RU2518994C1 - Streamlined surface - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: invention can be used in mechanical engineering when designing housings, in the textile industry when making sports apparel, in pipeline construction to reduce liquid or gas friction and in other industries. The streamlined surface 1 has protruding elements in form of teeth 2 which are pyramid-shaped or cone-shaped, and the vertices of all teeth 2 are bent towards one side.

EFFECT: reduced hydrodynamic resistance of the medium.

9 cl, 4 dwg

Description

The field of technology.

The claimed invention relates to aerohydrodynamics and can be used in mechanical engineering in the design of buildings, in the textile industry in the manufacture of suits for sports, in the construction of pipelines to reduce friction of liquid or gas, as well as in other industries.

The prior art.

Shark skin is known from the prior art, consisting of flakes representing rhombic plates that end with a spike protruding from the skin outward. The structure and strength of the scales is close to the bones, which gives reason to call it skin teeth. These teeth have a wide base, flattened shape and a very sharply defined crown. Most crowns are very sharp and fit snugly together. The pronounced relief projections on these cloves of the shark give the skin a hydrodynamic effect (“Shark Skin”, an Internet resource [1]). The disadvantage is the difficulty in the preparation and processing of shark skin, as well as the inhumanity of the preparation of shark skin, which is associated with the destruction of sharks.

The closest analogue is the coating for wetsuits (“New Olympians:“ shark skin ”and goggles,“ Internet resource [2]). on the surface of which there are numerous teeth and grooves located between rows of loops. These cloves reduce the resistance of water to body movement. The disadvantage of this coating is that it uses straight teeth that inefficiently quench turbulent turbulence.

Disclosure of the invention.

The technical result of the claimed invention is to reduce the hydrodynamic resistance of the medium.

The essence of the invention lies in the fact that the streamlined surface contains protruding elements in the form of teeth. In this case, the teeth are made pyramidal or cone-shaped, and the top of all the teeth is bent to one side.

It is advisable to arrange the teeth on the streamlined surface in an orderly manner, mainly in a checkerboard pattern.

When performing a streamlined surface of the flat direction of the bent peaks of all the teeth perform mainly parallel to each other.

According to another embodiment of a flat streamlined surface, the directions of the bent tooth peaks in each row are parallel, and the angle α between the directions of the bent tooth peaks in different rows is kept no more than 10 °.

According to the third embodiment of a flat streamlined surface, the teeth are grouped into two or more zones. Moreover, in each zone, the directions of the bent tooth peaks are parallel, and the angle α between the directions of the bent tooth peaks in different zones is no more than 10 °.

Pyramid-shaped teeth at the base can have a triangular or rhombic shape. Moreover, the bisector of the smallest acute angle of the base of each tooth is preferably located along the direction of the bend of the top of this tooth.

The conical teeth in the base may have an oval shape. In this case, the base of each tooth is preferably extended elongated along the direction of the bend of the top of this tooth.

A brief description of the drawings.

Figure 1 presents the protruding surface element, side view.

Figure 2, figure 3 and figure 4 presents possible options for the surface structure, respectively, with a triangular, rhombic and oval bases, top view.

The implementation of the invention.

The streamlined surface 1 contains protruding elements in the form of teeth 2 of a pyramidal or conical shape (figure 1). The upper free end of all teeth 2 is bent to one side. The directions of the bent peaks 3 of the teeth 2 mainly coincide with the direction of motion of the stream flowing around the surface 1.

The teeth 2 are arranged on the surface 1 in an orderly manner, mainly in a checkerboard pattern. The teeth 2, standing next to each other along the direction of motion of the stream flowing around the surface, form a row 4 (figure 2, figure 3).

When the surface 1 of the flat teeth 2 can be made so that the directions of their bent peaks 3 in the same row 4 are parallel, and the angle α between the directions of the bent peaks 3 of the teeth 2 in different rows 4 is not more than 10 °.

