A swim in place system and method are provided. The system comprises a swim in place pool, at least one sensor, at least one pump associated with said at least one sensor, at least one processor, and a memory comprising instructions which when executed by the at least one processor configure the at least one processor to perform the method. The method comprises receiving object location data from at least one sensor, and actuating the at least one pump associated with the at least one sensor when the object is positioned inside a set perimeter within said swim in place pool. The object positioned in a swim in place pool.

A wave generator which may e.g. rest on a deck of a concrete swimming pool is disclosed. The wave generator may include a chassis for support of other components, have structure for engaging a supporting environmental surface or object, an agitator to be periodically projected into the water, and an oscillating device for periodically projecting the agitator into the water and withdrawing the agitator from the water to enable subsequent impingements against the water. The oscillating device includes a rocker arm, a powered crank mechanism to rock the rocker arm, and a support arm to hold the agitator below the elevated end of the rocker arm, thus enabling the agitator to impinge against the surface of the water. Optionally, functional components of the wave generator are covered by a cover simulating e.g. a whale. Optionally, the wave generator includes a protective cage held in the water below the agitator.

A method and a system are described for operating a bathing unit system to provide swim-in-place functionality to a swimmer. A communication link is established between the bathing unit system and an auxiliary device worn by or implanted in the body of the swimmer. A signal conveying information associated with the swimmer and originating from the auxiliary device is received. Control signals for controlling operational settings associated with a propulsion assembly of the bathing unit system are derived at least in part by processing the information conveyed by the signal originating from the auxiliary device. The control signals are then released to control the operational settings associated with the propulsion assembly. In another aspect, a graphic display is provided presenting the user with a customized set of selectable swim-in-place configurations derived at least in part by processing a signal originating from an auxiliary device worn by or implanted in the body of the swimmer.

It is disclosed a pump cell (25) for a surfing facility (10), wherein the pump cell (25) is configured to generate a, preferably laminar, layer-like water flow (20) for a surfable standing wave, wherein the pump cell (25) comprises: a pump (26), which is a radial pump (26) and has a preferably circular outlet opening; a diffusor (27) coupled to the pump (26) and being configured, to enlarge a cross-sectional area of the water flow (20) downstream of the pump (26) as far as an outlet opening (84) of the diffusor (27) and to reshape same into a wide and flat shape; and a pump frame (28), to which the pump (26) and the diffusor (27) are fastenable.

A method and a system are described for operating a bathing unit system to provide swim-in-place functionality to a swimmer. A communication link is established between the bathing unit system and an auxiliary device worn by or implanted in the body of the swimmer. A signal conveying information associated with the swimmer and originating from the auxiliary device is received. Control signals for controlling operational settings associated with a propulsion assembly of the bathing unit system are derived at least in part by processing the information conveyed by the signal originating from the auxiliary device. The control signals are then released to control the operational settings associated with the propulsion assembly. In another aspect, a graphic display is provided presenting the user with a customized set of selectable swim-in-place configurations derived at least in part by processing a signal originating from an auxiliary device worn by or implanted in the body of the swimmer.

A Exercise Pool is disclosed herein having a rigid frame modular in design to allow for improved delivery and assembling. As shown the system may be configured with a box like structure providing containment of the flow head and may be configured with a removable walk deck having an air gap built in. As disclosed the treadmill swimming pool system as its general configuration is safer for users as it inhibits and/or eliminates hair and body entrapment. As disclosed it has a balanced flow which better replicates or reproduces actual swimming conditions for an enhanced user experience. The propulsion system may be controlled with a variable frequency drive (VFD) to allow for improved swimming conditions and control of same.

There is provided a swim-in-place spa, comprising a basin for containing water, a circulation subsystem having a primary conduit extending from an inlet in the basin, a pump fluidly connected to the primary conduit to pump water from the inlet, a swim-in-place jet affixed to the basin, and a secondary conduit extending from the pump to the swim-in-place jet, in operation the pump inducing a flow of water toward the swim-in-place jet. The swim-in-place jet has a nozzle and a diffuser downstream of the nozzle relative to the flow of water, a nozzle outlet smaller than a diffuser inlet, the nozzle outlet and the diffuser inlet disposed in a spaced-apart relationship defining a gap for receiving a flow of entrained water. The circulation subsystem is configured for creating a water jet matching a cross-section of a swimmer.

The present invention relates to an immersible, adjustable, surface compliant device and methods of using it an environment with variable, induced current flows for purposes of exercise, rehabilitation, or pure fun. The adjustable, immersible, surface compliant device can be used in pools, water tanks, or any body of water having a location where the device could be attached. The adjustable, immersible, surface compliant device and methods of using it are ideal for rehabilitating an injury, assisting aging bodies in performing exercises, and allowing the permanently injured to achieve movement and some degrees of physical autonomy despite being injured. In some embodiments, I disclose a trampoline-like device, having adjustable surface compliance, to be used in a pool or water tank having a current flow, wherein the angle of the trampoline is horizontally adjustable.

[Problem] To provide a foldable frame structure, unfoldable into a 2N-sided polygonal shape (N being an integer equal to or larger than 2), achieving a securely and rigidly supported unfolded state and a compact folded state.

[Solving means] 2N upper rods (210), with an equal length, are coupled to each other to define a planer 2N-sided polygonal shape. First coupling means (220) coupling two adjacent upper rod (210) at a corresponding one of apices of the 2N-sided polygonal shape, and holding the two upper rod (210) in such a manner that the upper rod (210) are rotatable about an orthogonal axis orthogonal to axes of both of the two rods and rotation means (240) that enable each of the upper rods (210) to rotate about the axis (AX1) are provided. Folding to be a columnar shape as a whole can be achieved with the upper rods (210) pivoted about the orthogonal axis (AX2) to minimize an angle between two adjacent upper rods (210) while the upper rods (210) are rotated about the axis (AX1).

Disclosed is a water flow control device for swimming training that includes a swimming training device and a main water inlet pipe and a main water outlet pipe. The swimming training device includes at least a swimming pump. The main water inlet pipe and the main water outlet pipe are connected with the swimming pump. The water inlet of the main water inlet pipe is communicated with a swimming pool and a water outlet of the main water outlet pipe is connected with a jet nozzle. A filter device includes at least a filter pump, a filter sterilization device. A filter water inlet pipe and a filter water outlet pipe are connected with the filter pump. The filter water inlet pipe is communicated with the swimming pool through the filter sterilization device and the filter water outlet pipe communicated with the main water inlet pipe.