This invention relates to the field of exercise equipment and more particularly to a collection of equipment that creates a rowing machine inside a pool or spa.
Spas and pools are used in homes, hospitals, hotels, and business for personal relaxation, exercise, and therapy. A spa, or pool, is an investment. Any device that can expand its scope of use makes for a greater return on the investment, while allowing for more activities without requiring more space.
Rowing is often cited as an excellent full-body, but low-impact, form of exercise. But rowing requires a dedicated machine, thereby increasing cost and space requirements.
What is needed is a device that can be installed in an existing spa or pool, allowing it to be used as a rowing machine.
The spa rowing adapter is a device for installation within an existing pool or spa, transforming the pool into a rowing machine. The term spa, as used within this application, will refer to any device that can hold water and an individual, such as a pool, hot tub, and such related devices. The device terms are used interchangeably in this application. The user grips lever arms, pulling on the arms from a seated, squatting, or standing position in a rowing motion.
The lever arms are formed from one or more tubes. One end of the tube includes a grip or handle, the other end connects to an anchor in or near the pool deck.
The tube is preferably two or more nested tubes, thus allowing adjustment of arm length.
In contrast to the prior art, the spa rowing adapter uses a resistance cylinder rather than floppy resistance bands or bungee cords. The resistance cylinder provides an adjustable amount of resistance during both the extending and retracting motions. The resistance cylinder changes length in response to a force, with the resistance of the motion set by an internal mechanism. The internal mechanism is adjustable by the user through rotation of a collar.
In the preferred embodiment, the resistance cylinder creates a force that opposes any attempt to increase its length. But the resistance cylinder does not oppose a reduction in length. Thus, the pulling motion of the user is opposed, but the motion to return the lever arms to their original position is not opposed.
The resistance cylinder has two primary connections. The first connection is between the cylinder and the pool deck, coping, or other surface surrounding the pool. The second connection is between the cylinder and the lever arm.
The point of connection between the resistance cylinder and the lever arm is adjustable using a releasable clamp. This adjustability permits the user to adjust the stroke of the lever arm, as well as providing a secondary resistance adjustment by affecting the length of the lever arm.
The lever arms and resistance cylinder pivot about points on the pool deck that are above the water level, lengthening the life of the equipment by minimizing contact with the pool water.
To understand the motion of the lever arm and resistance cylinder during use, a discussion of degrees of freedom is helpful.
The connections between the pool deck and resistance cylinder, and pool deck and lever arm, each with two degrees of freedom (“DOF”). The first DOF is rotation of the arm and resistance cylinder. This can be thought of as the motion of the lever arm and resistance cylinder during the pull-back portion of a row. The second DOF is an upward/downward rotation toward and away from the surface of the water. This can be thought of as a change in height of the grips as the user rows.
The connection between the cylinder and lever arm has only one degree of freedom—a rotation of the resistance cylinder with respect to the lever arm. Limiting this joint to a single degree of freedom avoids the inconsistent resistance that would result from angle between the resistance cylinder and lever arm changing during a stroke.
The lever arms are adjustable and removable. The adjustability is a result of a telescoping arm. A smaller tube slides inside a larger tube, locked in place by a collar. The user can slide the smaller tube in or out to choose the desired arm length, then fix the length using the collar.
The lever arms and resistance cylinder are removable because each affixes to the pool deck using pivots that fit within pivot anchors. The pivot anchors are installed into penetrations. The pivots slide in and out of the anchors, and rotate within the pivot anchors during use.
Thus, the spa rowing adapter can be installed in a pool for use, then readily removed when it is no longer needed.
The resistance cylinders are preferably adjustable in resistance. The resistance cylinder preferably operates using a contained quantity of oil. As the cylinder changes length, the oil is pushed from one portion of the cylinder through one or more holes or bores. By adjusting the size of the holes, or otherwise affecting the ability of the oil to flow, the resistance of the cylinder is adjusted.
The resistance is preferably adjusted using a circumferential collar. Such a collar allows a user to quickly adjust resistance by rotation of the collar, preferably with indexed positions indicating specific levels of resistance.
The invention can be best understood by those having ordinary skill in the art by reference to the following detailed description when considered in conjunction with the accompanying drawings in which:
Reference will now be made in detail to the presently preferred embodiments of the invention, examples of which are illustrated in the accompanying drawings. Throughout the following detailed description, the same reference numerals refer to the same elements in all figures.
Referring to
The spa rowing adapter 1 is shown installed within a pool 200, being operated by a user 10, the user 10 partially submerged in the water 202.
The user 10 holds the grips 26 to pull back on the lever arms 20. Motion of each lever arm 20 is resisted by a resistance cylinder 100, which interfaces with the lever arms 20 at a clamping collar 80.
