Sensor intended to be positioned on a mobile portion of a deployable structure, and to emit an information signal to a transmission unit intended to be positioned on a fixed portion of the deployable structure, such that the sensor comprises a wireless emitter/receiver configured to receive an incident signal originating from the transmitting unit when the deployable structure is in a folded position; a processing logic unit adapted to decide on the emission of the information signal to the transmission unit by the wireless emitter/receiver; a standalone energy source configured to power the processing logic unit.

The current invention is related to designing an automatic awning. It is used to protect the vehicle or the persons desiring to sit outside during the daytime from the sun and its heat. It includes only one pillar fixed to the ground or on a fixed wall (FIG. 2). This pillar contains the closed awning inside. The pillar contains also a motor with a chain to push the awning making it go out smoothly (FIG. 3) from the pillar and turn into a cross-rail (FIG. 4). Then, the awning is opened containing two awnings fixed to the cross-rail. Each awning is opened against the other direction of the other one. Each awning folded in a cylindrical shape contains its special fabric and arm with a tie rod. It has a spring and a chain set up in a special way to be very specific in pushing force out. It is fixed to the cylinder and the fabric to open the fabric awning (FIG. 5). There is a motor inside the cylinder. It pulls and closes the fabric by wrapping around the cylinder. Each awning is spread horizontally in a reverse direction to give the desired shade (FIG. 6). The sizes of the awning vary according to the size of the required shade, as it is enlarged to increase the desired shade, and vice versa. There are three sensors in each awning. One of them is the sun sensor to be opened at daytime and closed at night, the wind sensor that closes in case of strong winds and a sensor of radio frequency (RFID) attached to the designated vehicle to be opened in case of proximity and closed in case of being away. The awning is opened either by pressing the remote-control button, and this is a manual option, and there is an automatic option. It is through a barcode reader, the sensor of radio frequency (RFID), in a card set inside the vehicle linked to the awning. When the vehicle is parked under the awning, it is automatically opened in case of the sunny weather. The process of closing the awning is done either manually by remote control or automatically in the following cases; when the vehicle moves away from its place and the awning, also in case of the absence of the sun, and also in the case of the fast wind.

A bimini system for use with a support structure includes a bimini assembly transformable between an open configuration and a closed configuration. The bimini assembly includes a frame and a cover affixed to the frame. A gathering system includes a gathering mechanism associated with the cover. The gathering mechanism is movable to at least one of fold and gather the cover as the bimini assembly transforms from the open configuration to the closed configuration.

A bimini system for use with a support structure includes a bimini assembly transformable between an open configuration and a closed configuration. The bimini assembly includes a frame and a cover affixed to the frame. A gathering system includes a gathering mechanism associated with the cover. The gathering mechanism is movable to at least one of fold and gather the cover as the bimini assembly transforms from the open configuration to the closed configuration.

A protection device is provided, including a first fixed member, a second fixed member, a supporting member, a roller, an awning, an electromagnetic device, and a power supply unit. The supporting member connects to the first and second fixed members. The roller is movably disposed on the supporting member. The power supply unit provides electrical power to the electromagnetic device, so that the electromagnetic device attracts the roller, and the awning remains in a received state. When the power supply unit stops providing electrical power to the electromagnetic device, the roller moves along the supporting member, and the awning is expanded to cover the equipment.

An awning assembly and method of construction is disclosed herein. The awning assembly comprising a first main arm for coupling to a dwelling, a second main arm rotatably coupled to the first main arm at a first end and supportingly coupled to a roll bar at a second end, the roll bar coupled to a canopy, and a hard wire connection housed within the first main arm for coupling to a power source. The awning assembly further comprising a detachable attachment module coupled to the first end of the second main arm and functionally coupled to the hard wire connection, the detachable attachment module comprising a plurality of electrical components, the plurality of electrical components comprising at least one of a microphone, a heating element, an input/output port, an image capture device, a speaker, an illumination source, and a transceiver.

A control device for lighting elements to be mounted on a roller covering installation, which includes a support structure constraining the covering installation to an outer fixed structure, a rotatable tubular shaft supported by the structure, a covering to be rolled and unrolled on the tubular shaft, and a plurality of lighting elements applied to at least one component of the roller covering, includes a casing, configured to be inserted and accommodated in the tubular shaft, and having therein a power supply for the lighting elements, a control unit for the lighting elements, which can be connected wirelessly and/or wired to the lighting elements of the roller covering installation, and a receiver connected to and/or incorporated in the control unit for receiving control signals from the outside and control the lighting elements accordingly.

Sensor intended to be positioned on a mobile portion of a deployable structure, and to emit an information signal to a transmission unit intended to be positioned on a fixed portion of the deployable structure, such that the sensor comprises a wireless emitter/receiver configured to receive an incident signal originating from the transmitting unit when the deployable structure is in a folded position; a processing logic unit adapted to decide on the emission of the information signal to the transmission unit by the wireless emitter/receiver; a standalone energy source configured to power the processing logic unit.

An apparatus, including: a Bimini assembly (100) with a fixed portion (104) and a retractable portion (106); a coil spring (110) secured to the retractable portion and configured to urge the retractable portion to coil when the coil spring is not in a fully extended position; and a stabilizing feature configured to selectively hold the retractable portion in a retractable portion fully extended position.

An awning assembly and method of construction is disclosed herein. The awning assembly comprising a first main arm for coupling to a dwelling, a second main arm rotatably coupled to the first main arm at a first end and supportingly coupled to a roll bar at a second end, the roll bar coupled to a canopy, and a hard wire connection housed within the first main arm for coupling to a power source. The awning assembly further comprising a detachable attachment module coupled to the first end of the second main arm and functionally coupled to the hard wire connection, the detachable attachment module comprising a plurality of electrical components, the plurality of electrical components comprising at least one of a microphone, a heating element, an input/output port, an image capture device, a speaker, an illumination source, and a transceiver.