Described herein is a glass bottle configured to improve the mechanics of liquid flow and prevent drip initiation. Additionally, the glass bottle eliminates dripping during pouring to enable drip-free pouring. The dripping is prevented over a full range of pouring angles, which vary depending on the amount of liquid held in the glass bottle. A method of making the glass bottle and a method of enabling drip-free pouring using the glass bottle are also disclosed.

Described herein is a glass bottle configured to improve the mechanics of liquid flow and prevent drip initiation. Additionally, the glass bottle eliminates dripping during pouring to enable drip-free pouring. The dripping is prevented over a full range of pouring angles, which vary depending on the amount of liquid held in the glass bottle. A method of making the glass bottle and a method of enabling drip-free pouring using the glass bottle are also disclosed.

A cap includes a main unit fit onto the mouth of a double-walled container, a spout cylinder provided on the main unit, an inner stopper that is provided in the main unit, and a first inner valve. The inner stopper includes a communicating part that communicates with the inside of the inner container and the inside of the spout cylinder. The first inner valve includes a first valve body that covers the communicating part. The first valve body has passage holes. The first valve body being deformed from a closing position S toward an opening position O keeps acting as a partition between the communicating part and the spout cylinder.

A cap includes a main unit fit onto the mouth of a double-walled container, a spout cylinder provided on the main unit, an inner stopper that is provided in the main unit, and a first inner valve. The inner stopper includes a communicating part that communicates with the inside of the inner container and the inside of the spout cylinder. The first inner valve includes a first valve body that covers the communicating part. The first valve body has passage holes. The first valve body being deformed from a closing position S toward an opening position O keeps acting as a partition between the communicating part and the spout cylinder.

A liquid bottle or container, such as for liquid detergent, and corresponding cap and cup is disclosed for operation in a horizontal position with the cap and cup side wall substantially parallel to the ground, the cap and cup shape providing a built-in drip collector cavity positioned around a portion of the circumference or perimeter of the cap and cup rim on the open end of the cap. The cap and cup may be used to cover a nozzle or other valve dispenser during storage. The drip collector cavity has a volume sufficient to collect liquid residue remaining after normal use of the cap as a measuring and dispensing cup, and any post-use drops from the dispenser nozzle. Thus, the cap and cup of the present disclosure is dripless or nearly drip less. In an embodiment, at least a portion of the cap rim perimeter around which no built-in drip collector cavity is positioned is shaped as a pouring spout. In another embodiment, the area of the liquid container body which receives the cap is shaped to have an indent to accept the pouring spout, thus acting as an orientation key. In yet another embodiment, the drip collector cavity includes one or more radial partitions providing additional rigidity and support to the rim. In another alternative embodiment, the cap and cup shape provides a built-in drip collector cavity at the closed end of the cap. The side wall along the lowest elevation has a negative slope such that when the cap and cup is in the generally horizontal storage position covering the nozzle dispenser, the lowest point of elevation of the rim of the cap and cup is a higher elevation than the lowest point of elevation of the closed end of the cap and cup, thus resulting in collection of liquid residue at and/or near the closed end of the cap and cup.

A liquid bottle or container, such as for liquid detergent, and corresponding cap and cup is disclosed for operation in a horizontal position with the cap and cup side wall substantially parallel to the ground, the cap and cup shape providing a built-in drip collector cavity positioned around a portion of the circumference or perimeter of the cap and cup rim on the open end of the cap. The cap and cup may be used to cover a nozzle or other valve dispenser during storage. The drip collector cavity has a volume sufficient to collect liquid residue remaining after normal use of the cap as a measuring and dispensing cup, and any post-use drops from the dispenser nozzle. Thus, the cap and cup of the present disclosure is dripless or nearly drip less. In an embodiment, at least a portion of the cap rim perimeter around which no built-in drip collector cavity is positioned is shaped as a pouring spout. In another embodiment, the area of the liquid container body which receives the cap is shaped to have an indent to accept the pouring spout, thus acting as an orientation key. In yet another embodiment, the drip collector cavity includes one or more radial partitions providing additional rigidity and support to the rim. In another alternative embodiment, the cap and cup shape provides a built-in drip collector cavity at the closed end of the cap. The side wall along the lowest elevation has a negative slope such that when the cap and cup is in the generally horizontal storage position covering the nozzle dispenser, the lowest point of elevation of the rim of the cap and cup is a higher elevation than the lowest point of elevation of the closed end of the cap and cup, thus resulting in collection of liquid residue at and/or near the closed end of the cap and cup.

A package includes a container and a closure cap for mounting on the container. The closure cap is coupled to a neck of the container to block selectively removal of product stored within the container at the selection of a user.

A package includes a container and a closure cap for mounting on the container. The closure cap is coupled to a neck of the container to block selectively removal of product stored within the container at the selection of a user.

A container for viscous liquid is revealed. A first cover set with a one-way valve and a second cover arranged with a flow control valve are disposed on two ends of a main body of the container respectively. The first cover is suspended on a supporting member. Thereby a force is applied to the main body for pouring out viscous liquid such as caramel. Thus caramel pushes against a dome of the one-way valve and a gap on the dome is opened to make the caramel out. Once no force is applied, external air flows through a gap between the flow control valve and the second cover to push a flexible piece of the flow control valve and enter the main body. Thus both the main body and the dome of the one-way valve return back to the original shape. Thereby the caramel can be handled easily.

A container for viscous liquid is revealed. A first cover set with a one-way valve and a second cover arranged with a flow control valve are disposed on two ends of a main body of the container respectively. The first cover is suspended on a supporting member. Thereby a force is applied to the main body for pouring out viscous liquid such as caramel. Thus caramel pushes against a dome of the one-way valve and a gap on the dome is opened to make the caramel out. Once no force is applied, external air flows through a gap between the flow control valve and the second cover to push a flexible piece of the flow control valve and enter the main body. Thus both the main body and the dome of the one-way valve return back to the original shape. Thereby the caramel can be handled easily.