The ball socket assembly includes a housing with an inner bore, and a bearing is received in the inner bore. The bearing is made as a monolithic piece of a plastic material and has a curved bearing surface which surrounds a ball cavity. The ball socket assembly also includes a ball stud with a ball portion and a shank portion. The ball portion is received in the ball cavity of the bearing and has an equator. The curved bearing surface of the bearing is in slidable contact with the ball portion on opposite axial sides of the equator. The plastic material of the bearing comprises 8-12 mass percent polytetrafluoroethylene, 2-6 mass percent carbon fibers, and the remainder acetal.

A pivot assembly for a control lever. The pivot assembly include a primary pivot bearing arranged about a longitudinal axis (A) and a redundant pivot bearing arranged about the longitudinal axis (A). The redundant pivot bearing is configured to become operative as a bearing in the event that the primary pivot bearing malfunctions, and to produce haptic feedback in the control lever throughout operation of the redundant pivot bearing.

A pivot assembly for a control lever. The pivot assembly include a primary pivot bearing arranged about a longitudinal axis (A) and a redundant pivot bearing arranged about the longitudinal axis (A). The redundant pivot bearing is configured to become operative as a bearing in the event that the primary pivot bearing malfunctions, and to produce haptic feedback in the control lever throughout operation of the redundant pivot bearing.

A pivot for a mounting device is disclosed. The pivot includes a first bracket having a base member configured to mount a structural member and a plurality of elongated members. Further, the pivot includes one or more second brackets. The one or more second brackets having a first member and a second member. The first member having an orifice and is configured to be fitted around the plurality of elongated members of the first bracket. The second member is coupled to the first member and has a second bracket through-hole. The pivot further includes a covering member configured to be fitted on the plurality of elongated members. The covering member includes a first part having a groove and a second part that is configured to be fitted inside the plurality of elongated members. The second part is fastened along the plurality of elongated members.

A pivot for a mounting device is disclosed. The pivot includes a first bracket having a base member configured to mount a structural member and a plurality of elongated members. Further, the pivot includes one or more second brackets. The one or more second brackets having a first member and a second member. The first member having an orifice and is configured to be fitted around the plurality of elongated members of the first bracket. The second member is coupled to the first member and has a second bracket through-hole. The pivot further includes a covering member configured to be fitted on the plurality of elongated members. The covering member includes a first part having a groove and a second part that is configured to be fitted inside the plurality of elongated members. The second part is fastened along the plurality of elongated members.

A ball socket assembly, bearing therefor, and method of construction thereof are provided. The ball socket assembly includes a housing with an inner bore extending between a closed first end region and an open second end region. A fiber-reinforced bearing is disposed in the inner bore. The bearing has a lower portion presenting a lower bearing surface having a first radius of curvature and an upper portion presenting an upper bearing surface having a second radius of curvature that is greater than the first radius of curvature. The lower bearing surface and the upper bearing surface surround a ball cavity in which a spherical ball portion of a ball stud is disposed. The housing second end region is plastically deformed radially inwardly to impart a bias on the bearing upper portion to fix the bearing and the ball portion in the housing. The bias causes the second radius of curvature to be biased substantially equal to the first radius of curvature.

A ball socket assembly, bearing therefor, and method of construction thereof are provided. The ball socket assembly includes a housing with an inner bore extending between a closed first end region and an open second end region. A fiber-reinforced bearing is disposed in the inner bore. The bearing has a lower portion presenting a lower bearing surface having a first radius of curvature and an upper portion presenting an upper bearing surface having a second radius of curvature that is greater than the first radius of curvature. The lower bearing surface and the upper bearing surface surround a ball cavity in which a spherical ball portion of a ball stud is disposed. The housing second end region is plastically deformed radially inwardly to impart a bias on the bearing upper portion to fix the bearing and the ball portion in the housing. The bias causes the second radius of curvature to be biased substantially equal to the first radius of curvature.

The invention relates to an indirect rear view system for a motor vehicle, having a bearing element for fastening at least one reflection element, wherein the bearing element forms a coupling region for variable-position attachment to a vehicle-attachable adjustment element, wherein the coupling region for contacting a spherical connection region of the adjustment element has a first contact area and a second contact area axially offset with respect thereto wherein an imaginary separation surface extends through the region of transition of a main body of the bearing element into the coupling region of the bearing element, wherein the first contact area is arranged on one side of the imaginary separation surface and the second contact area is arranged on the opposite other side of the imaginary separation surface. The invention also relates to an assembly method for coupling a bearing element of the indirect rear view system according to the invention to the adjustment element, wherein the bearing element is moved from the direction of the reflection element towards the adjustment element.

The invention relates to an indirect rear view system for a motor vehicle, having a bearing element for fastening at least one reflection element, wherein the bearing element forms a coupling region for variable-position attachment to a vehicle-attachable adjustment element, wherein the coupling region for contacting a spherical connection region of the adjustment element has a first contact area and a second contact area axially offset with respect thereto wherein an imaginary separation surface extends through the region of transition of a main body of the bearing element into the coupling region of the bearing element, wherein the first contact area is arranged on one side of the imaginary separation surface and the second contact area is arranged on the opposite other side of the imaginary separation surface. The invention also relates to an assembly method for coupling a bearing element of the indirect rear view system according to the invention to the adjustment element, wherein the bearing element is moved from the direction of the reflection element towards the adjustment element.

A ball socket assembly, bearing therefor, and method of construction thereof are provided. The ball socket assembly includes a housing with an inner bore extending between a closed first end region and an open second end region. A fiber-reinforced bearing is disposed in the inner bore. The bearing has a lower portion presenting a lower bearing surface having a first radius of curvature and an upper portion presenting an upper bearing surface having a second radius of curvature that is greater than the first radius of curvature. The lower bearing surface and the upper bearing surface surround a ball cavity in which a spherical ball portion of a ball stud is disposed. The housing second end region is plastically deformed radially inwardly to impart a bias on the bearing upper portion that causes the second radius of curvature to be biased substantially equal to the first radius of curvature.