A foldable parallel bar apparatus includes generally U-shaped first and second end frames and a set of handrails connected to and extending between the first and second end frames, wherein the handrails are foldable so as to move the first and second end frames closer to one another thereby compacting the apparatus. When multiple modules of the end frames are connected, they provide an uninterrupted path between the handrails. An alternative embodiment provides base platforms that are foldable relative to each other and handrails that are vertically and horizontally adjustable.

A triceps dip exercise stand is provided for exercising a user's upper body and core. The stand includes a base, a vertical adjustment mechanism coupled to the base, a lateral adjustment mechanism coupled to a top portion of the vertical adjustment mechanism, and a pair of adjustable handgrips coupled to the lateral adjustment mechanism. The lateral adjustment mechanism adjusts the lateral position of each handgrip, and the vertical adjustment mechanism adjusts the vertical position of the handgrips. Each of the upright and lateral adjustment mechanisms are secured in respective positions using individual locking pins.

Disclosed is an element for gripping an item of sports equipment, including a core made of composite material having a fibrous framework included in a polymer matrix. The gripping element has an external layer enveloping the core and having an interwoven textile material, separate from the framework, that is partially embedded in the matrix and emerges from the matrix onto an outer surface of the gripping element. Also disclosed is a handrail of a gymnastics apparatus and to an item of sports equipment having such a gripping element, as well as a method for manufacturing such a gripping element.

An embodiment apparatus includes a crossbar including a surface with holes arranged along a portion of the crossbar and a handle including a surface with a hole. The crossbar may be configured to allow the handle to positionally adjust along the portion of the crossbar such that the hole in the surface of the handle aligns with one of the holes in the surface of the crossbar when the handle is located at a position along the portion. Alternatively or in addition, the handle may include a head which defines a plurality of holes in the handle. In this arrangement, a first connector is configured to slidably engage one of the plurality of holes in the handle and the hole in the crossbar, each of the plurality of holes in the first handle defining an orientation of the first handle.

An exercise machine includes a processor, a display, a deck, and a belt rotatable about the deck. The machine also includes a sensor operably connected to the processor and configured to detect a performance parameter associated with a belt of the exercise machine. In implementations described herein, the performance parameter may be disregarded when it is determined that a user is not on the belt.

An exercise machine includes a processor, a display, a deck, and a belt rotatable about the deck. The machine also includes a sensor operably connected to the processor and configured to detect a performance parameter associated with a belt of the exercise machine. In implementations described herein, the performance parameter may be disregarded when it is determined that a user is not on the belt.

A deck for a treadmill includes a continuous track, and a plurality of slats connected to the track. The track and the plurality of slats at least partly define an inner space of the deck, and are rotatable about the inner space. The deck also includes a first motor configured to modify a speed of rotation of the track, and a second motor configured to modify a position of the deck relative to a support surface on which the deck is supported. The first motor and the second motor are disposed within the inner space.

A deck for a treadmill includes a continuous track, and a plurality of slats connected to the track. The track and the plurality of slats at least partly define an inner space of the deck, and are rotatable about the inner space. The deck also includes a first motor configured to modify a speed of rotation of the track, and a second motor configured to modify a position of the deck relative to a support surface on which the deck is supported. The first motor and the second motor are disposed within the inner space.

An embodiment apparatus includes a crossbar including a surface with holes arranged along a portion of the crossbar and a handle including a surface with a hole. The crossbar may be configured to allow the handle to positionally adjust along the portion of the crossbar such that the hole in the surface of the handle aligns with one of the holes in the surface of the crossbar when the handle is located at a position along the portion. Alternatively or in addition, the handle may include a head which defines a plurality of holes in the handle. In this arrangement, a first connector is configured to slidably engage one of the plurality of holes in the handle and the hole in the crossbar, each of the plurality of holes in the first handle defining an orientation of the first handle.

An exercise machine includes a frame and a resistance mechanism attached to the frame. A crank assembly is in mechanical communication with the resistance mechanism, and the crank assembly includes a crank axle, a crank arm connected to the crank axle, and a roller connected to a distal end of the crank arm. A first pedal assembly is movably attached to the crank assembly and movable in a performance of an exercise. A second pedal assembly is movably attached to the crank assembly and movable in the performance of the exercise. Each of the first pedal assembly and the second pedal assembly include a pedal beam and a first tensioned element spanning at least a portion of an underside of the pedal beam. At least a portion of the resistance mechanism is disposed between the first pedal assembly and the second pedal assembly.