When the surface 1 of the flat teeth 2 can also be grouped into two or more zones 5. In each zone 5, the directions of the bent peaks 3 of the teeth 2 are parallel, and the angle α between the directions of the bent peaks 3 of the teeth 2 of different zones 5 is not more than 10 °.

The teeth 2 in the base have a rhombic (figure 3), triangular (figure 2) or oval (figure 4) shape. It is preferable to make the teeth 2 so that their cross sections have the same shape as the base.

When the base is triangular or rhombic, the bisector of the smallest acute angle of the base of each tooth 2 is located along the bend direction of the top of this tooth 2. When the base is oval, the base of each tooth is extended along the bend direction of the top of this tooth.

In the particular case of the invention, the bend of the upper free ends of the teeth 2 can begin from the base of the teeth 2.

In a particular case, the bend can also be made in the form of a tilt of the tooth 2 relative to the normal to the surface 1. In this case, the tilt is made so that the projection of the upper free peak of the tooth 2 on the surface 1 lies outside the base of the tooth 2.

The order of use of the invention.

In use, the streamlined surface 1 is oriented so that the medium moves along the surface (flowed around the surface) 1 in the same direction in which the tips of the teeth are bent (Fig. 1).

The teeth 2 reduce turbulent turbulence, thereby minimizing surface friction in the boundary layer, ultimately reducing the total resistance of the medium.

Thus, from the foregoing, it follows that in the claimed invention the claimed technical result: "reducing the resistance of the medium" is achieved due to the fact that the streamlined surface contains protruding elements in the form of teeth. In this case, the teeth are made pyramidal or cone-shaped, and the top of all the teeth is bent to one side.

In the prototype [2], straight teeth are used that do not adequately quench turbulent turbulence. In the claimed invention, this drawback is eliminated, since the design of the protrusions provides a curved upper free end, which, capturing the energy of the backward wave of the medium flow, contrasts it with the action of the attacking wave, thereby preventing the formation of vortices. As a result, the percentage of decrease in resistance increases. The author of the utility model made a prototype of the claimed utility model, tests of which confirmed the achievement of the technical result.

Industrial applicability.

The claimed invention can be manufactured using any materials on the surface of any complexity and will find wide application in industries where it is necessary to reduce the aerohydrodynamic resistance of the medium.

INFORMATION SOURCES

1. Shark skin, http://www.mj.com.ua/leather-sharks-info.htm.

2. New Olympians: “shark skin” and glasses on glue. http://www.membrana.ru/particle/2810.

Claims (9)

1. A streamlined surface containing protruding elements in the form of teeth, characterized in that the teeth are pyramidal or conical, and the top of all the teeth is bent to one side. 2. The streamlined surface according to claim 1, characterized in that the surface is flat, and the directions of the bent peaks of all the teeth are parallel to each other. 3. The streamlined surface according to claim 1, characterized in that the teeth on it are staggered. 4. The streamlined surface according to claim 3, characterized in that the surface is flat, while in each row the directions of the bent tops of the teeth are parallel, and the angle α between the directions of the bent tops of the teeth in different rows is not more than 10 °. 5. The streamlined surface according to claim 3, characterized in that the surface is flat and the teeth are grouped into two or more zones, while in each zone the directions of the bent tops of the teeth are parallel, and the angle α between the directions of the bent tops of the teeth in different zones is no more than 10 °. 6. The streamlined surface according to claim 1, characterized in that the pyramid-shaped teeth in the base have a triangular or rhombic shape. 7. The streamlined surface according to claim 6, characterized in that the bisector of the smallest acute angle of the base of each pyramid-shaped tooth is located along the direction of the bend of the top of this tooth. 8. The streamlined surface according to claim 1, characterized in that the conical teeth in the base are oval. 9. The streamlined surface according to claim 8, characterized in that the base of each cone-shaped tooth is elongated along the direction of the bend of the top of this tooth.

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