A fixture that is configured to hold a mobile device for calibrating an electronic display screen includes an adjustable arm, a controller including a processor, one or more motors, one or more suction cups configured to attach the fixture to the electronic display screen, one or more brackets, attached to the arm, to hold the mobile device such that the camera of the mobile device points towards the electronic display screen. The processor of the controller is configured to receive one or more signals from the mobile device to move the adjustable arm to point the camera of the mobile device towards a point on the electronic display screen, and in response to receiving the signals from the mobile device, send one or more signals to the motors to move the adjustable arm to point the camera of the mobile device towards the point on the electronic display screen.

A mounting system capable of mounting objects to support structures is disclosed. The mounting system includes a wall mount including a display bracket configured to hold the object, a fixed support bracket couplable to a vertical support structure, and a linkage assembly. The linkage assembly has a low-profile stowed configuration in which the object is held in a raised position close to the support structure. The linkage assembly moves to another configuration to move the object. The object can be held in a lowered position. A pinion adjustment mechanism can be used to control a biasing mechanism for facilitate convenient movement of the object.

A mobile platform (100) for the aerial delivery of a load by drones comprising a landing plane (110) arranged to define a vertical axis y, at least one position sensor adapted measure a spatial orientation O of the vertical axis y with respect to a predetermined reference system S, a local control unit connected to said or each position sensor, a electric accumulator arranged to provide electric energy to said or each position sensor and to the local control unit. Furthermore, the local control unit is arranged to acquire the spatial orientation O of the vertical axis y, compare the spatial orientation O of the vertical axis y with a predetermined spatial orientation O′, generate a status of correct positioning when between the spatial orientation O and the predetermined spatial orientation O′ there is an angular deviation a lower than a predetermined value α.sub.max.

A rotating assembly includes a first handle; the first handle includes a connecting part. The connecting part has first and second extensions and the connecting part is rotatably connected to a box holding one or more devices. The first and second extensions are arranged on opposite sides of the connecting part, the first extension can rotate with the connecting part until it rests on a base, on which base the box is rotatably arranged. The first extension and the second extension extend to both sides of the connecting part to lessen the force required for driving the box to rotate.

An accessory mounting apparatus and system are provided. The system includes a structural framing, an accessory mounting apparatus, and an accessory. The accessory mounting apparatus includes a first component, a second component, and a connector arm. The first component includes a first base, a first rail connector that extends from the first base, and one or more first connectors. The second component includes a second base and a second rail connector that extends from the second base. The connector arm includes a second connector and a mounting arm, and the second connector is coupled to the one or more first connectors. Further, the first rail connector and the second rail connector are configured to engage a first rail slot and a second rail slot of the structural framing, accordingly. Additionally, the accessory is coupled to the mounting arm.

The quick release interconnect includes a mount member that includes a cleat and a top hanger seat. An attachment member includes a lower jaw that is spring-biased into an open condition that can be secured closed by a cam-lock lever. An upper jaw hanger is also provided to permit the attachment member to be hung on the top hanger seat while the attachment member and object are oriented in place. The upper jaw hanger member is located over the top hanger seat and then the attachment member is rotated in place so the lower jaw is aligned with the cleat. The cam lock lever is rotated to clamp the lower jaw into communication with the cleat portion of the mount member to secure the attachment member securely to the mount member. To release the attachment member, the process is reversed.

In an example, the solar tracker has a clamp assembly that is configured to pivot a torque tube. In an example, the assembly has a support structure configured as a frame having configured by a first anchoring region and a second anchoring region. In an example, the support structure is configured from a thickness of metal material. In an example, the support structure is configured in an upright manner, and has a major plane region. In an example, the assembly has a pivot device configured on the support structure and a torque tube suspending on the pivot device and aligned within an opening of the support and configured to be normal to the plane region. In an example, the torque tube is configured on the pivot device to move about an arc in a first direction or in a second direction such that the first direction is in a direction opposite to the second direction.

This disclosure discloses various brackets with various mounting interfaces for engaging (e.g., mechanically) with various surfaces that are correspondingly configured. For example, one of such brackets can clamp onto a bar (e.g., a handlebar of a vehicle) and then an electronic device (e.g., a smartphone, a tablet, a dedicated navigational unit) can removably secure (e.g., mate) to that bracket. This form of removable securing can be via that bracket having a latch configured to engage a detent of the electronic device (or vice versa) in order to linearly mount the electronic device onto the bracket (or vice versa) and disengage the detent in order rotationally unmount the electronic device from the bracket (or vice versa).

The systems and methods disclosed are directed towards a retractable and adjustable display arm for a data center cabinet that allows a user to access internal components of the data center cabinet without completely detaching a display from the data center cabinet. The retractable and adjustable display arm has an attachment base to pivotally couple the retractable and adjustable display arm to the data center cabinet, and also has a mounting portion for mounting a display, such as a computer display monitor, tablet, or the like, to the retractable and adjustable display arm. The attachment base achieves the pivotal coupling between the retractable and adjustable display arm to the data center cabinet using one or more hinges. Further, the mounting portion has one or more adjustable supports, allowing displays of varying sizes to be mounted in various locations on the mounting portion.

A display fixing apparatus, which enables a worker to fix a display to a wall at a position in front of the display, is provided.