US2691784A - Aquatic device - Google Patents

Aquatic device Download PDF

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Publication number
US2691784A
US2691784A US317880A US31788052A US2691784A US 2691784 A US2691784 A US 2691784A US 317880 A US317880 A US 317880A US 31788052 A US31788052 A US 31788052A US 2691784 A US2691784 A US 2691784A
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Prior art keywords
swimmer
motor
propeller
water
craft
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US317880A
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Eckl Louise
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LEONARD DOUGHTY
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LEONARD DOUGHTY
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    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63BAPPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
    • A63B35/00Swimming framework with driving mechanisms operated by the swimmer or by a motor
    • A63B35/08Swimming framework with driving mechanisms operated by the swimmer or by a motor with propeller propulsion
    • A63B35/12Swimming framework with driving mechanisms operated by the swimmer or by a motor with propeller propulsion operated by a motor

Definitions

  • the present invention relates to an aquatic device for mechanically propelling a swimmer in a direction and at a speed controlled by him.
  • the device can be employed for classic, life-saving or military purposes.
  • an aquatic device of the general type referred to which is driven from a motor easily and conveniently controlled by the swimmer and operable to impel him through the water with the controllable speed of a motor boat, which can be easily attached to a swimmer and worn by him with comfort in operation, which does not obstruct the view in front of him while he is being propelled thereby, which in operation allows him to assume a position offering a minimum of resistance to movement through the water and which leaves his arms and legs free to steer and maneuver with minimum of eifort.
  • a small water craft carries a small motor, preferably an internal combustion engine adapted to drive a remote propeller through a flexible shaft.
  • This propeller is carried by a harness designed to be attached to the swimmer with said propeller strapped to his chest.
  • a control cable for the motor is manipulable by the swimmer to control his speed. In the case where the motor is an internal combustion engine, this control cable is operable to regulate the fuel supply to the engine.
  • the swimmer In operation, the swimmer assumes a floating position in the water, with his chest turned downward to submerge the propeller at a substantial depth for effective drive, his legs extended rearward and his arms extended forward substantially to their full extent.
  • he can carry the control cable by which he can regulate the operation of the motor, or at least he can easily reach the control manipulable end of the cable.
  • the motor drives the propeller through the flexible shaft and thereby impels him forward.
  • the forward movement of the swimmer causes the craft carrying the motor to be towed behind the swimmer almost unobtrusively by the same flexible shaft which serves to drive the propeller.
  • the swimmer With his arms and legs, the swimmer is able to control his depth and to steer and maneuver as he wishes with minimum of effort.
  • Fig. 1 is a view showing a swimmer in water equipped with an aquatic propelling device embodying the present invention.
  • Fig. 2 shows in perspective and in side view the aquatic propelling device, part of the hull of the float craft for carrying the motor being broken away to show the motor and associated parts therein diagrammatically.
  • the aquatic propelling device of the present invention comprises a propeller l0 secured to a shaft ll journalled in a bracket I2 aflixed to a cylindrical case or support frame I3 encompassing the propeller.
  • An open guard M for the propeller to protect the swimmer against possible contact with the propeller may be secured to the outlet end of the propeller support frame l3.
  • the propeller support frame 13 is secured to a harness comprising a chest pad I5 and a belt [6 by which the propeller It) may be strapped to the chest of the swimmer.
  • the power plant for the propeller It is carried in a small float or water craft [8 having a hull ill designed for stability and streamlined in a wellknown manner to afford an unbroken flow of water about said hull as said craft is towed through the water.
  • a deck 21 protects the interior apparatus of the craft [8 against the wash of the sea.
  • the power plant for the propeller II] is housed in the craft [8 and comprises a small motor 23 which is preferably an internal combustion engine of standard type and more specifically a 2 or 4 cycle gasoline engine, although as far as certain aspects of the invention are concerned, it may be a small diesel engine, or an electric motor driven from a storage battery.
  • An air inlet line 24 and an exhaust line 25 for the motor 23 have adjoining terminal sections projecting upward through the deck 2
  • a fuel tank 26 delivers fuel to the motor 23 at a rate controlled by the swimmer, as will be described. Where a gasoline motor is employed, the gasoline is delivered to the usual car'- buretor from the fuel tank 26 and mixed with the intake air delivered through the inlet line 24.
  • the motor 23 drives a rigid shaft 21 supported in the craft [8 by bearings in any suitable manner. Between this shaft 21 and the propeller shaft II on the outside of the craft I8 and secured to said shafts is a flexible shaft 28 of the well-known type, enclosed in a suitable flexible sheathing 38.
  • such as the so-called Bowden line, which comprises a pull wire enclosed in a spiral wire flexible tube.
  • This line 31 in the case of a gasoline engine controls the gas supply to the carburetor of the motor 23 and thereby controls the speed of said motor, and is desirably attached to the sheathing 39 of the flexible shaft 28 at intervals.
  • an ordinary springpressed cord or wire may be employed for the purpose.
  • One end of the control line 3
  • the end of the control line 3! is attached to thepropeller support frame l3 by a suitable brackettt so that its control end 34 is located within convenient reach of the swimmers hand.
  • may be long enough to permit the control end 34 of said line to reach the hand of a fully extended arm of the swimmer for manipulation by said hand, while said line is distended along the taut flexible shaft 28 towing the craft H3. The swimmercan thereby manipulate said control line, while in fully extended position to offer minimum of resistance to movement through the water.
  • the outer spiral wire flexible tube enclosing the control wire 39 may be hermetically sealed and so constructed that the line unit floats in water, and the sheathing SI for the flexible shaft 28 may be similarly sealed and constructed to allow the unit 28, 3! to float.
  • the swimmer with the propeller strapped to his chest floats in water with his chest downward to submerge the propeller It. He then controls his motor 23 by appropriate manipulation of the control line 3!.
  • the swimmer assumes a position in water in whichhis-arms and legs are fully extended as shown in Fig. l, and the operation of the propeller H! drives the swimmer through the water while in this relaxed position.
  • the craft I8 carrying the motor 23 is towed behind him by means of the flexible shaft 21.
  • the length of the flexible shaft 21 is such as to tow the craft H! from two to ten yards behind the swimmer.
  • the swimmer by moving his legs and/or arms sideways or up and down can control his depth and can turn in either direction and by manipulating the control line 3] can stop, start, slow up, speed up, or move at any steady selected speed such as is permitted by a motor boat. Because the. motor carrying craft i8 is towed behind the swimmer, he has an unobstructed view ahead of him.
  • Anaquatic device for propelling a swimmer through the water substantially in swimming position, said device comprising a propeller casing having straps tobe secured around the torso of the swimmer to suspend the casing beneath the swimmer, a tractive propeller mounted in said casing, a float carrying a motor, a flexible towing tube connecting said float to said casing for towing the float behind the casing and of sufiicient length to provide clearance for the body of the swimmer in advance of the float, a flexible propeller shaft extending through said tube and connecting said motor to drive said propeller in a direction to pull the swimmer and the float through the water, and a flexible motor control line extending from the float along said tube and having a control handle at its forward end attached to said casing in a position easily accessible to the swimmer for controlling the operation of the motor.

