An exercise apparatus with divergent/convergent motion along the symmetric semi elliptical route includes a base frame for supporting all the components of the apparatus, two handlebars move along the symmetric semi elliptical route, two feet pedals move along the symmetric semi elliptical route in harmony with the handlebars, Two link mechanisms to create symmetrical semi elliptical route to support handlebars and feet pedals, power transmission system to connect link mechanisms and synchronize their motion. This apparatus enables user to move hands forward/backward in the same direction so that hands have a lateral divergent motion at the start of the route and lateral convergent motion at the end of the route. By moving hands along the symmetric semi elliptical route a symmetrical variable pressure will be applied on the different muscles. Feet move along the symmetric semi elliptical route in full harmony with hands so that hands move backward/forward in the opposite direction of feet.

The invention relates to an elliptical trainer including: a frame having a first end and a second end; a rocker-rod mechanism hingedly connected to the first end of the frame; a pedal mechanism connected to the frame and the rocker-rod mechanism, the pedal mechanism being linked with the rocker-rod mechanism on the frame; a resistance adjustment mechanism provided at the first end of the frame, the resistance adjustment mechanism being connected to the pedal mechanism through a transmission mechanism for adjusting the movement resistance of the pedal mechanism. In the apparatus of the invention, there are two resistance adjustment ways i.e. manual resistance adjustment and electronic-controlled resistance adjustment, the user can select any one or both according to requirements. By combining the manual adjustment and the electronic controlled adjustment, the adjustable range of movement resistance is increased, and not only a wide range resistance control is achieved, but also fine-tuning of the movement resistance can be achieved manually.

An exercise device including a frame with a first crank assembly rotatably coupled to the frame about a first axis and a second crank assembly rotatably coupled to the frame about a second axis. A control system may be used in communication with the first crank assembly and the second crank assembly, which may provide a synchronous movement of the first crank assembly relative to the second crank assembly. A pedal arm may be provided with a first end pivotally coupled to the first crank assembly and a pedal positioned on a second end. A crank link may be used with one end coupled to the second crank assembly and a second end coupled to the pedal arm. The crank link may be movable on the pedal arm which may provide varying paths of motion of the pedals.

An exercise device comprising: a frame having a generally vertical planar axis, first and second foot supports suspended on the frame by first and second linkage assemblies that are respectively arranged on the frame such that the first and second foot supports are pivotable through a front to back arcuate path of travel that is disposed at a selected angle between about five and about forty five degrees relative to the vertical planar axis.

Described herein is a swivel mount for rotatably coupling a display to the frame of an exercise machine. The swivel mount includes a rigid arm fixed to one of the display or the terminal end of a frame member, the arm terminating with a ball at its free end. A socket is defined at the other one of the display or frame member which rotatably received the ball. A rotational resistance mechanism is operatively associated with the socket to selectively engage the ball and resist the rotation of the swivel mount. In some embodiments, the arm of the swivel mount may rotate in a conical range of motion for repositioning the display in relation to the frame while the display remains in a fixed position relative to the arm.

Described herein are embodiments of stationary exercise machines having reciprocating foot and/or hand members, such as foot pedals that move in a closed loop path. Some embodiments can include reciprocating foot pedals that cause a user's feet to move along a closed loop path that is substantially inclined, such that the foot motion simulates a climbing motion more than a flat walking or running motion. Some embodiments can further include reciprocating handles that are configured to move in coordination with the foot via a linkage to a crank wheel also coupled to the foot pedals. Variable resistance can be provided via a rotating air-resistance based mechanism, via a magnetism based mechanism, and/or via other mechanisms, one or more of which can be rapidly adjustable while the user is using the machine.

A vertical stepping machine includes a frame, a crank wheel connected to the frame, a crank wheel connected to the frame, a pedal beam having a first end and a second end, wherein the first end is in mechanical communication with the crank wheel, a pedal connected to the second end of the pedal beam, a linkage assembly connected to the frame and to the pedal beam, an arm support rotatably connected to the frame, an arm linkage connecting the arm support to the linkage assembly, and a rotary resistance mechanism positioned above the crank wheel when the vertical stepping machine is in an upright orientation. The pedal beam moves in an elliptical path when the crank wheel rotates and the elliptical path has a vertical major axis and a horizontal minor axis when the vertical stepping machine is in an upright position.

An exercise machine with a more natural gait and computer gaming interface which, in some embodiments, further allows for a variable stride length while in use. In one configuration, each side of the exercise machine has a first crank assembly connected at an upper location on a pedal arm and a second crank connected at a middle location on the pedal arm, and a pedal is attached to a lower location of the pedal arm. The first crank assembly is connected to the pedal arm by a crank arm. The second crank assembly is connected to the pedal arm via a crank arm pivotally attached to a crank link. The path of each pedal is determined by the lengths of crank arms and crank links of the first and second crank assemblies rotating in synchronous motion.

A stationary exercise machine according to the present disclosure may include a frame, a crankshaft rotatable supported by the frame, first and second lower linkages, and first and second crank arms connected to opposite sides of the crankshaft such that rotation of either of the first or second crank arm causes rotation of the crankshaft. Each of the first and second lower linkages may be operatively connected to the crankshaft and to a respective one of first and second pedals. Each of the first and second lower linkages may include a reciprocating member operatively connecting the respective one of the pedals with respective one of the crank arms. In some examples, each of the first and second lower linkages may include an adjustable linkage connected between the reciprocating member and the respective crank arm, the adjustable linkage operable to vary a distance between an output end of the reciprocating member and an input end of the crank arm. In some examples, each of the pedals may be pivotally connected to the respective reciprocating members.

A stationary exercise machine in accordance with some examples herein may include a frame, a crankshaft rotatably supported by the frame, an upper moment-producing mechanism and a lower moment-producing mechanism both operatively engaged to the crankshaft to cause the crankshaft to rotate. The lower moment-producing mechanism and the upper moment-producing mechanism may be resiliently coupled to one another, such as via a resilient coupling between a crank arm of the lower moment-producing mechanism and a link or virtual crank arm or the upper moment-producing mechanism. The exercise machine may further include a measurement apparatus which may be configured to measure differential forces between the upper and lower mechanisms.