A lamp-equipped tent shelf, comprising a shelf, an LED lighting assembly, and a plurality of hooks is provided. The hooks are connected to the shelf. The LED lighting assembly is disposed on the shelf. The LED assembly comprises a power source, an LED light source and a switch. The LED light source is connected to the power source and the switch control the LED light source to turn on and off. The tent shelf can be hung directly to the tent frame and serves as an illumination source.

A lamp-equipped tent shelf, comprising a shelf, an LED lighting assembly, and a plurality of hooks is provided. The hooks are connected to the shelf. The LED lighting assembly is disposed on the shelf. The LED assembly comprises a power source, an LED light source and a switch. The LED light source is connected to the power source and the switch control the LED light source to turn on and off. The tent shelf can be hung directly to the tent frame and serves as an illumination source.

This invention is a compact and portable solar-powered camping light/lamp that utilizes recent advances in bulb and battery technology to produce high-intensity light continuously for up to 12 hours. It is well-suited for use during camping trips, in remote off-grid cabins, homes, and emergencies. The device incorporates a 12V solar panel that charges a standard 12V 12-18 Ah Li-ion (LiFePO4) or Lead-acid battery. The 12V DC battery current is then converted by an inverter to produce 120V AC, which is fed to a standard 120V 15 W LED bulb, producing 1500 lumens of high-intensity light continuously for 9-12 hours. The device is equipped with a cooling fan, can be conveniently carried by its handle, and can be charged using an automobile or other 12V source and also at home with a 120V AC to 12V DC step-down adapter.

A self-defense device includes a body, a self-defense spray canister within the body, a whistle coupled to the body and the canister, and a light source within the body. The body includes a longitudinal bore and a defense ring extending annularly around the body. The ring includes an upper surface, a lower surface including an abrasive area for scraping a body surface, and an interior receptacle for collecting material scraped from the body surface. The canister is disposed within the longitudinal bore and includes a nozzle for discharging the self-defense fluid. The whistle includes a mouthpiece and a housing coupled to the spray canister. The housing includes a quick release mechanism for removably attaching the housing to the body and maintaining the canister in a fixed position within the housing. The mouthpiece is pivotally connected to the housing enabling pivoting about the housing to provide access to the nozzle.

A portable device for generating and providing electricity is disclosed. The device includes one or more flat solar panels; one or more batteries arranged to be changed with electric power from the one or more flat solar panels; one or more lights arranged to be powered from the one or more batteries; one or more electric connectors arranged to receive electric power form the one or more batteries and to connect to combined power/data connections on portable electronic devices; and an expandable and collapsible housing holding the solar panels, batteries, and lights, and arranged to form a hollow inner volume when expanded and a flat panel when contracted.

A LED based lighting apparatus is disclosed. The light engine used in the lighting apparatus may use printed circuit board and have a plurality of LED groups that are independently controllable by a control unit. The power supply input and return paths connected to each LED group may be implemented on different layers to allow a compact footprint that may be used with traditional fluorescent encasements with relatively little modification. The LEDs may comprise a subset of LEDs having a first colour and a subset of LEDs having a second colour different from said first colour intertwined on the light engine.

An improved container for storing liquids includes a main body. The main body includes a front surface, a rear surface, a left side surface, a right side surface, a top surface, a base surface, and plurality of cylindrical surfaces. The top surface includes an aperture adapted to allow liquids to pass therethrough. The front surface, the rear surface, the left side surface, the right side surface, the top surface, and the base surface form an interior volume adapted to retain liquids therein. The plurality of cylindrical surfaces extend between the left side surface and the right side surface.

An improved container for storing liquids includes a main body. The main body includes a front surface, a rear surface, a left side surface, a right side surface, a top surface, a base surface, and plurality of cylindrical surfaces. The top surface includes an aperture adapted to allow liquids to pass therethrough. The front surface, the rear surface, the left side surface, the right side surface, the top surface, and the base surface form an interior volume adapted to retain liquids therein. The plurality of cylindrical surfaces extend between the left side surface and the right side surface.

A lighting system (1) has a first lighting circuit (2) configured to provide a first predetermined level of lighting intensity. The first lighting circuit (2) is configured to receive power from a mains electricity supply (3) or from a battery source (4) if the mains supply is unavailable. The first lighting circuit (2) is connected to at least one first Light source (5) and configured, when actuated, to provide lighting at the first predetermined level of lighting intensity. At this time, the first light source is in either an on or off state or a level of light required to raise ambient light level above a predetermined level. The system (1) further has a second lighting circuit (13) configured to provide lighting at least a second predetermined level of lighting intensity. The second lighting circuit (13) is configured to receive power from the mains electricity supply (3) and is connected to at least one second light source (14). The second lighting circuit (13) has at least one sensor (18) with an input such that actuation thereof causes the second light source (14) to provide the second predetermined level of lighting intensity for a predetermined period of time, in response to ambient illumination meeting or exceeding a predetermined intensity, when said sensor has no input or has had no input for a predetermined period of time, or until re-set. In the system (1), the second predetermined level of lighting intensity is greater than said first predetermined level of lighting.

A lighting system (1) has a first lighting circuit (2) configured to provide a first predetermined level of lighting intensity. The first lighting circuit (2) is configured to receive power from a mains electricity supply (3) or from a battery source (4) if the mains supply is unavailable. The first lighting circuit (2) is connected to at least one first Light source (5) and configured, when actuated, to provide lighting at the first predetermined level of lighting intensity. At this time, the first light source is in either an on or off state or a level of light required to raise ambient light level above a predetermined level. The system (1) further has a second lighting circuit (13) configured to provide lighting at least a second predetermined level of lighting intensity. The second lighting circuit (13) is configured to receive power from the mains electricity supply (3) and is connected to at least one second light source (14). The second lighting circuit (13) has at least one sensor (18) with an input such that actuation thereof causes the second light source (14) to provide the second predetermined level of lighting intensity for a predetermined period of time, in response to ambient illumination meeting or exceeding a predetermined intensity, when said sensor has no input or has had no input for a predetermined period of time, or until re-set. In the system (1), the second predetermined level of lighting intensity is greater than said first predetermined level of lighting.