An exercise and massage device utilizes a substantially spherical body having a central cavity that extends to opposite sides of the spherical body so that the cavity forms openings on opposite sides of the spherical body. The spherical body has an outer core of a first resilient hardness. A single rigid handle is positioned within the cavity. The openings of the cavity are sized and configured for allowing a user to access and manually grasp the handle through either opening. A resilient outer layer surrounds the outer core of the spherical body and provides an exterior surface of the spherical body. The resilient outer layer has a second resilient hardness that is less than that of the first resilient hardness of the outer core of the spherical body to provide a cushioning effect when the device is used in a massage mode. The device is weighted to provide a total weight of the device of from 2 lbs or more.

The present invention is directed to a weighted hand held electronic device that is ergonomically shaped to fit one's hand. The device has the ability to control another device such as a television using built in remote control capabilities and the ability to control an auxiliary device such as a phone, music player, or other device that can be attached to this handheld device. The handheld device makes walking, running, or other forms of exercising easier and more productive while watching television because of the device's weight, convenience and functionality.

A device to strengthen a person's arm muscles through the utilization of a portable device including a handle portion and a weight component with the two components separated by a flexible rod is provided. Such a device allows for the user to grip the handle portion and act as if they are throwing such a handle portion while the weight end moves along an arc defined through the length of the flexible rod. The resultant action is the generation of centripetal force along the defined arc with the reactive centrifugal force providing resistance to the user's arm muscles in a manner that is unique and heretofore unattainable through the utilization of a portable exercise device. The flexible rod component provides at least 1 foot (100 cm) of spacing between the handle portion and the weight portion.

An exercise device is provided having a top face and an open framework body, in which the interior of the body is open, and the faces of the open framework body are defined, at least in part, by hand grips formed at the intersections between the faces of the body. The faces are open between hand grips

A block plate apparatus system, comprising: at least one block plate; a plurality of stackable blocks, wherein the at least block plate is fastened to the plurality of stackable blocks to form a unified stack.

A training device for the human or animal body includes a balance body with a movable centre of mass and a holder with which the balance body can be carried. The holder includes a harness with connectors for connecting to a torso of the body and with a cavity in which the balance body is at least partially received and fixed. The harness particularly includes a first part with connector for attaching to a back of the user and a second part connected releasably to the first part. The first part and the second part adjoin each other so as to form a cavity which is open on both sides and in which the balance part is at least partially received in substantially fitting manner.

A training device for the human or animal body includes a balance body with a movable centre of mass and a holder with which the balance body can be carried. The holder includes a harness with connectors for connecting to a torso of the body and with a cavity in which the balance body is at least partially received and fixed. The harness particularly includes a first part with connector for attaching to a back of the user and a second part connected releasably to the first part. The first part and the second part adjoin each other so as to form a cavity which is open on both sides and in which the balance part is at least partially received in substantially fitting manner.

A free weight includes: an enclosure comprising a plurality of body sections assembled in a shape approximating a torus, each body section forming part of the approximated torus and having a sectional seam formed along an approximated major diameter of the approximated torus, and each body section is coupled to each adjacent body section at an inter-sectional seam, each inter-sectional seam formed along an approximated section diameter of the approximated torus; and a fill disposed within an interior space formed by the enclosure.

A method is provided for fabricating a unitary element, such as an exercise weight, including a composite material. The method includes providing a plurality of solid fragments including at least one non-thermoplastic material. The method further includes providing a plurality of solid particles including at least one thermoplastic polymer and/or elastomer material, at least 75% of the solid fragments having sizes in a fragment size range from zero to 32 millimeters and at least 75% of the solid particles having sizes in a particle size range from zero to 1.5 millimeters. The method further includes forming a mixture of the plurality of solid fragments and the plurality of solid particles, the mixture including 90% to 20% of the fragments by volume and 10% to 80% of the particles by volume. The method further includes molding or extruding the mixture into a unitary element through the application of heat and/or pressure.

An exercise monitor and method thereof having: a displacement sensor; a processing unit having a processor, clock, a memory storage device, and instructions for (1) computing a bounce rate using only displacement data and time data, (2) computing upper and lower displacement thresholds using only displacement data, and (3) for computing intensity using only bounce rate (beat frequency) and upper and. lower displacement thresholds. There is a display unit and a wireless connection to a handheld device on which computed information is displayed. Such automatically monitors workout intensity by receiving displacement data from a single displacement sensor and calculating upper and lower displacement thresholds to use to determine both heat frequency and intensity per beat via which intensity over a period may be displayed to a user.