RU2033225C1 - Fin for speed swimming - Google Patents

Abstract

FIELD: speed swimming. SUBSTANCE: fin has flexible blade made hollow of two chambers. Holes are made in lateral partition for communication of chambers. Nipple serves for preliminary supply of liquid to upper chamber. Rubber insert is arranged on fin area between galosh and blade. Made in rubber insert are inclined channels narrowing to lower surface. Angle of inclination amounts to 30 deg. Ratio of areas of inlet and outlet of channels are 2:1. Channels are communicated with additional holes. EFFECT: higher reactive force of fin due to reduced hydrodynamic resistance. 2 cl, 2 dwg

Description

 The invention relates to diving equipment, in particular to means for moving a diver, is an improvement of the well-known flipper [1] and can be used in the Navy, SA and underwater athletes.

 The known fins contain a number of holes in the elastic blade, and in the intercostal space on each surface rubber racks are welded in a checkerboard pattern. Then all this along the contour of the working part and stiffeners is glued with an elastic shell (latex, rubber) to form the upper and lower chambers. Liquid is pumped through the nipple into the formed chambers.

 The disadvantages of this flipper include increased hydrodynamic resistance to water flow.

 The aim of the invention is to reduce the hydrodynamic resistance to water flow, the creation of additional reactive thrust.

 Figure 1 shows the proposed flipper, a longitudinal section; in Fig.2 sections aa and bb in Fig.1.

 The fin consists of galoshes 1, a rubber insert with two rectangular channels 2, separated by a longitudinal partition 3, and an elastic blade 4, with the upper 6 and lower 7 chambers separated by a transverse partition 5. The partition 5 has longitudinal holes 8, transverse holes 9 and a nipple 10. At the bottom of the rectangular channels 2 there are two round holes 11.

 Each chamber 6 and 7 is equipped with ribs 12, 13, 14, 15 stiffness and rubber struts 16 (200 on each side), perpendicular to the partition and connecting this partition with an external elastic coating 17 and 18.

 Last works as follows.

During the movement of the diver when the fins move upward, the rectangular channels 2 are filled with water. When the fins move downward, water is compressed in rectangular channels 2 and pushed to the side opposite to the diver’s movement, which creates an additional impulse (push) to the diver. To prevent water from being pushed out in the direction of the diver’s movement, two round openings 11 serve, which excess water from channels 2 is pushed into the environment. Further, the directed water flow (after passage of channels 2) enters the elastic fins blade, which creates a certain boundary layer of fluid on the outer and inner surfaces of the blade. The fluid inside the chambers 6 and 7 freely circulates through the openings 8 and 9, which makes the surface of the blade elastic. This allows him to accurately copy fluctuations in the directional flow of water after rectangular channels. The proposed dimensions of the channels 2 of rectangular shape, its inclination angle ^of about 30, as well as input and output ratio of 2: 1 provide reduced turbulence along the blade, reducing the coefficient of resistance of the hydrodynamic fins.

 The positive effect of the application of the proposed device compared to the base one is to reduce the coefficient of hydrodynamic resistance, reduce the turbulence of the flow, which allows to increase the jet thrust of the fins, resulting in an increase in the speed of movement of the diver under the same physical exertion.

Claims (2)

1. A FAST FOR SPEED SWIMMING, comprising a galoshes connected with an elastic hollow blade divided by a partition into upper and lower chambers, communicating with each other through openings in the partition, a nipple for supplying fluid to the upper chamber and stiffeners mounted on internal the surfaces of the chambers, characterized in that, in order to reduce hydrodynamic resistance to water flow, between the galoshes and the elastic blade there is a rubber insert with two tapering to the bottom surface asta channels rectangular shape with an inclination angle of 30 ^o, wherein each channel entrance width equal to the distance between adjacent ribs, and a length equal to the distance between the blade and galoshes, wherein the entrance area and exit channels correlate as 1 February.  2. The fins according to claim 1, characterized in that the rubber insert has round holes located under the channels at an angle to their longitudinal axis for additional communication of their cavities with water.

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