KR850008389A - Apparatus and method for generating force in a fluid - Google Patents

Abstract

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Description

Apparatus and method for generating force in a fluid

As this is a public information case, the full text was not included.

FIG. 1 shows a device which is placed in M when in wind or fluid flow at velocity V and moves in the direction A at angle α relative to the wind where drag force R and transverse drive force P are generated. Vector diagram showing propulsion force T applied.

2A is an explanatory diagram of flow around a circular body useful for illustrating the principles of the present invention.

2b and 2c are partial cross-sectional views of the hollow body showing various ways of separating the fluid classification on the outside (windward side) and the medial (windward side).

3 is a cross-sectional view of an embodiment of a prior art application of the present invention.

* Description of the main reference numerals

10: main body 10a, 10b, 10d: quadrant 11: outer classification 12: vacuum generating means 13: inner classification 14a: flap 54: penetrating area

Claims (54)

A device disposed in fluid movement in a first direction such that a force is generated in a second direction approximately transverse to the first direction, the device being round and symmetric in profile with respect to the axis of symmetry defining the angle of incidence in the first direction And a prolonged body having a rounded elongated front portion whose thickness increases from the front to the rear and a rear portion whose thickness is decreased from the front to the rear, and the maximum thickness of the profil is based on the axis of symmetry. Between the 50% and 100% of its length in a defined direction, the rear portion of the profile having an improved cross section by an arc smaller than a semicircle, the remainder of the profile being smoothly coupled to the ellipse, Is seen in the suction zone disposed on at least the rear side of the profile and on the first side of the profile where the force should be generated towards it. And a means for sucking fluid into the sieve and at least one flap disposed on the rear portion of the profile on the second side of the profile opposite to the first side and protruding with respect to the body. The apparatus of claim 1 having means for determining the position of the axis of symmetry defined by the profile of the body according to a predetermined angle of incidence with respect to the first direction. The device of claim 1, wherein the back of the profile has a cross section of a shape that is approximately quadrant. The device of claim 1, wherein the body has at least one retractable portion located in its entirety. 5. The device of claim 4, wherein the body has a retractable streamline defining a whole and at least one rigid cylindrical container defining a back. 6. The apparatus of claim 5 wherein the streamline has an inflatable container disposed outside the cylindrical container. 7. The apparatus of claim 6 wherein the vessel has a flexible wall of thermal insulation and is provided with means for introducing pressurized gas into a volume defined between the cylindrical vessel and the wall. 7. The apparatus of claim 6, wherein the vessel is double, flexible and has a preformed wall and is preformed and provided with means for introducing pressurized gas into a volume defined therein. 6. The cylindrical container according to claim 5, wherein the streamline has an arcuate cross section and has a rigid ferrule arranged symmetrically about the outer axis of symmetry of the cylindrical container and two partitions connecting the rigid ferrule to the cylindrical container, the ferrule from the cylindrical container. Means for displacing the rigid ferrule in a direction defined by the axis of symmetry between the distant operating position and the retracted position where the ferrule is adjacent to the cylindrical container. 10. The apparatus of claim 9, wherein each of the partition walls has a single wall and is provided with means for introducing pressurized gas into a volume defining the cylindrical vessel, the rigid ferrule and the flexible wall. 10. The apparatus of claim 9, wherein each of the partition walls is flexible and has a preformed double wall and is provided with means for introducing pressurized gas into a volume defined by the double wall. 6. The apparatus of claim 5, wherein the streamlined flexible beak-shaped protrusion defines a front portion of the profile of the body and passes through a symmetry axis to cause a slot effect into the cylindrical container and extends parallel to the axis of the cylindrical container; At least one flexible arrangement disposed outside the cylindrical recess between the second supports extending parallel to the second support extending on the first side of the profile and extending parallel to the first support at a predetermined distance from the cylindrical container. Device with a beak shaped protrusion. 13. The apparatus of claim 12, wherein the second support is capable of moving from one side of the profile to the other about the axis of symmetry according to the side on which the force should occur. 13. The apparatus of claim 12, wherein means are provided for displacing the flexible beak shaped protrusion relative to one support of the support to alter the surface of the protrusion. 13. The apparatus of claim 12, wherein the streamline has two flexible beak-shaped protrusions symmetrically disposed about the axis of symmetry between the first and second supports disposed symmetrically about the axis of symmetry. 15. The system of claim 14, wherein the streamlined shape is disposed on both sides of the profile with respect to the axis of symmetry outside the rigid cylindrical container and has two rigid beak shaped projections having an arcuate cross section and the protrusions being located at an operating position away from the cylindrical container. Means are provided for alternately displacing each of the rigid beak-shaped protrusions in a direction parallel to the axis of symmetry between the cylindrical container and the adjacent retracted position, the means being positioned on the first side of the profile in the operating position. A device that serves to place a firm beak protrusion and another solid beak protrusion in the retracted position. The container of claim 1, wherein the body has two or more coaxial containers, one of the containers can be non-invasive and in place with the fluid, and has one or more slots within the section defining the suction area, and the other container Devices permeable to fluids. 