A method of manufacturing and using a five-device-in-one water-collecting-and-decelerating fruit-and-nut-collecting-and-decelerating wind-diffusing-and-redirecting multi-function-transversable-ridge-and-seam multi-function-twist-locking-base carapace, which has at least one first three-hundred-and-sixty-degree-orientational-carapace panel, at least one second three-hundred-and-sixty-degree-orientational-carapace panel, a water-ejecting fruit-and-nut-discharging wind-diffusing crown-carapace nozzle, at least one breadth-wise carapace-panel-connecting seam, at least one mid-panel water-directing water-decelerating fruit-and-nut-decelerating wind-diffusing ridge seam, a upper hub, rib-hinging intersectors, arched carapace-supporting ribs, a three-hundred-sixty-degree-rotatably-locking center-support stanchion, an adjustable stanchion-supporting twist-locking base, a shuttle hub, and actuating-and-supporting ribs, comprises the steps of: sewing said at least one first three-hundred-and-sixty-degree-orientational-carapace panel and said at least one second three-hundred-and-sixty-degree-orientational-carapace panel together such that said at least one breadth-wise carapace-panels-connecting seam and said at least one mid-panel water-directing water-decelerating fruit-and-nut-decelerating wind-diffusing ridge seams are formed between said at least one first three-hundred-and-sixty-degree-orientational-carapace panel and said at least one second three-hundred-and-sixty-degree-orientational-carapace panel for converging rain water therein-to repeatedly change the direction of rain water to decelerate the flowing speed of rain water to reduce water splash to avoid damaging irrigated vegetables, for converging harvested fruits therein to repeatedly change the direction of harvested fruits to decelerate the rolling speed of harvested fruits to reduce fruit bruises to avoid throwing away bruised fruits, for converging harvested nuts therein to repeatedly change the direction of harvested nuts to decelerate the rolling speed of harvested nuts to reduce nut bruises to avoid throwing away bruised nuts, for converging catched balls therein to repeatedly change the direction of catched balls to decelerate the rolling speed of catched balls to reduce ball damages to avoid throwing away damaged balls, for directing rain water therealong, for directing harvested fruits therealong, for directing harvested nuts therealong, for directing game balls therealong, for forming a collecting cistern to collect rain water to irrigate garden, for forming a diverting gutter to collect rain water to discharge said rain water away from house balcony and foundation, for forming a collecting

The present application discloses a smart vehicle sunshade with storage function, which includes a box body, an umbrella body, a drive mechanism, a wind speed sensor and a controller. The box body includes an umbrella body compartment, a trunk and a sealed compartment. An umbrella body compartment door is arranged on an upper side of the umbrella body compartment. The umbrella body includes an umbrella handle, an umbrella opening mechanism, a folding rib and an umbrella surface arranged outside the folding rib. The drive mechanism includes a connecting spindle, an umbrella rotating mechanism, an umbrella rotating drive mechanism and a swing mechanism. The present application can not only detect the wind speed in real time, automatically close the umbrella body when the wind speed is too high, and can automatically restart by a preset time, which effectively improves the service life of the umbrella body.

Umbrella devices, assemblies, and systems are shown and described. In one embodiment an umbrella assembly includes an umbrella having an aperture along a distal portion of a canopy, and a flagstaff to removably mate within the umbrella.

An improved movable decorative base assembly is provided that includes a receptacle having a bottom, at least one upstanding side wall forming a hollow interior and an open top. The base assembly includes a wheeled, base carriage on which the receptacle may be placed. The decorative base assembly further includes a pole receiver, which is carried by the base carriage and has a receiving hole for attaching a tube or other elongated body carrying a parasol canopy. The receiving hole of the pole receiver aligns with a through hole in the bottom of the receptacle, allowing the elongated body to extend through the receptacle and attach to the pole receiver, the assembly forming a unitary body which can be rolled on a floor or surface. The decorative base assembly allows safe, comfortable, and stable maneuvering, while alleviating physical strains otherwise felt by those utilizing alternative assemblies.

A portable shade assembly for use in providing shade and sun protection, and thus substantially cooler temperatures, to an outdoor environment. More particularly, a shade assembly for use in providing sun and Ultraviolet (UV) protection for a variety of different industrial uses and for use in being transported to a variety of different locations. More particularly still, a portable shade assembly comprising a spring-loaded frame, a shade screen, and a continuous cable, wherein said cable is run throughout said frame, thereby being able to extend and retract said shade screen, as needed.

A modular umbrella system, comprises one or more shading elements and a support assembly, coupled to the one or more shading elements, to provide support for the one or more shading elements. The modular umbrella system further comprises a base assembly, coupled to the support assembly, to provide contact with a surface. The base assembly comprises one or more microphones to capture audio commands, one or more processors, one or more memory modules and one or more communication transceivers. Computer-readable instructions stored in the one or more memory modules are executed by a processor to convert the captured audio commands into audio files and communicate the captured audio commands to an external computing device utilizing the one or more communication transceivers. The computer-readable instructions are part of an artificial intelligence application programming interface that communicates with an external artificial intelligence computing device to process the communicated audio file.

The invention is an umbrella-like canopy assembly and the container in which it can be stored. The resulting apparatus can be secured to a hand-controlled mobile carrier. The canopy assembly can be moved from a storage position within the container and then opened to cover, in the least, a portion of the container and preferably one or more areas designated by the user of the mobile carrier. With the apparatus secured to the mobile carrier, for instance, the user and also preferably the contents of the carrier can be shield from the sun and other environmental elements (e.g., rain, snow, and wind). The main parts of the apparatus are the canopy assembly, which is attached to the inside of the container, and means for securing the container to the mobile carrier.

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.

A shading system includes a base assembly, core assembly, a sensor expansion module coupled to the core assembly module, wherein the sensor expansion module includes one or more arm support assemblies; one or more arms connected to the one or more arm support assemblies. The base assembly includes one or more motors, one or more processors; one or more memory modules; a base motor controller; and computer-readable instructions, which when executed communicate movement direction and distance instructions to a base motor controller. The base assembly includes one or more motors, wherein the base motor controller converts the received movement direction and/or distance instructions to movement direction and/or distance commands, and communicates the movement direction and/or distance commands to the one or more motors to physically move the base assembly.

The invention features a dual shade apparatus adapted to provide shade to an individual or individuals while the individual(s) is/are outside and in need of shade from sunlight. Aspects of embodiments of the present invention contemplate a dual shade apparatus that is easily portable and easily adapted to the sun's changing positions, thereby providing the individual(s)/user(s) with shade from sunlight.