A climbing exercise apparatus having ipsilateral and contralateral modes of operation may include a frame supporting movable generally vertically oriented members. The vertically oriented members may include arm and foot support members rotatably connected to carriage members movably supported on the frame. The climbing exercise apparatus may include three-dimensional movement capabilities for a user's arms and feet to move through three dimensional paths of motion during an exercise activity.

An exercise machine creates a simulated continuous resisted climbing motion. The machine includes a floor- or ground-contacting base frame and two or more substantially vertically oriented uprights, wherein at least one upright is rigidly connected to the base frame. The machine further includes two handles and two foot pedals, each handle and each foot pedal being movably engaged with an upright for linear reciprocating motion along the upright. The handles and foot pedals are interconnected so that they move concurrently. An adjustable resistance mechanism may be operatively connected to the interconnection of the handles and foot pedals to provide adjustable resistance for the simulated continuous climbing motion.

An exercise device includes a frame and a crank assembly. A pair of foot links each has a forward end, a rearward end, and a mid-portion. Each foot link has a crank attachment at the forward end that is connected the crank assembly. A foot receiving area is defined at the rearward end of each foot link. Each foot receiving area is longitudinally fixed with respect to the respective foot link and the mid portion of each foot link has a defined support location. The frame supports the support locations of the support links at a generally constant vertical height while allowing horizontal motion relative to the frame. The rearward length of the foot links is at least 1.5 times the forward length such that the foot receiving areas move in a path of travel having more vertical travel than horizontal travel.

An exercise machine creates a simulated continuous resisted climbing motion. The machine includes a floor- or ground-contacting base frame and two or more substantially vertically oriented uprights, wherein at least one upright is rigidly connected to the base frame. The machine further includes two handles and two foot pedals, each handle and each foot pedal being movably engaged with an upright for linear reciprocating motion along the upright. The handles and foot pedals are interconnected so that they move concurrently. An adjustable resistance mechanism may be operatively connected to the interconnection of the handles and foot pedals to provide adjustable resistance for the simulated continuous climbing motion.

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.

Holistic training device wherein a trainee user executes a training operation of sequential cycles of a first step of synchronized contraction of left limbs and extension of right limbs, followed by a second step of reverse synchronized contraction of right limbs and extension of left limbs thereof, comprising a frame (10) with shorter parallel beams (1,2), longer parallel beams (3,4) and a beam (5) extending intermedially inbetween beams (1,2) with plate extensions (31,41) receiving freely rotatable axles (53,54) at the sides thereof. Pulleys (56a,57a-56b,57b) are fixedly mounted at the ends of the axles (53,54) and pulleys (16a, 17a-16b, 17b) are mounted proximally to the ends of beams (1,2) with straps (36a,36b-37a,37b) freely rotatable around these pulleys, rails (33,34-43,44) being adapted to receive platforms (60) sliding thereupon, these platforms being activated through handgrip items (35a, 45a) gripped by the palms and foot hold items (35b, 45b) nesting the soles of the trainee user to implement the aforementioned sequential exercising cycles.

An exercise machine creates a simulated continuous resisted climbing motion. The machine includes a floor- or ground-contacting base frame and two or more substantially vertically oriented uprights, wherein at least one upright is rigidly connected to the base frame. The machine further includes two handles and two foot pedals, each handle and each foot pedal being movably engaged with an upright for linear reciprocating motion along the upright. The handles and foot pedals are interconnected so that they move concurrently. An adjustable resistance mechanism may be operatively connected to the interconnection of the handles and foot pedals to provide adjustable resistance for the simulated continuous climbing motion.

A human power strengthening machine consisting of a frame, hand pedals, foot pedals and a flywheel coupled to said frame, with hand grips and foot-bindings coupled to said pedals wherein the grips and bindings allow the user to crank said pedals and drive a flywheel. There is a unit, which provides magnetic resistance to the flywheel. Also coupled to the frame can be a display with microphone for voice control of magnetic resistance to the flywheel. In this case there can be, for example, a flywheel, which is driven by the pedals, a magnetic resistance unit and display with microphone for voice control of flywheel resistance, plus non-driven casters as well.

The climbing machine structure includes a support frame, a first slide rail unit, a second slide rail unit, a first pedal, a second pedal, a first handle, a second handle, and a transmission unit. The first slide rail unit and the second slide rail unit are juxtaposed on the support frame. A first top end of the first slide rail unit and a second top end of the second slide rail unit are lower than an eye position of the operator in the height direction. Thereby, the line of sight of the operator won't be blocked.

An exercise machine creates a simulated continuous resisted climbing motion. The machine includes a floor- or ground-contacting base frame and two or more substantially vertically oriented uprights, wherein at least one upright is rigidly connected to the base frame. The machine further includes two handles and two foot pedals, each handle and each foot pedal being movably engaged with an upright for linear reciprocating motion along the upright. The handles and foot pedals are interconnected so that they move concurrently. An adjustable resistance mechanism may be operatively connected to the interconnection of the handles and foot pedals to provide adjustable resistance for the simulated continuous climbing motion.