RU2623422C1 - Belt-blade device for producing flow - Google Patents

Abstract

FIELD: transportation.

SUBSTANCE: belt-blade device for producing a flow comprises of blades which move along the trajectory of a moving close-loop belt placed over the rotating wheels. The blade position relative to the direction of movement is set by a blade control system. Each blade consists of a blade shaft which is fixedly secured to the blade ends, of close-loop belts on the outer surface of which bearings are mounted, in which the rotating shafts of the blades, driving and driven wheels, which have close-loop belts over them, a control system setting the position of the blades relative to the direction of their movement and kinematically connected to the shafts of the blades, a protective outer casing, a frame for fixing units of the belt-blade device for producing a flow.

EFFECT: obtaining a directed flow of gas or liquid with a controlled difference in the linear velocities of the blade points.

9 cl, 6 dwg

Description

The present invention relates to propulsors used in gases or liquids.

Known propeller-screw, which is made of blades, each of which is fixed with one end to a common axis. A force acting on the blades rotating around a common axis is caused by a gas or liquid flow directed from the plane of rotation of the blades.

Closest to the claimed technical solution is a propeller-screw. The disadvantage of this technical solution is the fatal difference in the linear velocities of the points of the blade depending on the radius of the point relative to the axis of rotation, which is obvious from expression (1).

In the expressions (1) - (5), the following notation is used:

V ₁ is the linear velocity of the point of the propeller blade,

V ₂ - the speed of the blade with the assumed rectilinear motion of this blade along the tangent of the greatest circumference of the rotation of the screw,

f is the rotational speed of the screw,

x is the radius of the location of the point of the blade,

F ₁ - the force acting on the rotor blade,

F ₂ - the force acting on the blade with the assumed rectilinear motion of this blade along the tangent of the largest circle of rotation of the screw,

C is the dimensionless coefficient of proportionality,

r is the density of the gas or liquid,

h is the width of the blade,

L is the length of the blade,

P is the pressure on the plane caused by the flow of gas or liquid.

The irreparable difference in the linear velocities of the points of the blade causes an uneven distribution along the length of the blade of the force acting on the blade, the value of which is found from the Bernoulli equation, assuming that the length of the blade is much greater than the width, which is constant over the entire length, and taking into account that

moreover, with the alleged movement of this blade rectilinearly along the tangent of the largest circumference of the rotation of the screw and with linear velocity at the tangent point of tangency

the force acting on this blade will be equal to

and its distribution along the length of the blade evenly. When comparing expressions (3) and (5), it is obvious that by reducing the length and, consequently, the area of the blade moving rectilinearly by three times, the force acting on it will be no less than the force acting on the rotating blade. Using the result of this comparison in practice would lead to a reduction in the area occupied by the mover, in comparison with the mover-screw.

The problem to which the invention is directed, is to obtain a directed flow of gas or liquid with a controlled difference in the linear speeds of the points of the blade, increasing the level of safety.

The problem is solved due to the fact that in the band-blade device for receiving the flow, the blades move along the trajectory of a moving closed belt on which these blades are mounted, worn on rotating wheels, and the position of the blades relative to the direction of their movement is set by the blade control system, except for this the blade device for receiving the flow is equipped with fixed walls located along the rectilinear movement of the ends of the blades, and the ends of the blades are movable seals with respect to the fixed walls, which eliminates the flow of gas or liquid between the fixed walls and the ends of the blades and leads to the effect of the elongation of the wing, and the fixed walls are made of three parts with the formation of cracks necessary to advance the shaft of the blades, in addition, the distance with the counter-rectilinear movement of the blades between the nearest points of oncoming blades does not exceed the length of the chord of the blade, in addition, when changing the direction of movement of the blades at the time of a rigid installation of the angle of inclination between the horde of the blade and the direction of movement of the forward or backward, the effect of a sharp introduction of the wing into the flow begins to act, in addition, the rotation of the blade from the position for direct movement to the position for reverse movement is caused by the effect of the incident flow caused by the reverse movement of the blades and the interaction of the sliding lever of the reverse movement with the reverse direction movement, and the rotation of the blade from the position for the reverse movement to the position for the direct movement leads to the action of the difference in the speeds of the incoming flows, you caused by the movement of this blade around the driven wheels and the interaction of the sliding lever of direct movement with the direct motion guide, in addition, the band-blade device for receiving a stream contains flow guides that control the direction of gas or liquid flow when exiting this device, in addition to this band-blade device for of receiving the flow may have the installation of additional intermediate cross members, struts and beams, as well as supporting intermediate wheels between straight sections s tapes increases the mechanical rigidity of the entire device.

