A system including a vessel having a vessel body to hold liquid, and an image source having one or more images. The vessel includes one or more partially reflective planar portions to reflect the one or more images of the image source to generate a virtual image within the vessel body based on the one or more images.

A bicycle water bottle system is provided. The system includes a mount having a mounting base and a mounting plate extending substantially perpendicular to the mounting base. The mounting base may be configured to connect to a bicycle frame using two fixed pre-formed mounting screw holes. The system also includes a water bottle having a slot formed in one side of the water bottle. The mounting plate is shaped and sized to fit tightly into the slot of the water bottle and the slot is correspondingly shaped and sized to receive the mounting plate to secure the water bottle to the mounting plate.

Dispensing systems for delivering a product from the inside of a container to a receptacle, cup, or container include valve systems and other dispensing configurations to reduce mess, parts, and costs associated with such dispensing systems.

Dispensing systems for delivering a product from the inside of a container to a receptacle, cup, or container include valve systems and other dispensing configurations to reduce mess, parts, and costs associated with such dispensing systems.

The present invention relates to a device for illuminating bottles that fits within and adheres to the naturally occurring concave recess at the bottom of a bottle. The device is intended to be inserted into the cavity and dimensioned to sit flush against a bottle when the device is placed within the concave recess at the bottom of the bottle. Other electrical elements may be included which provide for control of intensity, fluctuations in intensity, and to control power to the device. The device may also contain electrical components to allow wireless control of device and the ability to control device via smartphone. The device further includes an improved means for securing the device in the bottle, while maintaining a water tight seal. The device is intended to be used in conjunction with containers to provide an illumination of the bottle, creating a unique effect for displaying containers.

The present invention relates to a device for illuminating bottles that fits within and adheres to the naturally occurring concave recess at the bottom of a bottle. The device is intended to be inserted into the cavity and dimensioned to sit flush against a bottle when the device is placed within the concave recess at the bottom of the bottle. Other electrical elements may be included which provide for control of intensity, fluctuations in intensity, and to control power to the device. The device may also contain electrical components to allow wireless control of device and the ability to control device via smartphone. The device further includes an improved means for securing the device in the bottle, while maintaining a water tight seal. The device is intended to be used in conjunction with containers to provide an illumination of the bottle, creating a unique effect for displaying containers.

The present invention provides a heat shrinkable multilayer film that can prevent wrinkles or loosening after attachment when the film is attached to a container as a heat shrinkable label for dry heat shrinking, and a heat shrinkable label including the heat shrinkable multilayer film as a base film. Provided is a heat shrinkable multilayer film including: front and back layers each containing a polyester resin; and an interlayer containing a polystyrene resin, wherein the heat shrinkable multilayer film has a dimensional change in a TD represented by an equation (1) of 55 to 1000 m as measured by thermomechanical analysis (TMA) in which the temperature of the heat shrinkable multilayer film under a load of 0.10 N is increased from 30 C. to 60 C. at a temperature increase rate of 5 C./min and then cooled from 60 C. to 10 C. at a temperature decrease rate of 5 C./min, the equation (1) being:

Dimensional change=dimension in TD at 20 C.dimension in TD at 60 C. (1).

The present invention is directed to a smart metal, glass, paper-based, wood-based, or plastic packaging comprising at least one electric power source, characterized in that a structural component of the packaging forms a component of the at least one electric power source, said structural component being a component or material layer offering a contribution to enable the packaging to contain a product or to be transported. In addition, the present invention is directed to a method for manufacturing a smart packaging is provided comprising the steps of manufacturing a packaging and constituting at least one electric power source on or in the packaging, wherein a structural component of the packaging is taken for constituting a component of the at least one electric power source, said structural component being a component or material layer offering a contribution to enable the packaging to contain a product or to

The present invention is directed to a smart metal, glass, paper-based, wood-based, or plastic packaging comprising at least one electric power source, characterized in that a structural component of the packaging forms a component of the at least one electric power source, said structural component being a component or material layer offering a contribution to enable the packaging to contain a product or to be transported. In addition, the present invention is directed to a method for manufacturing a smart packaging is provided comprising the steps of manufacturing a packaging and constituting at least one electric power source on or in the packaging, wherein a structural component of the packaging is taken for constituting a component of the at least one electric power source, said structural component being a component or material layer offering a contribution to enable the packaging to contain a product or to

Described is a multi-part device for keeping consumables such as dietary supplements in separate, non-contaminatable, individually accessible container compartments. The device of the invention can also be used for storage of other items, as well. The top of the device is removable, has several interconnected lids that are attached and retained to the container portion of the device by a rotable cap, the position of which selects which lid, if any, can be opened by a user. The compartment lids separate the contents stored in the various compartments so as to keep the contents of each compartment from being contaminated by items or materials placed in other compartments or from the environment. The safe can be locked shut by rotating the cap to predetermined positions.