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.

This ball join includes a ball stud with a spherical ball section and a shaft-shaped shaft section and a holder that rotatably bolds the ball section, and has a machining surface subjected to cutting in a welded portion obtained by welding the ball section and the shaft section, and the machining surface has a curve-shaped first corner section. In addition, a method for manufacturing this ball joint includes a welding step of welding the ball section and the shaft section and a cutting step of forming the machining surface by subjecting the welded portion obtained by welding the ball section and the shaft section to cutting, and the cutting step executes processing including forming the curve-shaped first corner section on the machining surface. Consequently, a ball joint with a large oscillation angle can be obtained.

A system, method and/or reamer driver device provides a fully closed tube which prevents the invasion of debris and minimizes abrasion of soft tissue during use. The reamer device includes a minimum number of component assemblies, so as to permit easy replacement and minimize wear.

A torque transmitting ball joint can include a spherical ball, a stem extending from the spherical ball, one or more pins coupled to the spherical ball, and a socket. The socket can define an opening sized to contain the spherical ball within the socket and one or more slots sized to accommodate a pin of the one or more pins. The one or more pins can be contained by the one or more slots and can translate within the slot as the spherical ball rotates relative to the socket about a pivot center. At least one of the one or more pins can abut a sidewall of its slot and transmit torque from the stem to the socket via the spherical ball when the stem and spherical ball rotates relative to the socket.

A camera mount is configured to attach a camera to a mount base which, in turn, may be secured to sport equipment, musical instruments, vehicles, and the like. The camera mount includes a ball component that couples to a camera or camera housing and that allows a user to rotate a camera within a horizontal plane, and to pivot a camera in one or more vertical planes. The ball component is securely coupled within a sleeve component with a bucket or other coupling mechanism that allows the sleeve component (and thereby the ball component and coupled camera or camera housing) to couple to the mount base.

A bearing includes a split outer race having a first outer race member and a second outer race member that form an annular ring. The bearing includes an activation member that is rotatable from a first position to a second position and is at least partially disposed in the annular ring. A locking feature is defined by the first outer race member, the second outer race member and the activation member. The locking feature has an unlocked position and a locked position. The unlocked position corresponds to the first position of the activation member and the locked position corresponds to the second position of the activation member.

A spherical plain bearing comprising an inner ring provided with a spherical outer surface and with lateral surfaces, an outer ring provided with a corresponding spherical inner surface mounted on the outer surface, and a sleeve mounted into a bore of the inner ring. The inner ring comprises at least three part rings which are mounted in contact in the circumferential direction one relative to another. At least one protrusion is provided on an outer surface of the sleeve and extends into a groove formed on the bore of the inner ring. The sleeve leaves the lateral surfaces free of the inner ring.

An arrangement for supporting a monitoring camera is provided. The arrangement comprising: an arm (102), a ball (104) associated with a free end (106) of the arm (102) and comprising a first (108) and a second (110) ball segment, a body (112) having an ball socket (114) accommodating the ball (104), an arm opening (116) arranged in the ball socket (114) and an abutment opening (118), wherein the arm (102) extends from the ball socket (114) through the arm opening (116), and wherein the first (108) and second (110) ball segments are connectible to the free end (106) of the arm (102) by insertion of the free end (106) of the arm (102) into the ball socket (114) through the arm opening (116) and insertion of the first (108) and second (110) ball segments into the ball socket (114) through the abutment opening (118). A method (400) for assembling the arrangement (100) for supporting a monitoring camera is further provided.

A camera mount is configured to attach a camera to a mount base which, in turn, may be secured to sport equipment, musical instruments, vehicles, and the like. The camera mount includes a ball component that couples to a camera or camera housing and that allows a user to rotate a camera within a horizontal plane, and to pivot a camera in one or more vertical planes. The ball component is securely coupled within a sleeve component with a bucket or other coupling mechanism that allows the sleeve component (and thereby the ball component and coupled camera or camera housing) to couple to the mount base.

The ball joint includes: a ball stud including: a shaft member; and a ball portion formed at one end of the shaft member; and a holder made of a synthetic resin and configured to accommodate the ball portion in a pivotable manner. The holder includes: an opening portion from which the shaft member protrudes; a first member including a first ball sliding contact surface having a concave spherical shape approximate to a spherical surface of the ball portion; and a second member including: a second ball sliding contact surface having a concave spherical shape approximate to the spherical surface of the ball portion; and the opening portion formed in a center of the second ball sliding contact surface. Further, the first member and the second member respectively include joining surfaces fixed to each other by welding, and respectively include fixation reference surfaces that are brought into abutment against each other.