In a band-blade device for receiving a stream, each blade is a single-wing rectangular wing with two slotted flaps constantly extended, the spar is assigned to the blade shaft installed at a distance of 0.33 blade chords from the leading edge of the blade in the middle of the shortest distance between the points of the upper and lower part of the profile moreover, the leading edge of the blade is at the intersection of the chord of the blade with a rounded end of the blade, and the rear edge of the blade is at the intersection of the chord of the blade with a pointed at the blade end, power blade ribs are fixed on the blade shaft, on which both the main profile and constantly extended slotted flaps are mounted, the sliding lever is perpendicular to the blade shaft, the heel of which is parallel to the blade shaft at the middle of the blade’s edge, the sliding lever is perpendicular to the blade shaft reverse movement, the heel of which is located in the middle of the leading edge of the blade parallel to the shaft of the blade, and the heels of the sliding levers of forward and reverse movement, which are cylindrical with rim rods fixed at the ends of these levers by the midpoints of cylindrical surfaces perpendicular to their levers, in addition to this, on one end of the shaft of the blade there is a forward movement belt lever at an adjustable angle from 0 ° to 90 ° between the chord of the blade and the direction opposite to the direction of direct rectilinear movement, and the tape lever the reverse movement is fixed to the other end of the blade shaft at an adjustable angle from 0 ° to 90 ° between the chord of the blade and the direction of the reverse rectilinear movement, and the length of the levers of the tape is straight of the motion and levers of the reverse movement tape are equal and amount to 0.33 lengths of the chord of the blade, and the heels of these levers, having a cylindrical shape, are parallel to the shaft of the blade above the outer surface of the closed tapes, and the length of each of them is equal to the sum of the width of the closed tape and 0.1 of the blade length , in addition, the length of the shaft of the blade is equal to the sum of 1.0 length of the blade, 0.2 of the length of the blade, designed to install fixed walls, 2.0 of the width of the flexible tape, 0.2 of the length of the blade, designed to install the levers of the tape forward and reverse motion, and ends the blades, which are movable seals, are covered with a sealing layer of elastic, easily deformable material with a low coefficient of friction between this material and the material of the fixed walls.

The tape-vane device for receiving a stream contains a frame consisting of two parallel bases of equal length, made of pipes connected at a distance equal to 1.0 of the blade length from each other, symmetrically and perpendicular to the bases, two equal in length to 1.2 lengths the shaft of the blade with cross members made of pipes located from the ends of the bases at a distance of 1.0 chord of the blade, in addition, four racks are installed on the frame, made of pipes with a length of 1.6 chord lengths of the blade, fixed with perpendicular midpoints Jarno plane of the frame to the ends of cross members, wherein the ends of each two uprights are connected, parallel crossbars, the upper and lower beams, made of pipes.

In the tape-blade device for receiving the flow, at the ends of the bases of one end of the frame, the outer bearings of the rolling bearings are fixedly mounted, the inner rings of which are fixedly connected to the shaft of the two drive wheels, which are mounted motionlessly on the shaft symmetrically outside the bases at a distance of 1.2 blade lengths from each other, and at the ends of the bases of the other end of the frame, the axles of two driven wheels with rolling bearings are installed outside the bases, the inner race of which is stationary relative to the axes, and the outer race of these bearings pnikov are fixed symmetrically to the bases of the driven wheels at a distance of 1.2 blade lengths from each other, and the plane in which there is one driving wheel and one driven wheel is parallel to the plane in which there are another driving wheel and another driven wheel, and the common axis of symmetry of the leading wheels and the general axis of symmetry of the driven wheels are parallel, and the axis of symmetry of the wheels are perpendicular to the bases, while on the driving and driven wheels, the diameter of which is 0.66 of the length of the chord of the blade and the width of the rim of the wheels is less than or equal to the width of of a bent tape, respectively closed tapes are stretched, on the outer surface of which, at a distance of 1.2 lengths of the chord of the blade from each other, sleeve bearings are mounted in which the shaft of the blades rotates freely, and the closed tapes are either chains or toothed belts or smooth belts wedge-shaped, rounded or flat sections, and the surface of the wheel rim corresponds to the type of closed tapes.

The tape-blade device for receiving the flow contains, on screw height adjusters installed in the middle of the lower beams, a direct motion guide fixed from its straight section made of a pipe that starts at the beginning of the spiral section, whose center is on the axis of symmetry of the driven wheels in a plane perpendicular to this axis in the middle of the driven wheels, a larger radius, a smaller radius of which is connected to the rectilinear section, and ends with the end of the rectilinear section parallel to the closed tapes, and the end of the direct motion guide, which is the end of the rectilinear section, is located at a distance of 1.0 length of the chord of the blade from the axis of symmetry of the driving wheels, and the spiral section of the direct motion guide, whose greater radius is greater than the radius of the circle of the wheels, serves for smooth rotation of the blades in position for direct rectilinear movement, in addition to the screw height adjusters installed in the middle of the crossbars, a reverse movement guide fixed by its rectilinear section made pipe, which begins with the beginning of the spiral section, the center of which is located on the axis of symmetry of the driving wheels in a plane perpendicular to this axis, in the middle of the driving wheels, of a larger radius, the smaller radius of which is connected to the straight section, and ends with the end of the straight section parallel to the closed tapes, moreover, the end of the reverse motion guide, which is the end of the rectilinear section, is located at a distance of 1.0 lengths of the chord of the blade from the axis of symmetry of the driven wheels, and the spiral section of the guide atomic movement, a larger radius of which is smaller than the radius of the circumference of the wheels, serves to smoothly turn the blades in the position for reverse movement, and all the ends of all the guides have a rounded shape.

