ^® , and the like. Should the operator need to operate the landing gear assembly 10 via a manual input, for example, in instances where the battery 84 has an insufficient charge, or where the drive assembly 30 has malfunctioned, the operator may remove the cover 118. As noted above, removal of the cover 118 provides access to the hexagonally-shaped end 26 of the input shaft 46, thereby allowing the operator to attach a manual drive crank or handle or separate, external drive tool to the end 26 of the input shaft 46. As noted above, removal of the cover 118 further allows the biasing spring 26 to move the output gear 114 from an engaged position where the output gear 114 is aligned and engages the input gear 102, to the disengaged position where the output gear 114 is offset from the input gear 102 and the drive assembly 30 is disengaged or uncoupled from the gear assembly 28.

[0028] The landing gear assembly 10 (Figs. 1 and 7) may also include a visual leg extension indicator integral with the input extension button 136 , a visual leg retraction indicator integral with the input retraction button 138, and a battery status indicator 140. In the illustrated example, the leg extension indicator and the leg retraction indicator each include an LED, where the controller 130 is configured to light each of the indicators and convey to the operator the operation being conducted. In the illustrated example, the battery status indicator 40 includes a plurality of LED lights configured to visually convey to the operatorthe charging status of the battery 84. In the illustrated example, the battery status indicator 40 includes four LED lights, including a red LED 142, a yellow LED 144, a first green LED 146 and a second green LED 148, where the red LED 142 indicates a critically low battery charge, the yellow LED 144 indicates a depleted battery charge, the first green LED 146 indicates a moderate battery charge, and the second green LED 148 indicates a full or nearly full battery charge. The controller 130 may also be configured to utilize the LED lights 142, 144, 146, 148 to convey other information to the operator, such as a flashing pulse from the red LED 142 indicating a damaged battery.

[0029] A first embodiment of a landing gear assembly comprises the elements of a leg assembly including a first portion and a second portion, wherein the first and second portions of the leg assembly telescopingly engage one another, a gear assembly operably coupled to the first and second leg portions and configured to telescopingly move the first and second leg portions with respect to one another, and a drive assembly fixed to the leg assembly and coupled to the gear assembly including a planetary gear arrangement configured to drive the gear assembly at a first speed and at a second speed that is different than the first speed, a motor configured to drive the planetary gear assembly, and a battery electrically coupled to the motor.

[0030] A second embodiment of the landing gear assembly may include the elements of the first embodiment wherein the motor is an electric motor.

[0031] A third embodiment of the landing gear assembly may include the elements of either one of the first and second embodiments wherein the battery includes a lithium battery.

[0032] A fourth embodiment of the landing gear assembly may include the elements of any one of or any combination of the first through third embodiments, wherein the battery is located within a housing and removable from within the housing for replacement.

[0033] A fifth embodiment of the landing gear assembly may include the elements of any one of or any combination of the first through fourth embodiments, wherein the gear assembly is located within an interior of at least one of the first portion and the second portion of the leg assembly.

[0034] A sixth embodiment of the landing gear assembly may include the elements of any one of or any combination of the first through fifth embodiments, wherein the first portion of the leg assembly is an upper portion, and the second portion of the leg assembly is a lower portion located below the upper portion.

[0035] A seventh embodiment of the landing gear assembly may include the elements of any one of or any combination of the first through sixth embodiments, wherein the gear assembly is located within an interior of the upper portion.

[0036] An eighth embodiment of the landing gear assembly may include the elements of any one of or any combination of the first through seventh embodiments, wherein the second portion is telescopingly received within the first portion.

[0037] A ninth embodiment of the landing gear assembly may include the elements of any one of or any combination of the first through eighth embodiments, wherein the gear assembly is a single speed gear assembly. [0038] A tenth embodiment of the landing gear assembly may include the elements of any one of or any combination of the first through ninth embodiments, wherein the gear assembly includes a first driving gear coupled for rotation with an input shaft, a first receiving gear engaging the first drive gear and coupled for rotation with a secondary shaft offset from the input shaft, a second drive gear coupled for rotation with the secondary shaft, a second receiving gear engaging the second drive gear, a third drive gear coupled for rotation with the second receiving gear and engaging a third receiving gear, wherein the input shaft is operably coupled with the planetary gear arrangement, and wherein the third receiving gear is fixed for rotation with a drive spindle operably coupled to the second portion of the leg assembly.

[0039] An eleventh embodiment of the landing gear assembly may include the elements of the tenth embodiment, wherein the first drive gear, the first receiving gear, the second drive gear and the second receiving gear each include a spur gear.

