RU211944U1 - float paddle - Google Patents

Abstract

The utility model relates to equipment for propulsion of light vessels with the help of muscular strength, namely to oars for equipping recreational, tourist or sports rowing boats. The task to be solved by the claimed utility model is to increase the repulsive force of the stroke when using the oar and the stability of the athlete. The problem is solved due to the fact that in the float oar containing the body in the form of a blade and base, a longitudinal landing sleeve, according to the claimed technical solution, the body is made with the formation of an internal cavity; the upper part of the blade is made in the form of an inverse cone with the sharp part up, forming the base; the longitudinal landing sleeve on the base is made of a cylindrical shape, a cut is made on the blade, which forms a spherical curvature, the front frontal part of the blade has a longitudinal wedge-shaped protrusion. The body cavity can be filled with polyurethane foam. 2 w.p. f-ly, 1 fig.

Description

The utility model relates to equipment for propulsion of light vessels with the help of muscular strength, namely to oars for equipping recreational, tourist or sports rowing boats.

Most of the devices known from the prior art for propulsion of ships with the help of muscular power are oars with various blade shapes and materials used.

Known blade oars RU No. 83482 with attachment to the spindle at one end, the transverse end at the other end and the longitudinal stiffener, while the profile of the blade in the plan has from the attachment side of the spindle a section expanding towards the end with convex oval side edges, smoothly turning into tapering to end face section with straight side edges.

Known rowing boat paddle RU No. 49795, the blade of which has a convex-concave profile and is made of thermoplastic material. The spindle with the handle is fixed in the hub of the blade, the body of the blade is made with an internal cavity separated from the cavity of the hub by an annular shoulder against which the end of the spindle rests. In the cavity of the hub, perpendicular to the bead, there is a rib interacting with the longitudinal groove at the end of the spindle.

Known paddle for a canoe or kayak FR2501619, taken as a prototype. An oar is used to propel light craft such as canoes or kayaks and contains a paddle rigidly connected to a handle. The blade has a special shape of the working surface and has a rigid insert in the longitudinal direction, the cylindrical end of which is inserted with force into the hole provided at the end of the handle. The design may include a rigid shell containing a foam filler, in which an insert is built in, provided with an external metal edging.

The disadvantage of the prototype and other technical solutions is that they have insufficient hydrodynamic shape to perform rowing working movements, which reduces the efficiency of the rowing process and increases the energy required to move the craft at a given speed. In manual rowing, this leads to rapid fatigue of the rower and, accordingly, to a rapid loss of speed of the watercraft.

The task to be solved by the claimed utility model is to increase the repulsive force of the stroke when using the oar and the stability of the athlete.

The technical result obtained by the practical use of the proposed utility model is an increase in the repulsive force of the stroke, and as a result, a decrease in the energy consumption for rowing and a decrease in the rower's fatigue at a given speed of a light vessel (for example, a stand-up board), which is ensured by an improved hydrodynamic shape the proposed blade of the float paddle. The paddle is made with positive buoyancy, which increases the stability of the rower on the stand-up board, which allows you to safely walk in a wave, a fast current. In case of damage to the SUP board, the float paddle can serve as a rescue buoy, as it has positive buoyancy.

The problem is solved due to the fact that in a float oar containing a spindle, a body in the form of a blade and a base, a longitudinal landing sleeve, for installing the oar spindle into it, according to the claimed technical solution, the upper part of the blade is made in the form of an inverse cone with the sharp part up, forming the base; the longitudinal landing sleeve on the base is made of a cylindrical shape, a cut is made on the blade, which forms a spherical curvature, the front frontal part of the blade has a longitudinal wedge-shaped protrusion. The housing is made with the formation of an internal cavity. The body cavity can be filled with polyurethane foam.

The essence of the utility model is illustrated in Fig. 1, which shows a general view of the oar.

The float paddle contains a body made in the form of a blade 1, a base 2, and a landing sleeve 3. The body is made with the formation of an internal cavity, which can be filled with polyurethane foam. In this case, the design is made in a single product. The float paddle is made in the form of a truncated cylinder and has positive buoyancy. The upper part of the blade 1 is made in the form of an inverse cone (sharp part up), forming the base 2. In the upper part of the float oar on the base 2 there is a longitudinal landing sleeve 3 of a cylindrical shape for installing the oar spindle into it. On the blade 1, a cut 4 is made, which forms a spherical curvature. The front (frontal) part of the blade 1 has a longitudinal wedge-shaped protrusion 5. The float paddle is made of reinforced plastic (fiberglass, carbon fiber (carbon), etc.).

Float paddle works as follows. The float oar during its use on a light craft is placed in the water with each stroke. Due to the positive buoyancy of the float oar, the repulsive force of the stroke and the stability of the rower (sportsman, tourist) increase. Cut 4 increases the repulsive area of the oar blade. The base 2 in the shape of a cone serves to better buoyancy of the blade 1 when the oar comes out of the water. The longitudinal wedge-shaped protrusion 5 ensures the rigidity of the blade 1, prevents the formation of twisting of the float oar during stroke and thereby contributes to an increase in the repulsive force of the stroke.

The float paddle has been tested for strength, rigidity and performance. The paddle withstands the loads that occur during operation. It is convenient to use and does not require maintenance during operation.

Implementation example:

In accordance with the described model, a float oar was made. Reinforced plastic was used as the material. The alleged model of the oar was attached to the spindle. The tests were carried out on a sup-board. The use of the oar according to the claimed utility model showed a high repulsive force of the stroke, as well as a high buoyancy force during the stroke.

Claims (3)

1. A float paddle containing a spindle, a body in the form of a blade and a base, a longitudinal landing sleeve for installing an oar spindle into it, characterized in that the upper part of the blade is made in the form of an inverse cone with the sharp part up, forming the base; the longitudinal landing sleeve on the base is made of a cylindrical shape, a cut is made on the blade, which forms a spherical curvature, the front frontal part of the blade has a longitudinal wedge-shaped protrusion. 2. Float paddle according to claim 1, characterized in that the body is made with the formation of an internal cavity. 3. Float paddle according to claim 2, characterized in that the housing cavity can be filled with polyurethane foam.

Images