In a tape-blade device for receiving a flow, each of two identical fixed walls consists of three parts, namely, two identical extreme parts, fixed with brackets to the lower and upper beams, respectively, and one middle part, fixed on the cross members, and between the middle part and extreme parts two slots are formed for the passage of the shaft of the blades, while all three parts are in the same plane with the plane of movement of the ends of the blades, and the total height of the wall is equal to the length of the rack, and the length is and the distance between the axes of symmetry of the driven and driving wheels, and the ends of the fixed walls are bent for smooth interaction with the ends of the blades.

In the band-blade device for receiving the flow, the protective outer casing is formed by connecting two protective barriers and two flow reflectors, and the protective barriers have the form of rectangles with a length equal to the sum of the distance between the symmetry axes of the driving and driven wheels and 2.0 blade chord lengths, and a height equal to the length of the uprights, while the upper corners of the protective fences are cut along a circular arc of radius 1.0 of the length of the chord of the blade centered on the surface of the protective fences at the point of intersection of their axis of symmetry of the followers and driving wheels, while the flow reflectors are fixed along the lateral edges of the guards installed on the racks, from the lower corners of the guards to the planes of the axes of symmetry of the driving and driven wheels perpendicular to the bases, in addition, the guards have openings for the passage of the shaft of the driving wheels, and the outer protective the housing is additionally an element of mechanical rigidity of the entire device.

In a tape-blade device for receiving a flow to protective barriers, flow guides that control the direction of gas or liquid flow when exiting this device are movably fixed on the axes and pivotally connected by rods, while the length of the flow guides is equal to the length of the protective barriers, the height is equal to the length of the chord the blades.

The tape-blade device for receiving the stream contains a control system that determines the position of the blades relative to the direct movement, namely from the line of the start of movement around the driven wheels to the line of start of movement around the drive wheels, and the straight-line section of direct movement is at the bottom of the device, and the front edge of the blade moves in front the trailing edge of the blade, and the reverse movement, namely, from the start line around the drive wheels to the start line around the driven wheels, and a straight section the fraternal movement is located at the top of the device, and the trailing edge of the blade moves ahead of the leading edge of the blade, the control system consists of the following structural elements of the tape-blade device for receiving the flow, namely from the outer surfaces of the rectilinear sections of the closed tapes, from the levers of the forward motion tape, the reverse levers of motion, sliding levers of forward motion, directing direct motion, sliding levers of reverse motion, guiding reverse motion, and as a result of and structural elements that are part of the control system, namely, in the interaction of the heel of the sliding lever of direct movement with the direct motion guide, the blade takes a non-rigid fixed position for direct movement before the start of the rectilinear direct movement, and at the beginning of the rectilinear direct movement at the moment of the heel lever lever interaction of movement with the outer surface of the rectilinear section of the closed tape there is a rigid fixation of the position of the blade for direct movement at a fixed angle attack, in addition, at this moment, the effect of abruptly introducing the wing into the flow acts, and also in the interaction of the heel of the sliding return lever with the reverse movement guide, the blade does not take a rigidly fixed position for the reverse movement before the beginning of the rectilinear reverse motion, but when the rectilinear reverse motion begins the moment of interaction of the heel of the lever of the reverse movement tape with the outer surface of the rectilinear section of the closed Lena there is a rigid fixation of the position of the blade for the reverse Vision at a fixed angle of attack, except that in this moment acts effect of making sharp wing stream.

At the beginning of the direct movement, the blade begins to move in a circle, while the interaction of the return belt lever with the outer surface of the closed tape and the interaction of the sliding return lever with the reverse movement guide are stopped, since the heel of this lever passes the end of this guide, and the blade under the action of the difference in speeds oncoming flows and the heel of the sliding lever of the direct movement with the direct motion guide, continues to move around the circle, taking a non-rigid fi a fixed position for direct movement to the beginning of a rectilinear direct movement, at which, at the moment of interaction of the heel of the lever of the tape of direct movement with the outer surface of the closed tape, a rigid fixation of the position of the blade for direct movement occurs and the effect of a sharp introduction of the wing into the flow acts, with further rectilinear direct movement of the blade under a fixed angle of attack there is a gas or liquid flow directed from the plane of motion of the blade, when the interaction of the heel of the sliding lever stops After the heel passes the end of the direct motion guide, under the action of the incident flow caused by the oncoming motion of the reverse motion blades, and the interaction of the heel of the sliding reverse motion lever with the reverse motion guide, the blade moves around the circumference of the drive wheels for a non-rigidly fixed position for the reverse motion until the beginning of the rectilinear reverse movement, in which at the moment of interaction of the heel of the lever of the reverse movement tape with the outer surface of the closed tape in there is a rigid fixation of the position of the blade for the reverse movement and the effect of a sharp introduction of the wing into the flow acts, with a further rectilinear reverse movement of the blade at a fixed angle of attack, a gas or liquid flow arises directed from the plane of motion of the blade, when the interaction of the heel of the sliding lever of the reverse movement and the return guide movement, after this heel passes the end of the reverse motion guide, the direct movement of the blade begins, and the ends of the blades are movable seals between the blades and the fixed walls, which eliminates the flow of gas or liquid between the ends of the blades and the fixed walls and leads to the effect of the elongation of the wing, in addition, the distance with the counter rectilinear movement of the blades between the nearest points of the oncoming blades does not exceed the length of the chord of the blade, which causes an effective obtaining a stream exiting from a device resulting from the interaction of a stream emanating from blades moving in the opposite direction with a stream emanating from Opasms moving forward.