[0040] An twelfth embodiment of the landing gear assembly may include the elements of either one of the tenth and eleventh embodiments, wherein the third drive gear and the third receiving gear each include a bevel gear.

[0041] A thirteenth embodiment of the landing gear assembly may include the elements of any one of or any combination of the first through twelfth embodiments, further including a controller configured to move the planetary gear arrangement between a first configuration where the planetary gear arrangement drives the gear assembly at the first speed, and a second configuration where the planetary gear arrangement drives the gear arrangement at the second speed based on a predetermined parameter.

[0042] A fourteenth embodiment of the landing gear assembly may include the elements of the thirteenth embodiment, wherein the predetermined parameter includes electric current draw by the motor.

[0043] A fifteenth embodiment of the landing gear assembly may include elements of the fourteenth embodiment, wherein the controller is configured to move the planetary gear arrangement between the first and second configurations when a change in current draw is maintained for greater than or equal to about 5 seconds.

[0044] A sixteenth embodiment of the landing gear assembly may include the elements of either one of the fourteenth or fifteenth embodiments, wherein the controller is configured to shut the motor off if a minimal or zero current draw is maintained for greater than or equal to about 30 seconds.

[0045] A seventeenth embodiment of the landing gear assembly may include the elements of any one of or any combination of the fourteenth through sixteenth embodiments, where the change in the current draw is between about 50 percent and about 10,000 percent.

[0046] An eighteenth embodiment of the landing gear assembly may include elements of the seventeenth embodiment, where the change in the current draw is about 300 percent.

[0047] A nineteenth embodiment of the landing gear assembly may include the elements of any one of or any combination of the first through eighteenth embodiments, wherein the motor is located external to the first and second portions of the leg assembly.

[0048] A twentieth embodiment of the landing gear assembly may include the elements of any one of or any combination of the first through nineteenth embodiments, wherein the planetary gear arrangement is located external to the first and second portions of the leg assembly.

[0049] A twenty-first embodiment of the landing gear assembly may include the elements of any one of or any combination of the first through twentieth embodiments, wherein the gear assembly includes an input shaft that is configured to engage a manual drive handle.

[0050] A twenty-second embodiment of the landing gear assembly may include the elements of any one of or any combination of the first through twenty-first embodiments, further including an actuator arrangement movable by an operator between a first position where the motor is coupled with the leg assembly such that operation of the motor moves the second leg portion with respect to the first leg portion, and a second position the where the motor is uncoupled from the leg assembly such that operation of the motor does not move the second leg portion with respect to the first leg portion.

[0051] A twenty-third embodiment of the landing gear assembly may include the elements of the twenty-second embodiment, wherein the actuator arrangement includes a cover member movable between the first position, wherein the cover member covers the input shaft, and the second position, wherein the input shaft is accessible to engaging the manual drive handle.

IB [0052] A twenty-fourth embodiment of the landing gear assembly may include the elements of the twenty-third embodiment, wherein movement of the actuator arrangement from the first position to the second position uncouples the drive assembly from the gear assembly.

[0053] A twenty-fifth embodiment of a landing gear assembly comprises a leg assembly including a first portion and a second portion, wherein the first and second portions of the leg assembly telescopingly engage one another, a gear assembly operably coupled to the first and second leg portions and configured to telescopingly move the first and second leg portions with respect to one another, the gear assembly including an input shaft, and a drive assembly coupled to the gear assembly comprising a gear arrangement configured to drive the drive shaft of the gear assembly at a first speed and at a second speed that is different than the first speed, an electric motor configured to drive the gear arrangement, and a battery configured to provide power to the motor.

[0054] A twenty-sixth embodiment of the landing gear assembly may include the elements of the twenty-fifth embodiment, wherein the battery includes a lithium battery.

[0055] A twenty-seventh embodiment of the landing gear assembly may include the elements of either of the twenty-fifth and twenty-sixth embodiments, wherein the gear arrangement comprises a planetary gear arrangement.

[0056] A twenty-eighth embodiment of the landing gear assembly may include the elements of any one of or any combination of the twenty-fifth through twenty-seventh embodiments, wherein the gear assembly is located within an interior of at least one of the first portion and the second portion of the leg assembly.

[0057] A twenty-ninth embodiment of the landing gear assembly may include the elements of any one of or any combination of the twenty-fifth through twenty-eighth embodiments, wherein the first portion of the leg assembly is an upper portion, and the second portion of the leg assembly is a lower portion located below the upper portion.

