An evacuated bottle system including a bottle defining a hollow interior, the bottle having a neck defining an opening that provides fluid communication with the interior; a cap assembly including a funnel having a first portion and a second portion, where the second portion extends radially outward from the first portion to form a floor on an interior thereof and a shoulder on an exterior thereof, the first portion defining a first bore and the second portion defining a second bore fluidly connected to the first bore; a self serum stopper having a self sealing membrane that extends radially outward to overlie at least a portion of the floor of the funnel; and a cap having a cap wall sized to fit over the funnel and a cover portion extending radially inward from the cap wall.

An evacuated bottle system including a bottle defining a hollow interior, the bottle having a neck with a rim defining an opening; a cap assembly supported on the bottle, the cap assembly including a funnel having a first portion and a second portion, the first portion being insertable within the interior of the bottle and the second portion engaging a portion of the bottle to support the funnel above the rim, the funnel defining a bore that fluidly communicates with the hollow interior of the bottle; a self-sealing membrane that covers the bore formed by the funnel to selectively seal the hollow interior of the bottle; a cap attachable to the bottle, the cap including a cover portion that extends at least partially over the self-sealing membrane to restrain movement thereof, the cover portion being axially spaced from the self-sealing membrane to define a gap that permits axial movement of the self-sealing membrane to selectively open the bottle to fluid communication outside of the bottle.

An evacuated bottle system including a bottle defining a hollow interior, the bottle having a neck with a rim defining an opening; a cap assembly supported on the bottle, the cap assembly including a funnel having a first portion and a second portion, the first portion being insertable within the interior of the bottle and the second portion engaging a portion of the bottle to support the funnel above the rim, the funnel defining a bore that fluidly communicates with the hollow interior of the bottle; a self-sealing membrane that covers the bore formed by the funnel to selectively seal the hollow interior of the bottle; a cap attachable to the bottle, the cap including a cover portion that extends at least partially over the self-sealing membrane to restrain movement thereof, the cover portion being axially spaced from the self-scaling membrane to define a gap that permits axial movement of the self-sealing membrane to selectively open the bottle to fluid communication outside of the bottle.

An evacuated bottle system including a bottle defining a hollow interior, the bottle having a neck defining an opening that provides fluid communication with the interior; a cap assembly including a funnel having a first portion and a second portion, where the second portion extends radially outward from the first portion to form a floor on an interior thereof and a shoulder on an exterior thereof, the first portion defining a first bore and the second portion defining a second bore fluidly connected to the first bore; a self serum stopper having a self sealing membrane that extends radially outward to overlie at least a portion of the floor of the funnel; and a cap having a cap wall sized to fit over the funnel and a cover portion extending radially inward from the cap wall.

T-Tube device is made to help oil changers, or adders applying the oil into an engine. It is a movement of adding oil to an engine safely. This device is attached on the quart (container's) mouth or neck. It is removable and attachable; from the neck the Tube runs going to the engine and transmits the liquid (oil) into the engine's body. This device operates easily with no oil dropping around the engine's neck, or around the engine's body of the vehicle. One end connects to the gallon (quart) or bottle's neck. T-TUBE eliminates the need of funnel and or spilling oil on or on the engine's body. It eliminates any increment weather, winds, or heat, hotness, coldness, or wet weather.

The invention is directed to a gas cap with built-in funnel for small engines. The gas cap provides a compact funnel of sufficient size to speed the refueling process and prevent spills, and may further provide a valve to prevent the escape of gasoline fumes from the fuel tank.

A funnel is provided, including a main body and a ventilation passage. The main body is configured to lead a liquid into a receiving container. The main body includes a liquid inlet, a receiving chamber and a liquid outlet. The liquid outlet is configured to be communicated with the receiving container. The ventilation passage is configured to be communicated with the receiving container and external environment. The ventilation passage includes a first passage and a second passage which are communicated with each other. The first passage is integrally formed as a part of the main body. A first end of the first passage is configured to be communicated with the receiving container. The second passage is configured to be communicated with external environment and is detachably assembled to a second end of the first passage.

A torch refilling assembly includes a funnel for receiving a liquid fuel. A spout is fluidly coupled to the funnel and the spout is positioned in an opening of a fuel canister of a torch to direct the liquid fuel into the fuel canister of the torch. A rest is coupled to and extends laterally away from the funnel for engage a lid of the fuel canister for storage when the fuel canister is filled with the liquid fuel. A valve is movably coupled between the funnel and the spout. The valve is selectively positioned in a closed position to inhibit the liquid fuel from flowing out of the funnel. The valve is selectively positioned in an open position to pass the liquid fuel therethrough thereby facilitating the fuel canister to be filled with the liquid fuel.

A radiator funnel assembly facilitates filling refrigerant liquids in different radiators. The assembly provides various sizes and types of adapters and caps, with each adapter and cap having a unique identifier to facilitate assemblage and indicate a matching radiator fill opening. The assembly includes a funnel configured to receive a radiator fluid and carries the radiator fluid through a spout. Multiple conduits detachably attach in series to the spout. Multiple adapters receive the conduits and engage a specific radiator fill opening. Each adapter has a unique identifier that enables identification of the connecting conduit, and also identifies the specific type of radiator fill opening that is operable with the adapter. Multiple caps fasten the adapters to the radiator opening. Each cap has a unique identifier to identify and match to the appropriate adapter. This is useful for matching the adapter and cap to different types of radiators.