The present invention comprises a user support where the exerciser can sit or lie on, a movement arm connector, a movement arm pivotally attached to the movement arm connector wherein the movement arm comprises a member pivotally attached to be placed on the user's thigh. Further it comprises an axis transformation adjustment, a double pivot axis mechanism to extend muscle movement in various axes. The present invention can be used as a resistant exercise machine and it can also be used as a bicycle wherein the pivot axis is located under the saddle.

A physical exercise apparatus according to an exemplary embodiment of the present disclosure comprises a frame, a seat, a pair of movable arms, and a pair of cycling foot pedals. The seat may be supported by the frame and configured to support a user in an at least partially supine position. The pair of movable arms may be movably coupled to a first portion of the frame and coupled with a common, linearly movable resistance load. The first portion of the frame may be stationary with respect to the seat. The pair of cycling foot pedals may be movably coupled to a second portion of the frame and independently movable from the pair of movable arms so that the user can cycle the pair of cycling foot pedals while separately engaging the pair of movable arms.

A computer-implemented system includes an assistant interface for providing remote medical assistance to aid a patient in performing various aspects of a rehabilitation regimen for a body part comprising a joint, a bone, or a muscle group. The assistant interface is configured to communicate, via a network connection, a telemedicine signal with the patient interface. The telemedicine signal is configured to control the patient interface and/or a treatment apparatus configured to be manipulated by the patient to perform the rehabilitation regimen. The patient interface and the treatment apparatus are at a patient location geographically separate from a location of the assistant interface. The telemedicine signal includes one or more of an audio signal, an audiovisual signal, an interface control signal for controlling a function of the patient interface, and/or an apparatus control signal for changing an operating parameter of the treatment apparatus.

An exercise equipment comprises a display and a rotating mechanism, which includes a rotatable body and a stationary body. The rotatable body connects with the display, and the stationary body connects with a mechanism of the exercise equipment. The display rotates with the rotatable body, whose angle of rotation has an upper limit to avoid damage to wires. In addition, the rotating mechanism can emit a sound to notify the user that the display has been rotated to a specific angle.

A swingable mechanical structure installed to fitness equipment or bicycles includes a machine base, a swing mechanism, and an auxiliary bracket. The swing mechanism includes a rotating shaft, a tilt member, and a swing post. The rotating shaft of the swing mechanism is installed into an assembling slot of the rotating shaft. Both ends of the auxiliary bracket are assembled to the machine base and an end of the swing post. When the rotating shaft is rotated, the rotating shaft is rotated to an angle with the respect to the tilt member, so that the swing post may swing together with the tilt member sideway and rotated around the tilt member. One of the ends of the swing post is limited by the auxiliary bracket, so that the swing post can just swing sideway to produce a mechanical structure with a force input and output conversion.

A bicycle rack assembly includes a first upright unit that is selectively positioned on a support surface. The first upright unit has an upper end and the upper end receives a rear axle of a first bicycle. In this way a rear wheel of the first bicycle is spaced from the support surface to spin freely when the first bicycle is mounted and pedaled. A second upright unit is slidably coupled to the first upright unit and the second upright unit is selectively positioned on the support surface. The second upright unit has a top end and the top end receives a rear axle of a second bicycle. In that way a rear wheel of the second bicycle is spaced from the support surface to spin freely when the second bicycle is mounted and pedaled.

An apparatus permitting a user to perform a simulated bicycling exercise is provided. The apparatus includes a frame having a head tube, a first upper rear mounting point and a second lower front mounting point configured to maintain the frame, the first upper rear mounting point comprising an upper rear movable rotating joint, a seat connected to said frame and configured to support the user in a forward facing orientation, a wheel positioned in association with said frame, a set of pedals configured to interact with said wheel, and a stem connected to a handlebar arrangement, the stem passing through the head tube and connected to a base by a connection arrangement. The frame is configured to pivot about the first upper rear mounting point and second lower front mounting point in response to leaning by the user, causing rotation of the stem within the head tube.

Disclosed is a multifunctional exercise chair for body stretching, comprising a wheelchair frame body, wherein a mounting frame is detachably mounted on an end of the wheelchair frame body away from the driving rear wheel and located under the seat cushion, a pedal gear is rotatably mounted at a bottom of the mounting frame and a pedal is provided thereon, a hand crank gear is rotatably mounted on a top of the mounting frame and a hand crank handle is provided thereon, a rotating shaft is provided between two driving rear wheels; a driven gear is fixedly mounted on the rotating shaft, a supporting chain gear is mounted on the mounting frame and arranged adjacent to the pedal gear, and the hand crank gear, the pedal gear, the driven gear and the supporting chain gear are wound and connected by a transmission chain.

A stationary bike capable of leaning of tilting side to side during use is described. The stationary bike has a fixed frame portion and moving frame portion which is pivotally mounted on the fixed frame portion, at two spaced apart pivot locations, to allow the moving frame to pivot about a pivot axis defined by the two spaced apart pivot locations. The pivotal action of the bike may be resisted, such as by a damper. The tilt-enabled bike is equipped with a tilt disabling mechanism, e.g., a locking mechanism configured to selectively and operatively engage the moving and the fixed frame to disable the relative movement (i.e. the pivoting) of the moving frame.

A fitness equipment and an automatic oxygen-generating fitness equipment are disclosed. The fitness equipment comprises a power unit, a sensor unit and an oxygen-generating assembly. The power unit comprises a belt drive turnplate, a belt and a magnetic wheel. Rotation of the belt drive turnplate drives the belt to operate so that the magnetic wheel is driven to rotate. The sensor unit is adapted to detect the belt drive turnplate and generate an activation signal when the belt drive turnplate is rotating. The oxygen-generating assembly comprises a control unit, a motor and an oxygen generator. The control unit is configured to receive the activation signal from the sensor so that the motor is activated to drive the oxygen generator to operate. The control unit may also control the equipment to switch between an oxygen-generating mode and a non-oxygen-generating mode.