[0058] A thirtieth embodiment of the landing gear assembly may include the elements of the twenty-ninth embodiment, wherein the gear assembly is located within an interior of the upper portion. [0059] A thirty-first embodiment of the landing gear assembly may include the elements of any one of or any combination of the twenty-fifth through thirtieth embodiments, wherein the second portion is telescopingly received within the first portion.

[0060] A thirty-second embodiment of the landing gear assembly may include the elements of any one of or any combination of the twenty-fifth through thirty-first embodiments, wherein the gear assembly is a single speed gear assembly.

[0061] A thirty-third embodiment of the landing gear assembly may include the elements of any one of the or any combination of twenty-fifth through thirty-second embodiments, wherein the gear assembly includes a first driving gear coupled for rotation with the input shaft, a first receiving gear engaging the first drive gear and coupled for rotation with a secondary shaft offset from the input shaft, a second drive gear coupled for rotation with the secondary shaft, a second receiving gear engaging the second drive gear, a third drive gear coupled for rotation with the second receiving gear and engaging a third receiving gear, wherein the input shaft is operably coupled with the planetary gear arrangement, and wherein the third receiving gear is fixed for rotation with a drive spindle operably coupled to the second portion of the leg assembly.

[0062] A thirty-fourth embodiment of the landing gear assembly may include the elements of the thirty-third embodiment, wherein the first drive gear, the first receiving gear, the second drive gear and the second receiving gear each include a spur gear.

[0063] A thirty-fifth embodiment of the landing gear assembly may include the elements of either of the thirty-third and thirty-fourth embodiments, wherein the third drive gear and the third receiving gear each include a bevel gear.

[0064] A thirty-sixth embodiment of the landing gear assembly may include the elements of any one of or any combination of the twenty-fifth through thirty-fifth embodiments, further including a controller configured to move the gear arrangement between a first configuration where the gear arrangement operates at the first speed, and a second configuration where the gear arrangement operates at the second speed based on a predetermined parameter.

[0065] A thirty-seventh embodiment of the landing gear assembly may include the elements of the thirty-sixth embodiment, wherein the predetermined parameter includes current draw by the motor. [0066] A thirty-eighth embodiment of the landing gear assembly may include the elements of the thirty-seventh embodiment, wherein the controller is configured to move the gear arrangement between the first and second configurations when a change in current draw is maintained for greater than or equal to about 5 seconds.

[0067] A thirty-ninth embodiment of the landing gear assembly may include the elements of either of the thirty-seventh and thirty-eighth embodiments, wherein the controller is configured to shut the motor off if a minimal or zero current draw is maintained for greater than or equal to about 30 seconds.

[0068] The fortieth embodiment of the landing gear assembly may include the elements of any one of or any combination of the thirty-seventh through thirty-ninth embodiments, where the change in the current draw is between about 50 percent and about 10,000 percent.

[0069] The forty-first embodiment of the landing gear assembly may include the elements of the fortieth embodiment, where the change in the current draw is about 300 percent.

[0070] The forty-second embodiment of the landing gear assembly may include the elements of any one of or any combination of the twenty-fifth through forty-first embodiments, wherein the motor is located external to the first and second portions of the leg assembly.

[0071] The forty-third embodiment of the landing gear assembly may include the elements of any one of or any combination of the twenty-fifth through forty-second embodiments, wherein the gear arrangement is located external to the first and second portions of the leg assembly.

[0072] The forty-fourth embodiment of the landing gear assembly may include the elements of any one of or any combination of the twenty-fifth through forty-third embodiments, wherein the input shaft is configured to engage a manual drive handle.

[0073] The forty-fifth embodiment of the landing gear may include the elements of any one of or any combination of the twenty-fifth through forty-fourth embodiments, further including an actuator arrangement movable by an operator between a first position where the motor is coupled with the leg assembly such that operation of the motor moves the second leg portion with respect to the first leg portion, and a second position the where the motor is uncoupled from the leg assembly such that operation of the motor does not move the second leg portion with respect to the first leg portion.

[0074] The forty-sixth embodiment of the landing gear assembly may include the elements of the forty-fourth embodiment, wherein the actuator member includes a cover member movable between the first position, wherein the cover member covers the input shaft, and a second position, wherein the input shaft is accessible to engaging the manual drive handle.

[0075] The forty-seventh embodiment of the landing gear assembly may include the elements of the forty-first embodiment, wherein movement of the actuator arrangement from the first position to the second position uncouples the drive assembly from the gear assembly.