Achievable technical result consists in obtaining a directed flow of gas or liquid with a controlled difference in speed of the points of the blade, increasing the level of safety.

The invention is illustrated by drawings, which do not cover and, moreover, do not limit the entire scope of the claims of this technical solution, but are only illustrative materials of a particular case of execution.

In FIG. 1 LeUK (side view) with control system elements highlighted by thickened lines.

In FIG. 2 LeUK (top view) with control system elements highlighted by thickened lines.

In FIG. Figure 3 is an isometric image of a blade with control system elements highlighted by thickened lines.

In FIG. 4 isometric image of LeUK.

In FIG. 5 is a photograph of a manufactured and operational LeUK, the closed tape of which has a circular cross section.

In FIG. 6 is a photograph of a manufactured and operational LeUK, the closed tape of which is serrated and has a rectangular section.

The tape-blade device for receiving stream 1 contains blades 2, 3, 4, 5, 6, 7, 8, 9, and each blade is a single-wing rectangular wing with two slotted flaps constantly extended, the spar shaft is assigned to the blade shaft 10, 11, 12 , 13, 14, 15, 16, 17, mounted at a distance of 0.33 of the chord length of the blade L1 from the leading edge of the blade in the middle of the shortest distance between the points of the upper and lower part of the profile, the front edge of the blade being at the intersection of the chord of the blade with a rounded end of the blade and the trailing edge of the lo Asti is located at the intersection of the chord of the blade with the pointed end of the blade, on the shaft of the blade 16 are fixed power ribs of the blade, on which the main profile is installed, and constantly extended slotted flaps, perpendicular to the shaft of the blade 16, a sliding forward lever 28, the heel of which is located in the middle of the rear edge the blade parallel to the blade shaft, perpendicular to the blade shaft, a sliding return lever 30, the heel of which is located in the middle of the leading edge of the blade parallel to the blade shaft 16, and the heel forward and reverse motion levers, which are cylindrical rods, are fixed at the ends of these levers by the midpoints of cylindrical surfaces perpendicular to their levers, in addition, on one end of the shaft of the blade 16, the lever of the forward motion belt 26 is fixed at an adjustable angle from 0 ° to 90 ° between the chord of the blade and the direction opposite to the direction of direct rectilinear movement, and the lever of the reverse movement tape 27 is fixed to the other end of the shaft of the blade 16 at an adjustable angle from 0 ° to 90 ° between the chord of the blade and is directed by reverse rectilinear motion, the lengths of the levers of the forward motion tape and the levers of the reverse motion tape are equal to 0.33 of the chord of the blade L1, and the heels of these levers having a cylindrical shape are parallel to the shaft of the blade above the outer surface of the closed tapes 18, 19, and the length of each heel is equal to the sum of the width of the closed tape and 0.1 of the length of the blade L2, in addition, the length of the shaft of the blade 16 is equal to the sum of 1.0 of the length of the blade L2, 0.2 of the length of the blade L2, designed to install fixed walls 34, 35, 2.0 of the flexible width tape, 0.2 lengths l A2 mouth, intended to be mounted tape levers forward and reverse movement, and the ends of the blades that are movable seals, coated with a sealing layer of resilient readily deformable material having a small coefficient of friction between these pictures and still pictures walls.

The tape-blade device for receiving stream 1 comprises a frame consisting of two parallel bases of equal length, made of pipes connected at a distance equal to 1.0 of the length of the blade L2 from each other, symmetrically and perpendicular to the bases, two equal in length of 1.2 lengths the shaft of the blade 16 cross members made of pipes located from the ends of the bases at a distance of 1.0 length of the chord of the blade L1, in addition to the frame there are four racks made of pipes length 1.6 of the length of the chord of the blade L1, fixed by their midpoints perpendicular to the plane of the frame to the ends of the cross members, with the ends of each two posts connected, parallel to the cross members, by upper and lower beams made of pipes.

The tape-blade device for receiving the stream 1 comprises, at the ends of the bases of one end of the frame, fixedly mounted outer bearings of rolling bearings, the inner rings of which are fixedly connected to the shaft 38 of two driving wheels 20, 21 mounted stationary on the shaft symmetrically outside the bases at a distance of 1.2 the length of the blade L2 from each other, and at the ends of the bases of the other end of the frame from the outside of the bases, the axles of two driven wheels 22, 23 with rolling bearings, the inner race of which are stationary relative to the axes, are mounted, but the outer cages of these bearings are mounted symmetrically to the bases of the driven wheels at a distance of 1.2 blade lengths from each other, and the plane in which one drive wheel and one driven wheel are parallel to the plane in which the other drive wheel and another driven wheel are located, and the common the axis of symmetry of the driving wheels and the general axis of symmetry of the driven wheels are parallel, and the axis of symmetry of the wheels are perpendicular to the bases, while on the driving and driven wheels, the diameter of which is 0.66 of the length of the chord of the blade and the width of the rim of the wheel less than or equal to the width of the closed tape, respectively closed tapes 18, 19 are stretched, on the outer surface of which at a distance of 1.2 lengths of the chord of the blade from each other are installed bushings of bearings, in which the shafts of the blades 16 rotate freely, and the closed tapes are either chains either toothed belts or smooth belts of wedge-shaped, rounded or flat sections, and the surface of the wheel rim corresponds to the type of closed tapes.