18. The apparatus of claim 17, wherein the body has two fluid permeable containers positioned independently of one another to allow adjustment of the width of the slot. 18. The non-invasive container of claim 17, wherein the body defines two permeable suction zones symmetrical with respect to the side of the profile, and an in-situ, shaped and non-invasive container that conceals one or the other suction zones. Having device. The device of claim 1, wherein the body has at least one non-invasive container having a gate that opens inward to define the suction zone. 2. The profile of claim 1 having two rigid flaps moveable relative to the body to occupy an inactive area that does not modify the profile of the body, the two flaps having the force generated thereon. Apparatus arranged symmetrically on the axis of symmetry of the profile so that one is in the non-operational position when the other protrudes relative to the body along the sides of the body and vice versa. 22. The apparatus of claim 21, wherein the flaps are planar and radially disposed relative to the body such that they can be retracted by sliding parallel to itself in a slot formed in the body. The apparatus of claim 1, wherein, depending on the side of the profile in which the force is to be generated thereon, two symmetrically disposed about the axis of symmetry of the profile so that one of the flaps contracts and vice versa while the other is inflated. Device having an inflatable flap. The method according to claim 1, wherein, on the side of the profile in which the force is to be generated thereon, it can move from one side of the profile to the other with respect to the axis of symmetry of the profile on the rear side of the profile and radius relative to the body. A device with a rigid flap of a single plane disposed in the direction. The apparatus of claim 21, wherein the flap can be lowered onto the body to adopt a profile of the body. The apparatus of claim 1 wherein the disk is fitted to each end of the body. 27. The apparatus of claim 26, wherein each disk is integral with the body and on its surface adjacent to the body means for inhaling fluid into the body in an area located on the first side of the profile at least on the rear of the profile. Having on the device. The apparatus of claim 24, having at least one fan that sucks fluid through the suction zone toward the interior of the body and is parallel to the longitudinal axis of the body disposed in the body with the attention of at least one end thereof. 29. The apparatus of claim 28, wherein the fan draws out one or more arc-shaped openings formed on the circumference of the disk which raises the rapeseed. A device disposed in fluid movement in a first direction such that a force is generated in a second direction approximately transverse to the first direction, the device being round and symmetric in profile with respect to a symmetry axis defining the angle of incidence in the first direction And a stretched powder having a rounded elongated front portion whose thickness increases from the front to the rear and a rear portion whose thickness decreases from the front portion to the rear, and the maximum thickness of the profile is symmetrical. Between 50% and 100% of its length in the direction defined by, the rear portion of the profile having a cross section formed by an arc smaller than a semicircle, the rest of the profile being smoothly coupled to the arc, the elongation And a non-invasive container having two permeable suction zones positioned at least on the posterior part of the profile and symmetrical about the axis of symmetry; Having a curved non-invasive container that can be retracted to conceal one of the suction zones located on the side of the profile that is opposite to the side on which the force is to be generated. Means for sucking fluid into the body and having a single, substantially planar, rigid flap projecting radially relative to the body, the flap being carried by the non-invasive container to form an assembly with the non-invasive container. And the flap is positioned on the side of the profile that is opposite to the side on which the force should be generated towards the rear of the profile, so that the direction of the force is different from that of one side of the profile. Device which can be changed by displacing to the side. A device for placement in a fluid moving in a first (fluid) direction to generate a force in a second (force) direction transverse to the first direction, the device having a round profile in a symmetrical cross section about the axis of symmetry, An elongated body having a front portion that increases in width from its tip to its maximum width along the axis of symmetry and a rear portion that decreases in width from its maximum width to its end along the axis, so that the fluid can flow smoothly beyond the body surface Means symmetrically disposed on both sides of the rear side of the profile and the axis of symmetry to control the boundary layer of the fluid above the body surface, extending outwardly from the body and positioning the profile to locations on both sides of the axis of symmetry; The flap adjustable above the rear portion and the boundary layer control means on one axis of the symmetry axis, And means for adjusting the flap to a position at one side, the rear portion of the profile having a cross section formed by an arc smaller than a semicircle, and the rest of the profile being smoothly coupled to the arc. 32. The apparatus of claim 31 wherein the profile is elongated and the front portion is longer than the rear portion in the direction of the axis of symmetry. 33. The apparatus of claim 32, wherein the maximum width of the profile in the transverse direction to the axis of symmetry is 0.5 to 1.0 times the length of the profile along the axis. 31. The apparatus of claim 30, wherein the flap has a length that is 0.5 to 1.0 times the radius of curvature of the arc. 31. The apparatus of claim 30, wherein said portion makes up only a portion of said profile. 36. The apparatus of claim 35, wherein the rear portion is approximately quadrant shaped and the remainder of the profile is approximately partially elliptical. 