[0076] A forty-eighth embodiment of a landing gear assembly comprises a leg assembly including an upper first portion and a lower second portion telescopingly received within the upper first portion, a single-speed gear assembly located within the upper first portion, operably coupled to the first and second leg portions, and configured to telescopingly move the first and second leg portions with respect to one another, the gear assembly including an input shaft, and a drive assembly coupled to the gear assembly, comprising a gear arrangement configured to drive the drive shaft of the gear assembly at a first speed and at a second speed that is different than the first speed, an electric motor is configured to drive the gear arrangement a battery configured to provide power to the motor, and a controller configured to move the gear arrangement between a first configuration where the gear arrangement operates at the first speed, and a second configuration where the gear arrangement operates at the second speed based on a predetermined parameter.

[0077] A forty-ninth embodiment of the landing gear assembly may include the elements of the forty-eighth embodiment, wherein the battery includes a lithium battery.

[0078] A fiftieth embodiment of the landing gear assembly may include the elements of either one of the forty-eighth and forty-ninth embodiments, wherein the gear assembly includes a first driving gear coupled for rotation with the input shaft, a first receiving gear engaging the first drive gear and coupled for rotation with a secondary shaft offset from the input shaft, a second drive gear coupled for rotation with the secondary shaft, a second receiving gear engaging the second drive gear, a third drive gear coupled for rotation with the second receiving gear and engaging a third receiving gear, wherein the input shaft is operably coupled with the planetary gear arrangement, and wherein the third receiving gear is fixed for rotation with a drive spindle operably coupled to the second portion of the leg assembly.

[0079] A fifty-first embodiment of the landing gear assembly may include the elements of the fiftieth embodiment, wherein the first drive gear, the first receiving gear, the second drive gear and the second receiving gear each include a spur gear.

[0080] A fifty-second embodiment of the landing gear assembly may include the elements of either one of the fiftieth and fifty-first embodiments, wherein the third drive gear and the third receiving gear each include a bevel gear.

[0081] A fifty-third embodiment of the landing gear assembly may include the elements of any one of or any combination of the forty-eighth through fifty-second embodiments, wherein the predetermined parameter includes current draw by the motor.

[0082] A fifty-fourth embodiment of the landing gear assembly may include the elements of the fifty-third embodiment, wherein the controller is configured to move the gear arrangement between the first and second configurations when a change in current draw is maintained for greater than or equal to about 5 seconds.

[0083] A fifty-fifth embodiment of the landing gear assembly may include the elements of either of the fifty-third and fifty-fourth embodiments, wherein the controller is configured to shut the motor off if a minimal or zero current draw is maintained for greater than or equal to about 30 seconds.

[0084] A fifty-sixth embodiment of the landing gear assembly may include the elements of any one of or any combination of the fifty-third through fifty-fifth embodiments, where the change in the current draw is between about 50 percent and about 10,000 percent.

[0085] A fifty-seventh embodiment of the landing gear assembly may include the elements of the fifty-sixth embodiment, where the change in the current draw is about 300 percent.

[0086] A fifty-eight embodiment of the landing gear assembly may include the elements of any one of or any combination of the forty-eighth through fifty-seventh embodiments, wherein the motor is located external to the first and second portions of the leg assembly. [0087] A fifth-ninth embodiment of the landing gear may include the elements of any one of or any combination of the forty-eighth through fifty-eighth embodiments, wherein the gear arrangement is located external to the first and second portions of the leg assembly.

[0088] A sixtieth embodiment of the landing gear assembly may include the elements of any one of or any combination of the forty-eighth through fifty-ninth embodiments, wherein the input shaft is configured to engage a manual drive handle.

[0089] A sixty-first embodiment of the landing gear assembly may include the elements of any one of or any combination of the forty-eighth through sixtieth embodiments, further includes an actuator arrangement movable by an operator between a first position where the motor is coupled with the leg assembly such that operation of the motor moves the second leg portion with respect to the first leg portion, and a second position the where the motor is uncoupled from the leg assembly such that operation of the motor does not move the second leg portion with respect to the first leg portion.

[0090] A sixty-second embodiment of the landing gear assembly may include the elements of the sixty-first embodiment, wherein the actuator arrangement includes a cover member movable between the first position, wherein the cover member covers the input shaft, and a second position, wherein the input shaft is accessible to engaging the manual drive handle.

[0091] A sixty-third embodiment of the landing gear assembly may include the elements of the sixty-second embodiment, wherein movement of the actuator arrangement from the first to the second position uncouples the drive assembly from the gear assembly.