The tape-blade device for receiving the flow 1 comprises, on screw height adjusters installed in the middle of the lower beams, a direct motion guide 31 fixed from its straight section and made of a pipe that starts at the beginning of the spiral section whose center is on the axis of symmetry of the driven wheels 22, 23 in a plane perpendicular to this axis, in the middle of the driven wheels 22, 23, of a larger radius, a smaller radius of which is connected to the rectilinear section, and ends with the end of the rectilinear section, parallel closed tapes, and the end of the direct motion guide, which is the end of the rectilinear section, is located at a distance of 1.0 of the chord length of the blade L1 from the axis of symmetry of the driving wheels 20, 21, and the spiral section of the direct motion guide 31, the larger radius of which is greater than the radius of the circumference of the wheels, serves for smooth rotation of the blades in the position for direct rectilinear movement, in addition to the screw height adjusters installed in the middle of the crossbars, the reverse guide fixed with its straight section a movement 33 made of a pipe that starts at the beginning of a portion of the spiral whose center is on the axis of symmetry of the driving wheels 20, 21 in a plane perpendicular to this axis, in the middle of the driving wheels 20, 21, of a larger radius, a smaller radius of which is connected to the straight section, and ends with the end of the rectilinear section parallel to the closed tapes, and the end of the reverse motion guide, which is the end of the rectilinear section, is at a distance of 1.0 length of the chord of the blade L1 from the axis of symmetry of the driven wheels 22, 23, and -sectoral portion guide backward movement, a larger radius smaller than the radius of the circumference of the wheels, serves to smooth the rotation of the blades in the position for reverse movement, the ends of all guides are rounded.

The tape-blade device for receiving flow 1 contains two fixed walls 34, 35 and each of two identical fixed walls consists of three parts, namely two identical extreme parts, fixed with brackets to the lower and upper beams, respectively, and one middle part mounted on the cross members, and between the middle part and the extreme parts two slots are formed for the passage of the shafts of the blades 16, while all three parts are in the same plane with the plane of movement of the ends of the blades, and the total height the wall is equal to the length of the rack, and the length is equal to the distance between the axes of symmetry of the driven and driving wheels, and the ends of the fixed walls are bent for smooth interaction with the ends of the blades.

The tape-blade device for receiving the flow 1 comprises a protective outer casing 43, the protective outer casing is formed by connecting two protective barriers 39, 40 and two reflectors of the flows 36, 37, and the protective barriers have the shape of rectangles with a length equal to the sum of the distance between the axes of symmetry of the leading and driven wheels and 2.0 chord lengths of the blade L1, and with a height equal to the length of the uprights, while the upper corners of the guards 39, 40 are cut along an arc of a radius of 1.0 radius of the chord of the blade L1 centered on the surface of the guards 39, 40 at the point of intersection of the driven and driving wheels with their axis of symmetry, while the flow reflectors 36, 37 are fixed along the lateral edges of the guards installed on the uprights, from the lower corners of the guards to the planes of the axes of symmetry of the driving and driven wheels perpendicular to the bases, except This protective fence has openings for the passage of the shaft of the drive wheels 38, and the protective outer casing is additionally an element of mechanical rigidity of the entire device.

The tape-blade device for receiving a stream contains flow guides 41, 42 movably fixed on the axles to the protective guards 39, 40 and pivotally interconnected by rods, controlling the direction of the gas or liquid flow when exiting this device, while the length of the flow guides is equal to the length of the protective fences, the height is equal to the length of the chord of the blade L1.

