A device with a mounting band implement, wherein said mounting band implement is configured to support an upright structure on a vertical support. A tensioning device adjusts the tension of the mounting band implement. A vertical support bracket engages a portion of the mounting band implement, a fixed or adjustable rib section and angled support segment. A rib mounted angled support bracket engages angled support segment at the rib. An angled support segment is configured to maintain an angle for said rib section relative to the upright structure, in which the angled support segment includes a fixed or adjustable length segment that is operable for raising or lowering an angle of the rib section.

An umbrella assembly is provided that includes a frame, a canopy, an extension and a base. The frame includes a post and top piece, a number of arms, a number of connectors, a lift ring and a locking pin. The post includes a number of rod members attached together in adjacent parallel space orientation with a top piece which rotatably attaches to each of a number of arms each arm having a number of arm rod members attached together in adjacent parallel space orientation. Each arm is rotatably attached to one end of a connector. The other end of each connector is rotatably attached to the lift ring. Raising and lowering the lift ring opens and closes the umbrella arms. The locking pin holds the lift ring in an upper position.

An umbrella dolly for use with a cantilever umbrella includes a platform assembly and a retention assembly constructed to extend between the platform assembly and the umbrella. The retention assembly provides additional support and ensures that the umbrella and platform assembly are securely connected to enhance stability of the umbrella as it sits upon the umbrella dolly.

The present technology generally relates to a solar radiation mitigation system mountable to a furniture element. The solar radiation mitigation system has a panel assembly. The panel assembly has a first panel capable of blocking a first radiation amount, and a second panel in operational relation with the first panel. The second panel blocks a second radiation amount. The panel assembly blocks a combined radiation amount greater than the first and second radiation amounts when the first and second panels are in operational relation. The solar radiation mitigation system comprises at least one adjustable arm comprising a distal arm connector connected to the first panel, a proximal arm connector being detachably attachable to the furniture element for mounting the system to the furniture element, and an elongated member extending from the proximal arm connector to the distal arm connector. The elongated member is adjustable to position and orient the first panel with respect to the furniture element.

A robotic umbrella, comprising a base assembly, a support assembly coupled to the base assembly, one or more shading assemblies coupled to the support assembly, one or more processors and one or more memory devices. The robotic umbrella comprises computer-readable instructions stored in the one or more memory devices, accessed from the one or more memory devices which are executed by the one or more processors to: a) determine a geographical location of the robotic umbrella utilizing at least one of a wireless communication transceiver or a global positioning system (GPS) transceiver, or a combination thereof; and b) determine an orientation of a light source with respect to the robotic umbrella utilizing at least one of a compass, an accelerometer, a magnetometer or a gyroscope, or combination thereof. The robotic umbrella further comprises one or more distance sensors to calculate a distance from the robotic umbrella to the object.

An umbrella assembly is provided that includes a frame, a canopy, an extension and a base. The frame includes a post and top piece, a number of arms, a number of connectors, a lift ring and a locking pin. The post includes a number of rod members attached together in adjacent parallel space orientation with a top piece which rotatably attaches to each of a number of arms each arm having a number of arm rod members attached together in adjacent parallel space orientation. Each arm is rotatably attached to one end of a connector. The other end of each connector is rotatably attached to the lift ring. Raising and lowering the lift ring opens and closes the umbrella arms. The locking pin holds the lift ring in an upper position.

A vehicle attached shielding assembly for protecting a user from the elements includes a base that is configured to couple to a vehicle proximate to a door of the vehicle. An umbrella is coupled to the base. The umbrella is selectively configurable in a stowed configuration, wherein the umbrella is positioned such that the vehicle is drivable. The umbrella also is selectively configurable in an extended configuration, wherein the umbrella is configured to shield a user who is positioned under the umbrella from elements, such as sunshine and rain. In the extended configuration, the umbrella also is configured to prevent the elements from entering the vehicle when the door and a window that is coupled to the door are opened.

The present invention relates to a portable shelter assembly. The assembly includes a support; and an expandable shelter for being supported by the support and expanding to shelter at least one person. The shelter includes ribs extending from the support. Each rib includes a proximal element pivotally mounted to the support. Each rib further includes a distal element extending from the proximal element and configured to move outwardly to expand the shelter when the proximal element pivots in a first direction. The ribs can be extended independently, one at a time.

An opening and closing structure for an umbrella combining automatic and non-automatic modes including an electric mechanism, a cranking mechanism and a clutch structure is described herein. The electric mechanism includes a screw rod, a motor and a first transmission element. The motor is configured to drive rotation of the screw rod, and the first transmission element is mounted at the screw rod. The cranking mechanism includes a second transmission element and a cranking handle. The second transmission element is engaged with the first transmission element, and the second transmission element is connected with the cranking handle via the clutch structure. The invention overturns a conventional method of using an electric umbrella, and provides a manual lifting-and-lowering function under the premise of maintaining a electric lifting-and-lowering function, that is, in case of insufficient or no power supply, the umbrella can be opened and closed through the cranking handle.

An easily controllable umbrella includes a base, a column, an umbrella frame, lighting elements, a control device for controlling the lighting elements, a power supply assembly with a power plug for powering the lighting elements, a control panel, a touch control circuit board, and a remote control circuit board; the lighting elements, the control panel, the touch control circuit board, the remote control circuit board and the power plug form a lighting circuit, and the remote control circuit board controls the touch control circuit board. The control device includes a touch control circuit board and a remote control circuit board, remote control of the umbrella being realized through a remote control signal-matched with a receiver on the remote control circuit board, touch control of the umbrella being realized by pressing the umbrella. That is, the umbrella can support both remote control and touch control.