[0092] A sixty-fourth embodiment of the landing gear assembly may include the elements of any one of or any combination of the forty-eighth through sixty-third embodiments, wherein the gear arrangement includes a planetary gear arrangement.

[0093] A sixty-fifth embodiment of a landing gear assembly comprises a leg assembly including an attachment member configured to attach the leg assembly to a frame assembly of an vehicle, and a supporting member configured to abut a ground surface, and a drive assembly that includes a gear arrangement operably coupled to the leg assembly, wherein the drive assembly is operable between a first configuration where the drive assembly moves the supporting member toward or away from the attachment member at a first speed and the frame assembly of the vehicle moves toward or away from the ground surface at the first speed, and a second configuration where the drive assembly moves the supporting member toward or away from the attachment member at a second speed that is different from the first speed and the frame assembly moves toward or away from the ground surface at the second speed, and wherein the drive assembly is configured to automatically switch between the first and second configurations based on a predetermined parameter and without input from a user.

[0094] A sixty-sixth embodiment of the landing gear assembly may include the elements of the sixty-fifth embodiment, wherein the drive assembly includes a motor configured to drive the gear arrangement.

[0095] A sixty-seventh embodiment of the landing gear assembly may include the elements of the sixty-sixth embodiment, wherein the motor is an electric motor.

[0096] A sixty-eighth embodiment of the landing gear assembly may include the element of either one of the sixty-sixth and sixty-seventh embodiments, wherein the predetermined parameter includes current draw by the motor.

[0097] A sixty-ninth embodiment of the landing gear assembly may include the elements of the sixty-eighth embodiment, wherein the drive assembly includes a controller that is configured to move the drive assembly between the first and second configurations when a change in current draw is maintained for greater than or equal to about 5 seconds.

[0098] A seventieth embodiment of the landing gear assembly may include the elements of either of the sixty-eighth or sixty-ninth embodiments, wherein the controller is configured to shut the motor off if a minimal or zero current draw is maintained for greater than or equal to about 30 seconds.

[0099] A seventy-first embodiment of the landing gear assembly may include the elements of any one of or any combination of the sixty-eighth through seventieth embodiments, where the change in the current draw is between about 50 percent and about 10,000 percent.

[00100] A seventy-second embodiment of the landing gear assembly may include the elements of the seventy-first embodiment, where the change in the current draw is about 300 percent.

[00101] A seventy-third embodiment of the landing gear assembly may include the elements of any one of or any combination of the sixty-fifth through seventy-second embodiments, wherein the gear arrangement includes a planetary gear arrangement that is operable between the first configuration and the second configuration.

[00102] A seventy-fourth embodiment of the landing gear assembly may include the elements of any one of or any combination of the sixty-fifth through seventy-third embodiments, wherein the drive assembly includes a battery.

[00103] A seventy-fifth embodiment of the landing gear assembly may include the elements of the seventy-fourth embodiment, wherein the battery includes a lithium battery.

[00104] A seventy-sixth embodiment of the landing gear assembly may include the elements of any one of or any combination of the sixty-fifth through seventy-fourth embodiments, further including a gear assembly that operably couples the drive assembly with the leg assembly.

[00105] A seventy-seventh embodiment of the landing gear assembly may include the elements of the seventy-sixth embodiment, wherein the gear assembly is a single speed gear assembly.

[00106] A seventy-eighth embodiment of the landing gear assembly may include the elements of the seventy-seventh embodiment, wherein the gear assembly includes a first driving gear coupled for rotation with an input shaft coupled to the drive assembly, a first receiving gear engaging the first drive gear and coupled for rotation with a secondary shaft offset from the input shaft, a second drive gear coupled for rotation with the secondary shaft, a second receiving gear engaging the second drive gear, a third drive gear coupled for rotation with the second receiving gear and engaging a third receiving gear, wherein the input shaft is operably coupled with the planetary gear arrangement, and wherein the third receiving gear is fixed for rotation with a drive spindle.

[00107] A seventy-ninth embodiment of the landing gear assembly may include the elements of any one of or any combination of the sixty-fifth through seventy-eighth embodiments, wherein the leg assembly further includes an upper leg portion coupled for vertical movement with the attachment member and a lower leg portion coupled for vertical movement with the supporting member and telescopingly received within the upper leg portion such that the lower leg portion telescopes within the upper leg portion as the frame assembly and the supporting member move toward or away from one another. [00108] An eightieth embodiment of the landing gear assembly may include the elements of the seventy-ninth embodiment, wherein the drive assembly is located external to the upper leg portion and the lower leg portion.