The tape-blade device for receiving the stream 1 contains a control system 24 and this control system that determines the position of the blades relative to direct movement, namely from the line of the start of movement around the driven wheels 22, 23 to the line of the start of movement around the drive wheels 20, 21, and the straight section direct movement is at the bottom of the device, and the leading edge of the blade moves ahead of the trailing edge of the blade, and reverse movement, namely from the line of the start of movement around the driving wheels 20, 21 to the line of the start of movement around the driven x wheels 22, 23, and the rectilinear section of the reverse movement is at the top of the device, and the trailing edge of the blade moves in front of the leading edge of the blade, the control system consists of the following structural elements of the tape-blade device for receiving the flow, namely from the outer surfaces of the rectilinear sections of closed tapes 18 , 19, from the levers of the forward movement tape 26, the levers of the reverse movement tape 27, the sliding levers of the forward movement 28, the directing guide 31, the sliding levers of the reverse movement 30, forming the reverse movement 33, at the same time, at the beginning of the direct movement, the blade begins to move in a circle, while the interaction of the lever of the reverse movement tape 27 with the outer surface of the closed tape 19 and the interaction of the sliding lever of the reverse movement 30 with the reverse movement guide 33, since the heel of this lever passes the end of this guide, and the blade under the influence of the difference in speed of incident flows and the interaction of the heel of the sliding lever of direct movement 28 with the direct movement guide 31 longitudinal AET circular motion, taking no rigid fixed position for forward motion (Fig. 1, the blade 6) before the beginning of the straightforward direct movement, at which at the moment of the heel of the lever of the lever of the tape of direct movement 26 with the outer surface of the closed tape 18 there is a rigid fixation of the position of the blade for direct movement (Fig. 1, blade 7) and the effect of a sharp introduction of the wing into the stream, with further rectilinear forward motion of the blade at a fixed angle of attack U1, a gas or liquid flow occurs, directed from the plane of motion of the blade, when the heel of the sliding lever of the direct motion stops 26 after passing through the heel of the end of the direct motion guide 31 (Fig. 1, blade 9), under the action of the incident flow caused by the oncoming movement of the reverse motion blades, and the interaction of the heel of the sliding return lever 30 with the reverse motion guide 33, the blade moves around the leading wheels 20, 21 with a non-rigidly fixed position for the reverse movement (Fig. 1, blade 10) before the beginning of the rectilinear reverse movement, in which at the moment of interaction of the heel of the lever of the return belt tape 27 with the outer it surface of the closed tape 19 there is a rigid fixation of the position of the blades for the reverse movement (Fig. 1, the blade 3) and the effect of abrupt introduction of the wing into the flow acts, with further rectilinear reverse movement of the blade at a fixed angle of attack U2, a gas or liquid flow arises directed from the plane of motion of the blade, when the heel of the sliding lever of the reverse movement 30 and the reverse motion guide stop 33, after passing through the heel of the end of the reverse motion guide 33, the forward movement of the blade begins, and the ends of the blades are movable seals between the blades and fixed with with the help of the wedges, which creates a distance P1 between the ends of the blades and the fixed walls, at which the flow of gas or liquid between the ends of the blades and the fixed walls is eliminated and leads to the effect of the lengthening of the wing, in addition, the distance P2 with the counter-rectilinear movement of the blades between the nearest points of the oncoming blades does not exceed blade chord length. The operation of the device is as follows.

The blades moving after the end of the rectilinear section of the guides of the reverse movement 33 freely rotate relative to closed tapes. When the blades move around the driven wheels 22, 23 under the influence of the linear velocity difference between the incoming flows and the interaction between the sliding direct levers 28 with the spiral section of the direct motion guide 31, the position of the blades for direct motion is established, which is preserved during the rectilinear direct movement of the blades by the interaction of the sliding direct levers 28 with a straight portion of the direct motion guide 31 and the interaction of the levers of the forward motion tape 26 with the closed tape 18, while the angle of attack of the blade U1 is equal to the angle between the chord of the blade and the direction opposite to the direct movement of the blade a1, and the distance P3 between the directing motion of the blade and the shaft of the blade is P3 = 0.67L1 × tg (a1). The blades moving after the end of the rectilinear section of the direct motion guide 31 freely rotate relative to the closed tapes 18, 19. With further movement by the counter flow caused by the reverse movement of the blades and the interaction of the sliding levers of the reverse movement 30 with the portion of the spiral of the guides of the reverse movement 33, the position of the blades for the reverse movement, which is maintained during the rectilinear reverse movement of the blades by the interaction of the sliding levers of the reverse movement 30 with rectilinear the number of guides of the reverse movement 33 and the interaction of the levers of the tape of the reverse movement 27 with the closed tape 19, while the angle of attack of the blade U2 is equal to the angle between the chord of the blade and the direction of the reverse movement of the blade a2, and the distance P4 between the guide of the reverse movement and the shaft of the blade is P4 = 0, 67L1 × tg (a2), the angles a1 and a2 between the chord of the blade and the corresponding direction are set by turning and fixing the corresponding belt lever on the corresponding end of the shaft of the blade 16, and the distances P3 and P4 between the shaft of the blade and the corresponding The corresponding motion guides are set by the appropriate screw height adjusters.

The distance P1 between the sealed fixed walls and the ends of the rectilinearly moving blades leads to the effect of the elongation of the wing.

The distance P2 in the opposite rectilinear motion of the blades between the nearest points of the oncoming blades does not exceed the length of the chord of the blade, which causes the effective flow from the device resulting from the interaction of the flow coming from the blades moving in the opposite direction with the flow coming from the blades moving in forward direction.

When changing the direction of movement of the blades at the moment of rigid fixation of the position of the blades, the effect of a sharp introduction of the wing into the flow acts.

The flow reflectors 36, 37 of the liquid or gas direct the flow perpendicular to the plane of motion of the blades.

Protective guards 39, 40 installed along the movement of the ends of the shaft of the blades and connected with them, the reflectors of the flows 36, 37 form a protective outer casing 43, which increases the level of security and is an element of mechanical rigidity of the entire device.

