Abstract: A cookware set comprises a cookware vessel having a rim, a lid having an edge and a center, the lid configured to fit on and cover the cookware vessel in a first position, and a lid hook disposed on an upper surface of the lid at or near the edge of the lid and configured to support the lid in a substantially vertical position on a rim of the cookware vessel in a second position. The lid hook comprises a base member attached to the lid and an upper member extending over base member to define a cavity therebetween for receiving the rim of the cookware vessel. The cavity has an outer portion disposed toward the edge of the lid and an inner portion disposed toward the center of the lid, the cavity having a first gap between the base member and the upper member which is wide at the outer portion and narrow at the inner portion. A tongue disposed in the cavity on the base member defining a second gap between the tongue and the upper member.
Abstract: A rechargeable electric fan with a fan portion, a base portion, and a telescoping mast hingedly attached to and connecting the fan portion and the base portion. The fan portion has removable front grille, engageable in a first position in which the grille is retained in the front opening of the housing of the fan portion. The grille is rotatable from the first position to a second position in which the grille is released from the front opening. Slots are disposed on a periphery of the grille, and are configured to engage with corresponding tabs disposed on a periphery of the front opening, to retain the grille in the first position, and to release the grille when it is rotated into the second position. To prevent inadvertent release of the grille, a latch mechanism is configured and disposed to lock the grille in the first position, the latch mechanism comprising a button and a latch configured and disposed to release the lock when the button is depressed.
Abstract: A portable or landscape lamp or luminaire for illumination, decorative lighting, or lighting to encourage the growth of plants, consists of a clamping base including a housing for device electronics, a control panel disposed on an outer surface of the clamping base for receiving user input, and a plurality of a gooseneck lamps supported by the clamping base and having LEDs for selectively emitting light under the control of the device electronics as directed by the user input through the control panel.
Abstract: A lighting apparatus includes a central hub, and four panels hingedly attached to each side of the hub. Three panels have an LED array each. The fourth panel houses an array of solar cells, an ON/OFF switch, a rechargeable battery, and electronics. The four panels are independently positionable with respect to the hub. A motion detector is configured to operate the apparatus such that when motion is detected, the switch is in the ON position, and the solar cells do not detect ambient light above a predetermined base level, the device electronics turn the LEDs on; and when motion is not detected for a predetermined period, or the switch is in the OFF position, or the solar cells detect ambient light above the predetermined base level, the LEDs are powered off.
Abstract: A solar disk light has a disk light body, the disk light body including a housing and a lid over the housing, the housing being hollow to contain components of the disk light. The disk light body has solar cells on an outer surface thereof for harvesting solar energy and detecting ambient light, and LEDs for emitting light. The LEDs are adapted to be selectively driven to emit cool temperature light or warm temperature light. The wiring and driver electronics configured to deliver electrical power to the LEDs from the battery, and configured to drive some or all of the LEDs to emit warm light or cool light depending on a switch setting or signals received from a remote-control transmitter.
Abstract: A solar disk light has a disk light body, the disk light body including a housing and a lid over the housing, the housing being hollow to contain components of the disk light. The disk light body has solar cells on an outer surface thereof for harvesting solar energy and detecting ambient light, and LEDs for emitting light. The LEDs are adapted to be selectively driven to emit white light or colored light. The wiring and driver electronics configured to deliver electrical power to the LEDs from the battery, and configured to drive some or all of the LEDs to emit white light or colored light depending on a switch setting or signals received from a remote-control transmitter.