Description

Oct. 19, 1954 L. ECKL AQUATIC DEVICE Filed Oct. 31, 1952 INVENTOR.
100/55 fC/(L A TTOR NE Y Patented Oct. 19, 1954 AQUATIC DEVICE Louise Eckl, Munich, Germany, assignor to Leonard Doughty, Washington, D. 0.
Application October 31,1952, Serial No. 317,880
Claims priority, application. Germany November 30, 1951 1 Claim.
The present invention relates to an aquatic device for mechanically propelling a swimmer in a direction and at a speed controlled by him. The device can be employed for sportive, life-saving or military purposes.
Among the objects of the present invention are to provide an aquatic device of the general type referred to, which is driven from a motor easily and conveniently controlled by the swimmer and operable to impel him through the water with the controllable speed of a motor boat, which can be easily attached to a swimmer and worn by him with comfort in operation, which does not obstruct the view in front of him while he is being propelled thereby, which in operation allows him to assume a position offering a minimum of resistance to movement through the water and which leaves his arms and legs free to steer and maneuver with minimum of eifort.
In accordance with certain features of the invention, a small water craft carries a small motor, preferably an internal combustion engine adapted to drive a remote propeller through a flexible shaft. This propeller is carried by a harness designed to be attached to the swimmer with said propeller strapped to his chest. A control cable for the motor is manipulable by the swimmer to control his speed. In the case where the motor is an internal combustion engine, this control cable is operable to regulate the fuel supply to the engine.
In operation, the swimmer assumes a floating position in the water, with his chest turned downward to submerge the propeller at a substantial depth for effective drive, his legs extended rearward and his arms extended forward substantially to their full extent. In one hand, he can carry the control cable by which he can regulate the operation of the motor, or at least he can easily reach the control manipulable end of the cable.
In action, with the swimmer in the floating position described, the motor drives the propeller through the flexible shaft and thereby impels him forward. The forward movement of the swimmer causes the craft carrying the motor to be towed behind the swimmer almost unobtrusively by the same flexible shaft which serves to drive the propeller. With his arms and legs, the swimmer is able to control his depth and to steer and maneuver as he wishes with minimum of effort.
Various other objects, features and advantages of the invention are apparent from the following particular description and from an inspection of the accompanying drawing, in which:
Fig. 1 is a view showing a swimmer in water equipped with an aquatic propelling device embodying the present invention; and
Fig. 2 shows in perspective and in side view the aquatic propelling device, part of the hull of the float craft for carrying the motor being broken away to show the motor and associated parts therein diagrammatically.
Referring to the drawing, the aquatic propelling device of the present invention comprises a propeller l0 secured to a shaft ll journalled in a bracket I2 aflixed to a cylindrical case or support frame I3 encompassing the propeller. An open guard M for the propeller to protect the swimmer against possible contact with the propeller may be secured to the outlet end of the propeller support frame l3.
The propeller support frame 13 is secured to a harness comprising a chest pad I5 and a belt [6 by which the propeller It) may be strapped to the chest of the swimmer.
The power plant for the propeller It is carried in a small float or water craft [8 having a hull ill designed for stability and streamlined in a wellknown manner to afford an unbroken flow of water about said hull as said craft is towed through the water. A deck 21 protects the interior apparatus of the craft [8 against the wash of the sea.
The power plant for the propeller II] is housed in the craft [8 and comprises a small motor 23 which is preferably an internal combustion engine of standard type and more specifically a 2 or 4 cycle gasoline engine, although as far as certain aspects of the invention are concerned, it may be a small diesel engine, or an electric motor driven from a storage battery. An air inlet line 24 and an exhaust line 25 for the motor 23 have adjoining terminal sections projecting upward through the deck 2| above the wash of the sea and goosenecked at their ends to assure against ingress of sea water. A fuel tank 26 delivers fuel to the motor 23 at a rate controlled by the swimmer, as will be described. Where a gasoline motor is employed, the gasoline is delivered to the usual car'- buretor from the fuel tank 26 and mixed with the intake air delivered through the inlet line 24.
