A mobile device mounting system includes a device case and a mount. The device case includes: an insert including a rectangular bore and defining a set of undercut sections about the rectangular bore; and a first set of magnetic elements arranged in a first pattern about the rectangular bore. The mount includes: a body; a polygonal boss extending from the body and configured to insert into the rectangular bore; a set of locking jaws arranged on the polygonal boss configured to transiently mate with the set of undercut sections to constrain the polygonal boss within the rectangular bore; and a second set of magnetic elements arranged in a second pattern about the polygonal boss and configured to transiently couple to the first set of magnetic elements to transiently retain the mount against the device case and to drive the set of locking jaws toward the set of undercut sections.

An entertainment bracket for a seat of a motor vehicle includes a mount disposed on the seat, the mount having a headrest bracket and a screen support. The headrest bracket extends from a substantially planar headrest attachment portion rearwards to the screen support, the screen support connected at an angle to the headrest attachment portion and including a first portion of a swivel ball joint. A human machine interface (HMI) bracket supports an HMI and includes a second portion of the swivel ball joint connected to the first portion of the swivel ball joint, the first portion and the second portion of the swivel ball joint allowing the HMI bracket to articulate through a range of motion relative to the headrest bracket. A covering component is disposed overtop the headrest attachment portion and forms a substantially smooth, continuous exterior surface of the entertainment bracket.

A cell phone stand has a base and a cell phone mounting bracket rotatably affixed to the base around a horizontal axis. The mounting bracket has a first jaw and a second jaw that is movable in a horizontal direction with respect to the first jaw. The first jaw has a first u-shaped channel with a first upper segment and a first lower segment. The second jaw has a second u-shaped channel with a second upper segment and a second lower segment. By adjusting the position of the jaws, the user may adjust a width between the first and upper segments, thus sizing the mounting bracket to receive a cell phone of a particular width. Even at the smallest such width, inner ends of the first and second lower segments of the u-shaped channels remain spaced from each other so as to permit the cell phone to be connected to an electrical cable while being held by the stand.

The present application relates to the technical field of holder, and discloses a vehicle holder. An inductive signal is generated when the wireless charging module and the device to be wirelessly charged match with each other successfully, the first control module generates a motor control signal according to the inductive signal; the motor drive module generates a motor drive signal according to the motor control signal to cause the fixing clamp to clamp tightly. Since an auto-induction fitting and clamping is achieved when the device to be wirelessly charged is matched, a defect that it is impossible to directly detect the approaching and the matching of the device to be wirelessly charged to implement the auto-induction fitting and clamping can be overcome, and the convenience of the vehicle holder is improved.

A ladder rack system for accommodating at least two stacked ladders thereon is disclosed. The system may have a stationary forward roof rail and a stationary rear roof rail. Pivotable ladder rack rear and pivotable ladder rack forward rails may also be provided. The ladder rack rear and forward rails may be selectively moved with respect to the stationary forward and rear roof rails via links that are connected to a connector bar and lever arm.

A mount for a mobile device is configured to include a base assembly configured to be inserted into the cup holder. The base assembly is configured to adjust its size to be complementary to cup holders of any of various sizes. For example, the base assembly may include multiple curved sections, each curved section including an exterior surface forming a periphery of the base assembly, and the base assembly is arranged such that the curved sections move away from each other when a knob is rotated in a first direction, and move towards each other when the knob is rotated in a second direction, thereby adjusting the diameter of the periphery of the base assembly.

The invention concerns a locking mechanism provided and adapted to interact with at least one locking element to establish a locking between the locking mechanism and the locking element, wherein the locking mechanism comprises a first locking pawl and a second locking pawl which are rotatable independently of each other about a first rotary axis, wherein the first locking pawl is provided and adapted to interact with a first locking element and wherein the second locking pawl is provided and adapted to interact with a second locking element, wherein a secured locking is present when the first locking element is locked to the first locking pawl and the second locking element is locked to the second locking pawl.

The invention relates to a holder (100) for a mobile device (200). Due to the wide variation of devices, conventional mounting devices that seek to hold many different devices have become complex and expensive. By providing rotatable edge clamps (110, 115) along with one or more serpentine extension resistances (120), a region of nonlinear resistance is provided to separate the first edge clamp (110) and the second edge clamp (115). This has the advantage of a lower rate of increase in separation resistance at greater separation distances compared to using a linear element, such as a coil spring.

A glazing for a vehicle includes a glass pane and a plate for reversibly attaching an optoelectronic accessory, the plate includes, in the lower part, a lower inner catch receiving a lower projecting cylindrical part linked to the accessory, and, in the upper part, an upper inner catch receiving an upper projecting cylindrical part linked to the accessory, the inner catches being oriented in the same direction and oriented toward the top of the plate and the plate further including a bracket extending inwardly substantially at a right angle from the inner face of the plate and pressing, in a direction substantially parallel to the inner face of the plate, and downwardly, one of the projecting cylindrical parts against the adjacent inner catch.

The present invention provides a mobile mounting system for releasably supporting an elongated vessel on a vehicle support member, the mobile mounting system comprising a handgrip extending from a curved end to an angled end, a mount in receipt of the handgrip and a hinge operably extending between the handgrip and the mount, the hinge configured for pivotal operation of the handgrip about a pivot axis extending through the curved end and a release mechanism operably connect to the angled end.