32. An apparatus according to claim 31 wherein said body is a supply and said boundary layer control means comprises two symmetrically disposed fluid permeable regions on said body located at least at the rear of said profile, on each side of said axis of symmetry. . 38. The apparatus of claim 37, wherein said boundary layer control means also comprises means for selectively extruding fluid into the body through one or the other of said infiltration zones. 38. The apparatus of claim 37, further comprising an adjustable curved non-invasive container for covering one or the other of the infiltration zones on the side of the profile, opposite the second direction. 40. The apparatus of claim 39, wherein the flap adjusts with the container. An apparatus for placement in a fluid moving in a first direction to generate a force in a second direction transverse to a first direction, the apparatus comprising: an elongated body having a rounded profile having a round cross section symmetric about an axis of symmetry; A flap that extends outwardly from the body along the rear portion on one side of the front portion, wherein the profile extends from the tip along the axis of symmetry to the maximum width and from the maximum width to its end along the axis; The front portion extends and is longer than the rear portion in the direction of the axis of symmetry, and the rear portion of the profile has a cross section formed by an arc smaller than a semicircle and the rest of the profile is smoothly coupled to the arc. Apparatus having a shape. 42. An apparatus as in claim 41 wherein said back section is formed by an arc smaller than a semicircle. 42. The device of claim 41, wherein the maximum width of the profile in the transverse direction to the axis of symmetry is 0.5 to 1.0 times the length of the profile along the axis. 42. The apparatus of claim 41, further comprising means for selectively setting the flap on both sides of the axis of symmetry. 43. The apparatus of claim 42 wherein the flap has a length of 0.5 to 1.0 times the radius of curvature of the arc. 43. The device of claim 42, wherein the profile has a shape of approximately elliptical arcs and a partial ellipse smoothly coupled thereto. An apparatus for placement in a fluid moving in a first direction to generate a force in a second direction transverse to a first direction, the apparatus comprising: an elongated body having a rounded profile having a round cross section symmetric about an axis of symmetry; A flap that extends outwardly from the body along the rear portion on one axis of the front portion, wherein the profile is increased from the tip along the axis to the maximum width along the symmetry axis and from the maximum width to the end along the axis; Having a decreasing rear portion, the front portion extending and longer than the rear portion in the direction of the axis of symmetry, the rear portion of the profile having a cross section formed by an arc smaller than a semicircle, the rest of the profile being smoothly coupled to the arc; A device with a contoured shape with an angle of incidence greater than 30 ° between the fluid direction and the axis of symmetry. How the operation of the apparatus having the steps: The method of claim 47, wherein the angle is between 30 ° and 35 °. 48. The method of claim 47, further comprising positioning the flap to have an angle of up to 45 ° with respect to the axis of symmetry. The method of claim 47, wherein the flap angle is between 35 ° and 45 °. Apparatus for being disposed within a fluid moving in a first (fluid) direction to generate a force in a second (force) direction transverse to the first direction having a boundary layer control means comprising a fluid permeable zone on the body. An elongated body having a rounded profile that is symmetrical about the axis of symmetry, with a fold that increases in width from its tip along its axis to a maximum width and a rear portion that decreases in width from its maximum width along its axis along the axis; Means for symmetrically disposed on both sides of said profile and said axis of symmetry to control said boundary layer of said fluid above said body surface such that said fluid flows smoothly beyond said body surface; Flaps which extend outwardly and which can be adjusted above the profile rearward to positions on both sides of the axis of symmetry and the On the one side of the axis of symmetry the boundary layer control means is incapacitated and has means for adjusting the flap to a position on the one side, the rear portion of the profile having a cross section formed by an arc smaller than a semicircle, and the rest of the profile A method of operating a device having a shape smoothly coupled to the arc, comprising: drawing a fluid through a permeable zone to generate a 0.1 to 0.2 energy consumption factor (C _A ). A device for placement in a fluid moving in a first (fluid) direction to generate a force in a second (force) direction transverse to a first direction having a permeable region on its body, the device being symmetric about an axis of symmetry. An elongated body having a round profile in the cross section, the front portion having a width increasing from the tip to the maximum width along the axis of symmetry and a rear portion decreasing the width from the maximum width to its end along the axis, the fluid being the body Means symmetrically disposed on both sides of the rear side of the profile and the axis of symmetry to control the boundary layer of the fluid above the body surface so as to flow smoothly beyond the surface, extending outwardly from the body and A flap that can be adjusted above the profile rearward to a position on both sides of the axis of symmetry and the boundary on one side of the axis of symmetry A means for disabling the control means and adjusting the flap to a position on the one side, the rear portion of the profile having a cross section formed by an arc smaller than a semicircle, and the rest of the profile is smoothly coupled to the elder A method of operating a device having an indented shape, comprising: operating the device to have an angle of incidence of at least 30 ° between a fluid direction and an axis of symmetry, operating the flap to have an angle of 35 ° to 45 ° with respect to the axis of symmetry and the permeability Adjusting the suction to withdraw fluid through the zone and generate an energy expenditure coefficient of 0.1 to 0.2. ※ Note: The disclosure is based on the initial application.