The motor 23 drives a rigid shaft 21 supported in the craft [8 by bearings in any suitable manner. Between this shaft 21 and the propeller shaft II on the outside of the craft I8 and secured to said shafts is a flexible shaft 28 of the well-known type, enclosed in a suitable flexible sheathing 38.
For controlling the motor 23 through the selective action of the swimmer, there is provided a flexible cable or wire 3|, such as the so-called Bowden line, which comprises a pull wire enclosed in a spiral wire flexible tube. This line 31 in the case of a gasoline engine controls the gas supply to the carburetor of the motor 23 and thereby controls the speed of said motor, and is desirably attached to the sheathing 39 of the flexible shaft 28 at intervals. If desired, an ordinary springpressed cord or wire may be employed for the purpose.
One end of the control line 3| is located in accessible position for convenient manipulation by the swimmer. For that purpose, the end of the control line 3! is attached to thepropeller support frame l3 by a suitable brackettt so that its control end 34 is located within convenient reach of the swimmers hand. If desired, the control line 3| may be long enough to permit the control end 34 of said line to reach the hand of a fully extended arm of the swimmer for manipulation by said hand, while said line is distended along the taut flexible shaft 28 towing the craft H3. The swimmercan thereby manipulate said control line, while in fully extended position to offer minimum of resistance to movement through the water.
If desired, the outer spiral wire flexible tube enclosing the control wire 39 may be hermetically sealed and so constructed that the line unit floats in water, and the sheathing SI for the flexible shaft 28 may be similarly sealed and constructed to allow the unit 28, 3! to float.
In operation, the swimmer with the propeller strapped to his chest, floats in water with his chest downward to submerge the propeller It. He then controls his motor 23 by appropriate manipulation of the control line 3!. The swimmer assumes a position in water in whichhis-arms and legs are fully extended as shown in Fig. l, and the operation of the propeller H! drives the swimmer through the water while in this relaxed position. As the swimmer is propelled through the water by this action, the craft I8 carrying the motor 23 is towed behind him by means of the flexible shaft 21. The length of the flexible shaft 21 is such as to tow the craft H! from two to ten yards behind the swimmer. The swimmer by moving his legs and/or arms sideways or up and down can control his depth and can turn in either direction and by manipulating the control line 3] can stop, start, slow up, speed up, or move at any steady selected speed such as is permitted by a motor boat. Because the. motor carrying craft i8 is towed behind the swimmer, he has an unobstructed view ahead of him.
What is claimed is:
Anaquatic device for propelling a swimmer through the water substantially in swimming position, said device comprising a propeller casing having straps tobe secured around the torso of the swimmer to suspend the casing beneath the swimmer, a tractive propeller mounted in said casing, a float carrying a motor, a flexible towing tube connecting said float to said casing for towing the float behind the casing and of sufiicient length to provide clearance for the body of the swimmer in advance of the float, a flexible propeller shaft extending through said tube and connecting said motor to drive said propeller in a direction to pull the swimmer and the float through the water, and a flexible motor control line extending from the float along said tube and having a control handle at its forward end attached to said casing in a position easily accessible to the swimmer for controlling the operation of the motor.
References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 1,433,563 Osterhout Oct. 31, 1922 1,586,595 Earringer June 1, 1926 FOREIGN PATENTS Number Country Date 261,673 Germany a Aug. 14,1912 424,422. Italy Aug. 18; 1947 447,394 Italy Apr. 8,, 1949 1,011,381. France June 23, 1952
US317880A 1951-11-30 1952-10-31 Aquatic device Expired - Lifetime US2691784A (en)