[00109] An eighty-first embodiment of the landing gear assembly may include the elements of any one of or any combination of the sixty-fifth through eightieth embodiments, wherein the gear arrangement includes a planetary gear arrangement.

[00110] An eighty-second embodiment of a landing gear assembly comprises a leg assembly including a first leg portion and a second leg portion moveable with respect to the first leg portion, a drive assembly including a motor configured to move the second leg portion with respect to the first leg portion, a manual input receiver configured to receive a handle allowing manual movement of the second leg portion with respect to the first leg portion by an operator via the handle, and an actuator arrangement movable by an operator between a first position where the motor is coupled with the leg assembly such that operation of the motor moves the second leg portion with respect to the first leg portion, and a second position the where the motor is uncoupled from the leg assembly such that operation of the motor does not move the second leg portion with respect to the first leg portion.

[00111] An eighty-third embodiment of the landing gear assembly may include the elements of the eighty-second embodiment, wherein the actuator arrangement includes an actuator member that is located in the first position such that that the actuator member couples the drive assembly with the first leg portion and the second leg portion, and a second position such that the actuator member does not couple the drive assembly with the first leg portion and the second leg portion.

[00112] An eighty-fourth embodiment of the landing gear assembly may include the elements of the eighty-third embodiment, wherein the actuator member includes a gear.

[00113] An eighty-fifth embodiment of the landing gear assembly may include the elements of either the eighty-third and eighty-fourth embodiments, wherein the actuator member is spring biased toward the second position.

[00114] An eighty-sixth embodiment of the landing gear assembly may include the elements of any one of or any combination of the eighty-second through eighty-fifth embodiments, wherein the drive assembly includes a housing and the actuator member is removed from the housing when in the second position.

[00115] An eighty-seventh embodiment of the landing gear assembly may include the elements of any one of or any combination of the eighty-second through eighty-sixth embodiments, wherein the actuator member covers the manual input receiver when in the first position, thereby preventing access to the manual input receiver, and is configured to allow access to the manual input receiver when in the second position.

[00116] An eighty-eighth embodiment of the landing gear assembly may include the elements of any one of or any combination of the eighty-second through eighty-seventh embodiments, wherein the manual input receiver includes an input shaft.

[00117] An eighty-ninth embodiment of the landing gear assembly may include the elements of the eighty-eighth embodiment, further including a gear assembly configured to receive an input from the input shaft and operably coupling the input shaft with the first leg portion and the second leg portion.

[00118] A ninetieth embodiment of the landing gear assembly may include the elements of the eighty-ninth embodiment, wherein the gear assembly is a single-speed gear assembly.

[00119] A ninety-first embodiment of the landing gear assembly may include the elements of any one of or any combination of the eighty-eighth through ninetieth embodiments, wherein the drive assembly further includes a gear arrangement configured to operably couple the motor with the input shaft and provide an input to the input shaft.

[00120] A ninety-second embodiment of the landing gear assembly may include the element of the ninety-first embodiment, wherein the gear arrangement is a multi-speed gear arrangement.

[00121] A ninety-third embodiment of the landing gear assembly may include the elements of either one of the ninety-first and ninety-second embodiments, wherein the gear arrangement includes a planetary gear arrangement.

[00122] A ninety-fourth embodiment of the landing gear assembly may include the elements of any one of or any combination of the eighty-second through ninety-third embodiments, wherein the second leg portion is telescopingly received within the first leg portion. [00123] The ninety-fifth embodiment of the landing gear assembly may include the elements of any one of or any combination of the eighty-second through ninety-fourth embodiments, wherein the motor is an electric motor.

[00124] The ninety-sixth embodiment of the landing gear assembly may include the elements of any one of or any combination of the eighty-second through ninety-fifth embodiments, wherein the drive assembly includes a battery.

[00125] The ninety-seventh embodiment of the landing gear assembly may include the elements of the ninety-sixth embodiment, wherein the battery includes a lithium battery.

[00126] It is noted that while the embodiments as disclosed herein include control arrangements requiring an operator to be in close proximity to the landing gear assembly or to the trailer or towing vehicle, other embodiments may include use of the landing gear assembly within remotely controlled and/or autonomous vehicles. In the foregoing description, it will be readily appreciated by those skilled in the art that modifications may be made to the invention without departing from the concepts disclosed herein. Such modifications are to be considered as included in the following claims, unless these claims by their language expressly state otherwise.