An improved exercise equipment including a stationary exercise apparatus, a lever arm pivotably biased about a pivot axis, and a support for supporting the lever arm above the stationary exercise apparatus. The pivot axis extends substantially in a vertical direction. The stationary exercise apparatus is of a type to cause the legs of a user to scissor as the user operates the stationary exercise apparatus. In an exemplary embodiment, the stationary exercise apparatus is one of a treadmill, a stationary bicycle, and a stair climber.

Embodiments relate to exercise systems, and more particularly to adjustable exercise cycles. In accordance with at least some aspects, a stationary exercise cycle includes an incline mechanism that adjusts an incline of an upright support structure. The incline mechanism is aligned with a portion of an upright support structure on which a handle bar assembly is mounted. In some cases, the exercise cycle includes a console that can be rotated for viewing when not riding on the exercise cycle. The exercise cycle can also include an adjustment mechanism for adjusting the position of a seat or the handle bar assembly. The adjustment mechanism can include a cam-based locking mechanism for selectively securing the seat or handle bar assembly in place.

The present invention relates to training equipment for improving the ability of memory and cognition, and muscle power, and a training method using the training equipment. In particular, the present invention relates to training equipment for improving the ability of memory and cognition, and muscle power (upper and lower limb muscle power), the training equipment including: a lower limb muscle power exercise module that includes pedals for strengthening the muscle power of user's lower limbs and/or a handle for steering; a display that implements traveling in a virtual space for memory ability training of the user; and a training unit that improves cognition ability and/or muscle power of the user on the basis of driving data of the lower limb muscle power exercise module, thereby being able to complexly support memory ability training, lower limb muscle power exercise, and upper limb muscle power exercise of rehabilitation patients, patients with dementia, and/or patients with cognitive impairment.

In general, a user performs an exercise for strengthening and hip muscles by pulling the legs toward the chest and pushing them outward with the pelvis as an axis, as shown in FIG. 1. Also, in a general bicycle, since a high hip motion range is limited to a rotation radius of a crank connected to a bicycle pedal, as shown in FIG. 2, the user's exercise is repeatedly performed only in a relatively small space when compared to the high hip motion range, and thus exercise efficiency in utilization of and hip muscles is limited.

Accordingly, the present applicant's former disclosure was configured to increase the high hip motion range and direction by enabling a user to perform adduction as well as extension of the hip joints.

However, the former disclosure was configured to locate a pad of an exercise machine connected to a weight on his/her and pull his/her toward the chest and push them backward in a sitting, lying, or prone position. When the pad of an exercise machine connected to a weight is on his/her thigh, the force is smaller compared to the force when the pad of an exercise machine connected to a weight is on his/her ankle or sole.

Accordingly, the present disclosure is configured to locate the pad of an exercise machine connected to a weight on his/her ankle or sole of the user. The exercise method and the exercise device improve the exercise effect of strengthening leg and hip muscles by changing location of the pad of an exercise machine connected to a weight from his/her to his/her ankle or sole.

Split-crank pedaling devices and methods of operation support patient use and rehabilitation, particularly for stroke patients. A split-crank pedaling device includes first and second crank assemblies. First and second motors are operably connected to the first and second crank assemblies. A first shaft sensor produces an indication of a position of the shaft of the first crank assembly. A second shaft sensor produces an indication of a position of the shaft of the second crank assembly. A controller is communicatively connected to the first and second motors and the first and second shaft sensors and calculates a phase error between the positions of the first and second shafts and a predetermined phase relationship between the first and second shafts. The controller operates at least one of the first motor or the second motor to provide a supplemental torque to one of the first crank assembly and the second crank assembly.

The exercise device according to an embodiment of the present invention includes: an arm pivotably connected to the frame and rotatable wherein the arm comprises an arm pivot axis aligned with a user's hip joint; a leg pad pivotably connected to a lower end of the arm and configured to contact the user's leg during use, a handle connected to a lower end of the seat or to the frame and extending therefrom; an arm starting region fixing unit which is provided to fix an exercise starting section; an arm length fixing unit for adjusting the length of the arm; a seat which is configured in correspondence to a hip and a thigh of a leg of two legs of a user so as to support the hip and the thigh of the leg that is not exercising and not to support the hip nor the thigh of the other leg of the user, and thus the seat is separated from the leg pad when viewed from above and is configured to enable the exercising leg of the user to move to the back of the user from a starting pose at which the hip and the thigh of the leg that is not exercising is placed on the seat and the exercising leg is placed on the leg pad and pulled to the chest of the user. Preferably, a leg pad may be configured to contact the user's thigh during use to protect the user's knee and ankle joints while exercising. Also, the exercise device allows the user to exercise the thigh and gluteal muscles while protecting knee and ankle joints of the leg that are not exercising.

An adjustable rehabilitation and exercise device, including a rotary member having a plurality of elongated and spaced apart elongated open-ended slots defined thereon, each slot including a plurality of enlargements along the length thereof. A mount is selectively and movably positionable on a selected one of the slots of the rotary member to select an angular location of the mount. The mount includes a slide member movably positionable along the selected slot to a selected radial location along the selected slot to select a radial location of the mount relative to the hub of the rotary member. The mount includes a movable pin having an enlarged head. The pin is positionable to selectively engage the enlarged head thereof within the enlargements of the slot so as to lock the position of the mount along the slot. A patient engagement member is connectable to the mount and movable with the mount.

A height adjustment mechanism for exercising apparatus includes a first frame body and a second frame body being slidable relative to the first frame body in an adjusting direction. The second frame body has a series of positioning holes. A pressing member is disposed at one side of the first frame body for tightening or loosening the second frame body. A slidable block is limitedly movable along the first frame body in the adjusting direction. A pin member is received in the slidable block and operable to be engaged in a selected one of the positioning holes so that movement of the second frame body causes movement of the slidable block within a limited range. When the slidable block moves toward bottom of the limited range, the pressing member is pulled inward by at least one connecting arm to a tightening position to clamp the second frame body.

A hybrid resistance adjustment system is used on an exercise bike which has a frame and a flywheel, and the hybrid resistance adjustment system has a resistance assembly, a manual adjustment assembly, and an electronic adjustment assembly. The resistance assembly is mounted on the frame and has a mounting seat pivotally connected to the frame, a brake pad and a magnetic set. The mounting seat is pivotally connected to the frame. The brake pad and the magnetic set are mounted on the mounting seat. The manual adjustment assembly is mounted on the frame and has a shaft. The electronic adjustment assembly is mounted on the frame and has a linearly movable component and a motor. The motor is connected to the linearly movable component. The shaft and the linearly movable component selectively push the mounting seat to simultaneously make the brake pad abut against the flywheel.

Provided is an exercise device for performing exercises suitable to strengthen thigh and hip muscles such as a leg press machine, a total hip, a stationary bicycle, or a moving bicycle, and more particularly provides an exercise device for strengthening thigh and hip muscles while protecting the knees and ankle joints by enabling a user to locate a lower end of an arm on the user's thigh in a sitting or lying position and move the user's legs in order to minimize a load or stress added to the knee and ankle joints.