A filling device may be used to fill a ball or other inflatable item from a water source such as a hose. A filling device may include an adapter having a cylindrical body with a hollow threaded interior, one closed end and one open end. A filling coupler is coupled to the one closed end of the cylindrical body. The one closed end of the cylindrical body has an opening formed therethrough and the filling coupler is coupled to the one closed end covering the opening. The filling coupler has a hollow threaded interior in fluid communication with the opening. A tip may be removably coupled to the filling coupler. The tip may be a ball inflation needle, a water balloon filling tip or the like.

An apparatus for playing a game includes a plurality of channels, each of the plurality of channels configured to hold and display a column of spherical game-pieces, each of the plurality of channels having an upper end and a lower end, each upper end configured to individually receive at least one of the spherical game-pieces, each lower end configured to support a respective column of spherical game-pieces by preventing passage of a bottom game-piece from a respective channel; a funnel affixed to the plurality of channels and configured to receive a thrown spherical game-piece and to direct the thrown spherical game-piece into the upper end of one of the plurality of channels; and a base stand operably connected to the plurality of channels and configured to rest upon a horizontal surface and to retain the plurality of channels at an acute angle relative to the horizontal surface.

A spherical punching ball specifically designed for striking against a wall is disclosed. Embodiments with varied weight, size, rebound characteristics, density parameters, and other considerations are disclosed. Methods of construction, training, and related safety considerations are disclosed.

A spherical punching ball specifically designed for striking against a wall is disclosed. Embodiments with varied weight, size, rebound characteristics, density parameters, and other considerations are disclosed. Methods of construction, training, and related safety considerations are disclosed.

A fitness ball includes a ball portion having a generally spherical-shaped resilient shell, a pocket disposed in the ball portion and defining an opening in the ball portion, and a handle extending from a first point on an inner surface of the pocket to a second point on the inner surface of the pocket. In some embodiments, the fitness ball further includes an impact-absorbent filler material disposed in an inner cavity defined by the resilient shell and the pocket. In other embodiments, the fitness ball includes one or more gel inserts embedded in the pocket to cushion impact of a user's hand with the pocket. In other embodiments, the pocket is adhered to the resilient shell by an adhesive disposed between an interfacing portion of the resilient shell and a corresponding lip of the pocket which overlaps the interfacing portion of the resilient shell.

A fitness ball includes a ball portion having a generally spherical-shaped resilient shell, a pocket disposed in the ball portion and defining an opening in the ball portion, and a handle extending from a first point on an inner surface of the pocket to a second point on the inner surface of the pocket. In some embodiments, the fitness ball further includes an impact-absorbent filler material disposed in an inner cavity defined by the resilient shell and the pocket. In other embodiments, the fitness ball includes one or more gel inserts embedded in the pocket to cushion impact of a user's hand with the pocket. In other embodiments, the pocket is adhered to the resilient shell by an adhesive disposed between an interfacing portion of the resilient shell and a corresponding lip of the pocket which overlaps the interfacing portion of the resilient shell.

The present invention is a method for manufacturing inflatable articles, or bladders for inflatable articles, that is time-efficient, simple, inexpensive and permits the uninterrupted manufacture of numerous and even customized article or bladder configurations and sizes, without expensive configuration-specific, metal tooling. The method includes the steps of applying a barrier material to a side of a first film, providing a second film with the first film so that the barrier material is disposed between the first and second films, adhering the first film to the second film so that the films are sealed together in areas except where the barrier material has been applied to form at least one inflatable compartment and sealed peripheral edge, and cutting along the sealed peripheral edge to form an inflatable article or bladder for use in an article of manufacture. The barrier material may be a paint, ink, paper or surface treatment that effectively prevents the first film from adhering to the second. The inflatable article or bladder of the present invention may be used as or in athletic equipment, for example, including footwear.

A device including a deformable shell delimiting an inner space, and a resilient band suspended in the inner space and including two ends secured to the deformable shell. The band includes a piezoelectric material to generate an electric voltage under the effect of the deformation of the shell and two electrodes for collecting the voltage. An electronic circuit for processing the voltage is arranged on the resilient band and connected to the electrodes of the resilient band.

A device including a deformable shell delimiting an inner space, and a resilient band suspended in the inner space and including two ends secured to the deformable shell. The band includes a piezoelectric material to generate an electric voltage under the effect of the deformation of the shell and two electrodes for collecting the voltage. An electronic circuit for processing the voltage is arranged on the resilient band and connected to the electrodes of the resilient band.

An accommodating intraocular lens comprises a first lens component, a second lens component, and an adhesive between portions of the two lens components. The cured adhesive bonds the lens components to form a fluid chamber. The lens components are bonded to one another along a seam which extends circumferentially along at least a portion of the lens components. The lens components may comprise the same polymer material. The cured adhesive also comprises the polymer or a prepolymer of the polymer to provide increased strength. The polymer is hydratable such that the lens components and the cured adhesive therebetween can swell together to inhibit stresses between the lens components and the cured adhesive.