Each lever arm 20 is preferably formed from a fixed outer section 22 and a telescoping inner section 24, which are held in relative position by a locking collar 30.
The arrows shown near the grips 26 depict the motion created by the user 10 during a rowing stroke, during which the lever arms 20 are moved back and forth.
The arrows around the primary pivot 40 and secondary pivot 70 depict the rotational motion that will occur as the user 10 moves the lever arms 20 back and forth during a stroke.
Referring to
Each lever arm 20 rotates about a primary pivot 40. The primary pivot 40 rotates within a pivot anchor 50, which is installed through a pool deck 204. The primary pivot 40 permits rotation in the plane of the pool deck 204, as well as up and down.
Each resistance cylinder 100 rotates about a secondary pivot 70. The secondary pivot 70 rotates within a pivot anchor 50, which is installed through a pool deck 204. The secondary pivot 70 permits rotation in the plane of the pool deck 204, as well as up and down.
As shown, the primary pivot 40 and secondary pivot 70 are above the level of the water 202, rather than within the water 202. Keeping the lever arms 20 above the water 202 prevents the water 202 from being a source of resistance, which would affect the user's 10 ability to accurately and consistently set the resistance of the motion.
Each lever arm 20 and resistance cylinder 100 connect at a clamping collar 80 with each associated clamping collar pivot 84. The clamping collar pivot 84 permits rotation only in the plane formed by the lever arm 20 and resistance cylinder 100. Thus, from the perspective of the lever arm 20, the resistance cylinder 100 only moves toward and away from the user 10, but never rotating.
Referring to
The lever arm 20 preferably includes a fixed outer section 22 and telescoping inner section 24. The telescoping inner section 24 includes an optional grip 26 formed of a softer material, such as rubber.
The locking collar 30 joins the fixed outer section 22 and telescoping inner section 24. Operating of the locking collar 30 is discussed further in conjunction with
The primary pivot 40 connects the lever arm 20 to a pool deck 204 (see
The secondary pivot 70 connects the resistance cylinder 100 to the pool deck 204 (see
Each lever arm 20 interfaces with a resistance cylinder 100 at the clamping collar 80. The resistance cylinder 100 connects to the cylinder bracket 88, which in combination with the clamping collar 80, forms the clamping collar pivot 84.
Referring to
It its closed position, the clamping collar 80 surrounds a section of the lever arm 20, which in the preferred embodiment is the fixed outer section 22. A clamping collar fastener 82 holds the clamping collar 80 closed around the cylinder bracket 88.
The cylinder bracket 88 connects to the clamping collar 80 at the clamping collar pivot 84 (see
The cylinder bracket fastener 92 holds the cylinder bracket 88 within the clamping collar 80.
Alternatively, the cylinder bracket 88 and clamping collar 80 are constructed as a single piece, thus avoiding the issue of relative rotation.
Referring to
A locking collar 30 is placed at the overlap between the fixed outer section 22 and the telescoping inner section 24 of the lever arm 20. The locking collar 30 includes a set screw 32, such as a hex-keyed set screw.
A thumb screw 34, or screw with a knurled head, arms, spade-head, or wing-head, allows the user 10 (see
Referring to
Intended to interface with the resistance cylinder 100 (see
Intended to interface with the lever arms 20 (see
The pivot anchor 50 includes an anchor sleeve 52 that protrudes downward from an anchor plate 54. An anchor penetration 56 permits either the primary pivot pin 44 or secondary pivot bracket projection 76 to slide into the anchor sleeve 52, inside of which a pin may rotate.
One or more anchor fastener penetrations 58 permit the use of anchor fasteners 60 (see
Equivalent elements can be substituted for the ones set forth above such that they perform in substantially the same manner in substantially the same way for achieving substantially the same results.
It is believed that the system and method as described and many of its attendant advantages will be understood by the foregoing description. It is also believed that it will be apparent that various changes may be made in the form, construction, and arrangement of the components thereof without departing from the scope and spirit of the invention or without sacrificing all of its material advantages. The form herein before described being merely exemplary and explanatory embodiment thereof. It is the intention of the following claims to encompass and include such changes.
Number | Name | Date | Kind |
---|---|---|---|
2586024 | Glasgow | Feb 1952 | A |
4903961 | Solymosi | Feb 1990 | A |
5306219 | Solymosi | Apr 1994 | A |
5562576 | Mangine | Oct 1996 | A |
7597652 | Walker | Oct 2009 | B2 |
20030100411 | Walker | May 2003 | A1 |
20030153437 | Tseng | Aug 2003 | A1 |
20080280736 | D'Eredita | Nov 2008 | A1 |
20130203566 | Finestein | Aug 2013 | A1 |