In one aspect, there is provided a rotary blade movement system including a retaining member configured to receive a rotor blade, a graspable arm, and a coupling mechanism operable to removably couple the retaining member to the graspable arm. The rotor blade movement system is configured to enable a user to adjust the position of the rotor blade by moving the graspable arm. The coupling mechanism can be a ball and socket joint. In one aspect, there is a method of rotating a rotor blade using a rotary blade movement system.

A steering system includes an arm, a knuckle, a joint, and a steering sensor. The arm defines a first passage. The knuckle has a knuckle arm defining a second passage. The joint has a ball portion and a shaft portion extending. The ball portion is disposed within the first passage and the shaft portion is disposed within the second passage. The ball portion defines a conical recess that has an opening at an upper end of the ball portion and terminates inside the ball portion with a pocket. The steering sensor has a driveshaft extending along a longitudinal axis into the conical recess. The driveshaft includes a head that engages with the pocket. The ball portion is configured to pivot within the first passage relative to the longitudinal axis and the head. The joint and the driveshaft are configured to rotate together about the longitudinal axis as the knuckle is turned.

A ball joint assembly for control arm. The ball joint assembly has an upper portion with a ball socket and stud centered about a first centerline. A radial extension that is connected to the upper portion supports a mounting body with a second centerline and an outer diameter that fits within an aperture in the control arm. A threaded shaft depends from the mounting body and receives a nut to tighten against the control arm until the first centerline of the ball joint assembly is fixed in a desired position.

A ball joint assembly for control arm. The ball joint assembly has an upper portion with a ball socket and stud centered about a first centerline. A radial extension that is connected to the upper portion supports a mounting body with a second centerline and an outer diameter that fits within an aperture in the control arm. A threaded shaft depends from the mounting body and receives a nut to tighten against the control arm until the first centerline of the ball joint assembly is fixed in a desired position.

The present invention relates to a ball joint housing which pivotably supports a ball head of a ball stud received in an inner space thereof and in which a dust cover is installed to prevent foreign substances from entering into the inner space, includes: a receiving limit providing portion for providing a limit in receiving the ball head in the inner space; a contact portion integrally formed with the receiving limit providing portion, wherein the dust cover is brought into contact with the contact portion; and a deformation portion integrally formed with the contact portion; wherein a process in which the deformation portion is deformed inwardly proceeds when the ball head is received in the inner space, wherein the ball head received in the inner space is prevented from being separated by the process.

A ball joint assembly for control arm. The ball joint assembly has an upper portion with a ball socket and stud centered about a first centerline. A radial extension that is connected to the upper portion supports a mounting body with a second centerline and an outer diameter that fits within an aperture in the control arm. A threaded shaft depends from the mounting body and receives a nut to tighten against the control arm until the first centerline of the ball joint assembly is fixed in a desired position.

A connecting joint assembly, wherein the connecting joint assembly has a ball pin with a ball head and a ball socket unit, wherein the ball socket unit has a ball socket with a radially inner cavity for receiving the ball head and with a plurality of feedthroughs leading from the outside into the cavity, wherein a securing clip has a bracket section and locking tongues which are connected thereto and, in the mounted state, extend from the bracket section through a respectively assigned one of the feedthroughs into the cavity, wherein the locking tongues engage behind the ball head in the mounted state on its side facing the pin shaft, wherein the securing clip is displaceable from a securing position, in which the securing clip holds the ball head in the ball socket, into a removal position, in which the ball pin is releasable from the ball socket unit.

The present invention provides embodiments of modified upper and lower control arms for attachment to the steering knuckle that came with the vehicle, or for attachment to a modified steering knuckle of an embodiment of the invention, such that the steering knuckle, and in particular the wheel hub opening of the steering knuckle, are located at positions that are closer to the front of the vehicle than the positions provided by the control arms that came with the vehicle. The forward position of the wheel hub relative to the position provided by the factory or stock control arms moves the wheel and tire forward by the same distance, thereby allowing much larger wheels and tires to be mounted on the vehicle which do not rub against or interfere with the wheel well, fender or body mount, thereby increasing the approach angle of the vehicle for use in off-road climbing.

A coupling device, including: an inner shaft; a claw assembly pivotably coupled to the inner shaft; and an outer cap movably coupled to the inner shaft. The outer cap is movable between a proximal position and a distal position. When the outer cap is in the proximal position, the claw assembly is in a first state, and when the outer cap is in the distal position, the claw assembly is in a second state. When the claw assembly is in the first state, the claw assembly is configured to receive a first material within the claw assembly to couple the first material to the coupling device, and when the claw assembly is in the second state, the claw assembly and a distal surface of the outer cap are configured to receive a second material therebetween to couple the second material to the coupling device.