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Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3122609A (en) * 1958-08-01 1964-02-25 Moore Jurden Communication means for skiing apparatus
US3277858A (en) * 1966-01-27 1966-10-11 Thomas J Athey Propulsion means for diver
US3323481A (en) * 1964-05-01 1967-06-06 Ronald A Harvey Swimming appliances
US3358635A (en) * 1966-05-09 1967-12-19 Clarence E Mcree Swimmer's towing device
US3812813A (en) * 1972-11-06 1974-05-28 W Dickson Shoulder pack power unit for propelling water skis or surf boards
US4200055A (en) * 1978-04-25 1980-04-29 Hydra-Troll, Inc. Trolling driving means for boat
US6461204B1 (en) * 1999-05-25 2002-10-08 Toshiba Tec Kabushiki Kaisha Swimming assistance apparatus
EP1732806B1 (en) 2004-03-26 2015-10-28 Jlip, LLC Personal propulsion device
US9849980B2 (en) 2013-03-15 2017-12-26 Jlip, Llc Personal propulsion devices with improved balance
US11027813B2 (en) 2019-03-11 2021-06-08 Rhodan Marine Systems Of Florida, Llc Stiffening shafts for marine environments

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE261673C (en) *
US1433563A (en) * 1921-11-04 1922-10-31 Lyman P Osterhout Swimmer's motor
US1586595A (en) * 1925-08-24 1926-06-01 Jesse Ernest Jones Swimming device
FR1011331A (en) * 1952-04-28 1952-06-23 Electro Mecanique De Laveyron Improvements to electric retarders, especially for vehicles

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE261673C (en) *
US1433563A (en) * 1921-11-04 1922-10-31 Lyman P Osterhout Swimmer's motor
US1586595A (en) * 1925-08-24 1926-06-01 Jesse Ernest Jones Swimming device
FR1011331A (en) * 1952-04-28 1952-06-23 Electro Mecanique De Laveyron Improvements to electric retarders, especially for vehicles

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3122609A (en) * 1958-08-01 1964-02-25 Moore Jurden Communication means for skiing apparatus
US3323481A (en) * 1964-05-01 1967-06-06 Ronald A Harvey Swimming appliances
US3277858A (en) * 1966-01-27 1966-10-11 Thomas J Athey Propulsion means for diver
US3358635A (en) * 1966-05-09 1967-12-19 Clarence E Mcree Swimmer's towing device
US3812813A (en) * 1972-11-06 1974-05-28 W Dickson Shoulder pack power unit for propelling water skis or surf boards
US4200055A (en) * 1978-04-25 1980-04-29 Hydra-Troll, Inc. Trolling driving means for boat
US6461204B1 (en) * 1999-05-25 2002-10-08 Toshiba Tec Kabushiki Kaisha Swimming assistance apparatus
EP1732806B1 (en) 2004-03-26 2015-10-28 Jlip, LLC Personal propulsion device
US9849980B2 (en) 2013-03-15 2017-12-26 Jlip, Llc Personal propulsion devices with improved balance
US11027813B2 (en) 2019-03-11 2021-06-08 Rhodan Marine Systems Of Florida, Llc Stiffening shafts for marine environments
US11827328B2 (en) 2019-03-11 2023-11-28 Rhodan Marine Systems Of Florida, Llc Stiffening shafts for marine environments

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