A system and method for easily operated self-releasing stopper/cork for bottles of compressed liquids. The corks have a gas bladder that is designed to be inserted in a bottle and inflated, the bladder having a ribbed or smooth exterior to complete the sealing of the bottle whereby a gas release mechanism can be activated by depressing a button on a cap or via an on-board micro controller and/or electro-mechanical release solution in the cap. Once the gas is released from the top of the bladder the pressure inside the vessel will collapse the bladder's bottom and eject the cork assembly from the bottle.

A system and method for easily operated self-releasing stopper/cork for bottles of compressed liquids. The corks have a gas bladder that is designed to be inserted in a bottle and inflated, the bladder having a ribbed or smooth exterior to complete the sealing of the bottle whereby a gas release mechanism can be activated by depressing a button on a cap or via an on-board micro controller and/or electro-mechanical release solution in the cap. Once the gas is released from the top of the bladder the pressure inside the vessel will collapse the bladder's bottom and eject the cork assembly from the bottle.

An indexable dispenser is provided for use with a supplements cartridge having a plurality of serving chambers each sealed by a membrane to store a volume of supplement. The dispenser has a housing, a lance, an electrical power source, and a wireless transmitting and receiving device.

An indexable dispenser is provided for use with a supplements cartridge having a plurality of serving chambers each sealed by a membrane to store a volume of supplement. The dispenser has a housing, a lance, an electrical power source, and a wireless transmitting and receiving device.

A system and method for easily operated self-releasing stopper/cork for bottles of compressed liquids. The corks have a gas bladder that is designed to be inserted in a bottle and inflated, the bladder having a ribbed or smooth exterior to complete the sealing of the bottle whereby a gas release mechanism can be activated by depressing a button on a cap or via an on-board micro controller and/or electro-mechanical release solution in the cap. Once the gas is released from the bladder the pressure inside the vessel will collapse the bladder's bottom and eject the cork assembly from the bottle.

A system and method for easily operated self-releasing stopper/cork for bottles of compressed liquids. The corks have a gas bladder that is designed to be inserted in a bottle and inflated, the bladder having a ribbed or smooth exterior to complete the sealing of the bottle whereby a gas release mechanism can be activated by depressing a button on a cap or via an on-board micro controller and/or electro-mechanical release solution in the cap. Once the gas is released from the bladder the pressure inside the vessel will collapse the bladder's bottom and eject the cork assembly from the bottle.

A system and method for easily operated self-releasing stopper/cork for bottles of compressed liquids. The corks have a gas bladder that is designed to be inserted in a bottle and inflated, the bladder having a ribbed or smooth exterior to complete the sealing of the bottle whereby a gas release mechanism can be activated by depressing a button on a cap or via an on-board micro controller and/or electro-mechanical release solution in the cap. Once the gas is released from the bladder the pressure inside the vessel will collapse the bladder's bottom and eject the cork assembly from the bottle.

A system and method for easily operated self-releasing stopper/cork for bottles of compressed liquids. The corks have a gas bladder that is designed to be inserted in a bottle and inflated, the bladder having a ribbed or smooth exterior to complete the sealing of the bottle whereby a gas release mechanism can be activated by depressing a button on a cap or via an on-board micro controller and/or electro-mechanical release solution in the cap. Once the gas is released from the bladder the pressure inside the vessel will collapse the bladder's bottom and eject the cork assembly from the bottle.

The present application relates to a closure assembly for connection to a spout in fluid communication with a container. The closure assembly includes a housing configured to be secured to the spout and including a fluid passageway and a piercable membrane in the fluid passageway. The closure assembly includes a retention member configured to be secured to the housing and a flexible valve that is positioned in the fluid passageway of the housing and that is secured to the housing by the retention member. The closure assembly is configured to receive a piercing element that extends into the housing such that the piercing member can pierce the valve and the membrane, and the retention member has locking elements that engage the piercing element to lock the piercing element in place with respect to the assembly.

The present application relates to a closure assembly for connection to a spout in fluid communication with a container. The closure assembly includes a housing configured to be secured to the spout and including a fluid passageway and a piercable membrane in the fluid passageway. The closure assembly includes a retention member configured to be secured to the housing and a flexible valve that is positioned in the fluid passageway of the housing and that is secured to the housing by the retention member. The closure assembly is configured to receive a piercing element that extends into the housing such that the piercing member can pierce the valve and the membrane, and the retention member has locking elements that engage the piercing element to lock the piercing element in place with respect to the assembly.