Systems and methods for moving at least one load transporting apparatus may include the load transporting apparatus(es) configured to move in at least one direction, at least one feedback sensing device disposed on and/or within the load transporting apparatus where the sensing device obtains movement measurements of the load transporting apparatus, a first location to receive a pre-determined input, a second location to receive the movement measurement(s), and a processing circuit to compare the movement measurement(s) to the pre-determined input. In a non-limiting embodiment, a pre-loading system may prepare the load transporting apparatus for movement prior to moving or lifting a load by depressing at least one component of the load transporting apparatus.

A tie down apparatus that may be utilized for securing an item, such as a safety chain, wherein the tie down apparatus may be used with a hitch mounting system. In one embodiment, the tie down apparatus may include a receiving member, a tie down member, and a clocking member. The receiving member may include an opening located there through. The tie down member may include at least one aperture, wherein the tie down member may be capable of being located and rotated within the receiving member. The tie down member may be rotated either clockwise or counterclockwise. The locking member may include at least one leg capable of being housed within the aperture. The locking member may engage the receiving member once the tie down member is rotated, thereby trapping the item within the tie down apparatus.

A stabilizer frame apparatus may be configured for engaging a load transporting apparatus for purposes of moving a load. The stabilizer frame apparatus may have or include a first stabilizer bar and a second stabilizer bar where the stabilizer frame apparatus is configured to operatively integrate into a load structure. The first stabilizer bar may have a first end and a second end, and the second stabilizer bar may have a first end and a second end. The first end of the first stabilizer bar may be operatively coupled to the first end of the second stabilizer bar. Similarly, the second end of the first stabilizer bar may be operatively coupled to the second end of the second stabilizer bar. In a non-limiting embodiment, the load transporting apparatus may maintain a substantially parallel configuration between the sidewalls of the load structure during movement.

A tie down apparatus that may be utilized for securing an item, such as a safety chain, wherein the tie down apparatus may be used with a hitch mounting system. In one embodiment, the tie down apparatus may include a receiving member, a tie down member, and a clocking member. The receiving member may include an opening located there through. The tie down member may include at least one aperture, wherein the tie down member may be capable of being located and rotated within the receiving member. The tie down member may be rotated either clockwise or counterclockwise. The locking member may include at least one leg capable of being housed within the aperture. The locking member may engage the receiving member once the tie down member is rotated, thereby trapping the item within the tie down apparatus.

An underbed hitch mounting system is described. The mounting system may be utilized for towing vehicles wherein the mounting system may selectively accommodate either a fifth wheel hitch or a gooseneck hitch. The mounting system may include at least one rail capable of being connected to a vehicle frame, wherein the rail includes at least one socket. The socket may be engaged with a receiving member, wherein the receiving member may be engaged with a leg of a fifth wheel hitch. A mid rail may be connected to the rails and may include a hitch ball socket that is capable of engagement with a hitch.

A stabilizer frame apparatus may be configured for engaging a load transporting apparatus for purposes of moving a load. The stabilizer frame apparatus may have or include a first stabilizer bar and a second stabilizer bar where the stabilizer frame apparatus is configured to operatively integrate into a load structure. The first stabilizer bar may have a first end and a second end, and the second stabilizer bar may have a first end and a second end. The first end of the first stabilizer bar may be operatively coupled to the first end of the second stabilizer bar. Similarly, the second end of the first stabilizer bar may be operatively coupled to the second end of the second stabilizer bar. In a non-limiting embodiment, the load transporting apparatus may maintain a substantially parallel configuration between the sidewalls of the load structure during movement.

A tie down apparatus that may be utilized for securing an item, such as a safety chain, wherein the tie down apparatus may be used with a hitch mounting system. In one embodiment, the tie down apparatus may include a receiving member, a tie down member, and a clocking member. The receiving member may include an opening located there through. The tie down member may include at least one aperture, wherein the tie down member may be capable of being located and rotated within the receiving member. The tie down member may be rotated either clockwise or counterclockwise. The locking member may include at least one leg capable of being housed within the aperture. The locking member may engage the receiving member once the tie down member is rotated, thereby trapping the item within the tie down apparatus.

An articulated tracked vehicle that has a main section, which includes a main frame, and a forward section. The main frame has two sides and a front end, and includes a pair of parallel main tracks. Each main track includes a flexible continuous belt coupled to a corresponding side of the main frame. The forward section includes an elongated arm. One end of the arm is pivotally coupled to the main frame near the forward end of the main frame about a transverse axis that is generally perpendicular to the sides of the main frame. The arm has a length sufficiently long to allow the forward section to extend below the main section in at least some degrees of rotation of the arm, and a length shorter than the length of the main section. The center of mass of the main section is located forward of the rearmost point reached by the end of the arm in its pivoting about the transverse axis. The main section is contained within the volume defined by the main tracks and is symmetrical about a horizontal plane, thereby allowing inverted operation of the robot.