The tape-blade device for receiving the flow may have the installation of additional intermediate cross-beams, struts and beams, as well as supporting intermediate wheels between the straight sections of closed tapes, increasing the mechanical rigidity of the entire device.

The flow guides 41, 42 control the direction of the gas or liquid flow upon exiting the band-blade device to produce a flow.

Thus, the inventive propulsion belt-blade device for receiving a stream allows you to get a directed flow of gas or liquid with a controlled difference in the linear speeds of the points of the blade, increasing the level of security. The tape-blade device for receiving a stream can be used to move air, land, surface and underwater vehicles and can be used to create controlled flows of gas or liquid for any purpose.

The author made operating tape-blade devices for receiving a stream (LeUKi) (photo images in Fig. 5, 6).

Claims (9)

1. Tape-blade device for receiving a flow, characterized in that the blades move along the trajectory of a moving closed belt on which these blades are mounted, worn on rotating wheels, and the position of the blades relative to the direction of their movement is set by the blade control system, in addition to the blade-blade the device for receiving the flow is equipped with fixed walls located along the rectilinear movement of the ends of the blades, and the ends of the blades are movable seals relative completely fixed walls, which eliminates the flow of gas or liquid between the fixed walls and the ends of the blades and leads to the effect of the elongation of the wing, and the fixed walls are made of three parts with the formation of cracks necessary to advance the shaft of the blades, in addition, the distance when the blades move in a straight line between the nearest points of the oncoming blades does not exceed the length of the chord of the blade, in addition, when changing the direction of movement of the blades at the time of rigidly setting the angle between the chord of the blade and by adjusting the forward or reverse motion, the effect of abruptly introducing the wing into the flow begins to act, in addition, the rotation of the blade from the forward motion position to the reverse motion position is caused by the incident flow caused by the reverse motion of the blades and the interaction of the sliding lever of the reverse motion with the reverse motion guide, and the rotation of the blade from the position for reverse movement to the position for direct movement results in the action of the difference in the speeds of the incoming flows caused by the movement the blade around the driven wheels and the interaction of the sliding lever of direct motion with the direct flow guide, in addition, the band-blade device for receiving a stream contains flow guides that control the direction of gas or liquid flow when leaving this device, in addition to this band-blade device for receiving a stream may have the installation of additional intermediate cross members, struts and beams, as well as supporting intermediate wheels between the straight sections of closed tapes. 2. The tape-blade device for receiving a flow according to claim 1, characterized in that each blade is a single-wing rectangular wing with two slotted flaps constantly extended, the spar is assigned a blade shaft installed at a distance of 0.33 of the blade chord from the leading edge of the blade in the middle of the shortest distance between the points of the upper and lower part of the profile, with the leading edge of the blade at the intersection of the chord of the blade with the rounded end of the blade, and the trailing edge of the blade is at the intersected and the chords of the blade with the pointed end of the blade, on the shaft of the blade are fixed power ribs of the blade, on which the main profile is mounted, and continuously extended slotted flaps, a sliding forward lever perpendicular to the shaft of the blade, the heel of which is parallel to the blade shaft at the middle of the blade’s edge, perpendicular the shaft of the blade sliding lever return movement, the heel of which is located in the middle of the leading edge of the blade parallel to the shaft of the blade, and the heels of the sliding levers forward and reverse the movements, which are cylindrical rods, are fixed at the ends of these levers by the midpoints of cylindrical surfaces perpendicular to their levers, in addition, on one end of the shaft of the blade there is a lever for the tape of direct movement at an adjustable angle from 0 ° to 90 ° between the chord of the blade and the direction opposite to the direction of direct rectilinear movement and the lever of the reverse movement tape is fixed to the other end of the blade shaft at an adjustable angle from 0 ° to 90 ° between the chord of the blade and the direction of the reverse rectilinear movement, The lengths of the levers of the forward motion tape and the levers of the reverse movement tape are equal and amount to 0.33 the length of the chord of the blade, and the heels of these levers, having a cylindrical shape, are parallel to the shaft of the blade above the outer surface of the closed tapes, and the length of each of them is equal to the sum of the width of the closed tape and 0.1 length of the blade, in addition, the length of the shaft of the blade is equal to the sum of 1.0 length of the blade, 0.2 of the length of the blade intended for installation of fixed walls, 2.0 of the width of the flexible tape, 0.2 of the length of the blade intended for installation of levers of direct tape reverse movement, and the ends of the blades that are movable seals, coated with a sealing layer of resilient readily deformable material having a small coefficient of friction between these pictures and still pictures walls. 3. The tape-blade device for receiving a stream according to claim 1, characterized in that it contains a frame consisting of two parallel-length equal bases made of pipes connected at a distance equal to 1.0 of the length of the blade from each other, symmetrically and perpendicular to the bases, two cross members equal in length to 1.2 of the blade shaft length, made of pipes located at a distance of 1.0 of the blade chord from the ends of the bases; in addition, four posts made of pipes 1.6 of the blade chord length are installed on the frame, fixed voimi midpoints perpendicular plane of the frame to the ends of cross members, wherein the ends of each two uprights are connected, parallel crossbars, the upper and lower beams, made of pipes. 4. The tape-blade device for receiving a flow according to claim 1, characterized in that at the ends of the bases of one end of the frame, the outer bearings of the rolling bearings are fixedly mounted, the inner rings of which are fixedly connected to the shaft of the two driving wheels, mounted stationary on the shaft symmetrically from the outside of the bases a distance of 1.2 blade lengths from each other, and at the ends of the bases of the other end of the frame, the axles of two driven wheels with rolling bearings are installed outside the bases, the inner race of which is stationary relative to the axes, and the outer wheels of these bearings are mounted symmetrically to the bases of the driven wheels at a distance of 1.2 blade lengths from each other, and the plane in which there is one drive wheel and one driven wheel is parallel to the plane in which there is another drive wheel and another driven wheel, and the common axis of symmetry of the drive wheels and the general axis of symmetry of the driven wheels are parallel, and the axis of symmetry of the wheels are perpendicular to the bases, while on the drive and driven wheels, the diameter of which is 0.66 of the length of the chord of the blade and the width of the rim is if less than or equal to the width of the closed tape, respectively closed tapes are stretched, on the outer surface of which, at a distance of 1.2 lengths of the chord of the blade from each other, sleeve bearings are mounted in which the shaft of the blades rotates freely, and the closed tape is either chain or gear belts, or smooth belts of wedge-shaped, rounded or flat sections, and the surface of the wheel rim corresponds to the type of closed tapes. 5. The tape-blade device for receiving a flow according to claim 1, characterized in that it contains a direct-flow guide made of a pipe, which begins at the beginning of the spiral section, the center of which is mounted on a straight section with a straight section and is mounted on the screw height adjusters installed in the middle of the lower beams is located on the axis of symmetry of the driven wheels in a plane perpendicular to this axis, in the middle of the driven wheels, of a larger radius, a smaller radius of which is connected to the straight section, and ends with the end of the straight section parallel to the closed tapes, and the end of the direct motion guide, which is the end of the rectilinear section, is located at a distance of 1.0 length of the chord of the blade from the axis of symmetry of the driving wheels, and the spiral section of the direct motion guide, the larger radius of which is greater than the radius of the circle of the wheels, serves for smooth turning the blades to a position for direct rectilinear movement, in addition to the screw height adjusters installed in the middle of the crossbars, a guide fixed by its straight section a reverse movement made of a pipe that starts at the beginning of a section of a spiral whose center is on the axis of symmetry of the driving wheels in a plane perpendicular to this axis, in the middle of the driving wheels, of a larger radius, the smaller radius of which is connected to the straight section, and ends with the end of the straight section parallel closed tapes, and the end of the reverse motion guide, which is the end of the rectilinear section, is located at a distance of 1.0 lengths of the chord of the blade from the axis of symmetry of the driven wheels, and the spiral The nth section of the reverse motion guide, the larger radius of which is smaller than the radius of the wheel circumference, serves to smoothly turn the blades into the position for reverse motion, and all the ends of all the guides have a rounded shape. 6. The tape-blade device for receiving a stream according to claim 1, characterized in that each of two identical fixed walls consists of three parts, namely, two identical extreme parts, fixed with brackets to the lower and upper beams, respectively, and one the middle part mounted on the cross members, and between the middle part and the extreme parts two slots are formed for the passage of the shaft of the blades, while all three parts are in the same plane with the plane of movement of the ends of the blades, and the total height of the wall is and the length of the strut and a length equal to the distance between the symmetry axes of the driven and driving wheels, wherein the fixed wall ends are bent for smooth interaction with the ends of the blades. 7. The tape-blade device for receiving a flow according to claim 1, characterized in that the protective outer casing is formed by connecting two protective barriers and two reflectors of the flows, and the protective barriers are in the form of rectangles with a length equal to the sum of the distance between the axes of symmetry of the driving and driven wheels and 2.0 lengths of the chord of the blade, and with a height equal to the length of the uprights, while the upper corners of the protective fences are cut along an arc of radius 1.0 of the length of the chord of the blade centered on the surface of the protective fences at the intersection of them the axis of symmetry of the driven and driving wheels, while the flow reflectors are fixed along the lateral edges of the guards installed on the racks, from the lower corners of the guards to the planes passing the axis of symmetry of the driving and driven wheels perpendicular to the bases, in addition, the guards have openings for the passage of the drive shaft wheels, and the protective outer casing is additionally an element of mechanical rigidity of the entire device. 8. The tape-blade device for receiving a stream according to claim 1, characterized in that the flow guides are movably fixed on the axles and pivotally interconnected by rods to each other, controlling the direction of gas or liquid flow when exiting this device, while the length of the guides flow equal to the length of the protective fencing, the height is equal to the length of the chord of the blade. 9. The tape-blade device for receiving a flow according to claim 1, characterized in that it contains a control system that determines the position of the blades relative to the direct movement, namely from the line of the start of movement around the driven wheels to the line of the start of movement around the drive wheels, moreover, a straight line straight movement is located at the bottom of the device, and the leading edge of the blade moves in front of the trailing edge of the blade, and the reverse movement, namely from the line of movement around the driving wheels to the line of movement around the driven wheels, Therefore, the rectilinear section of the reverse movement is located at the top of the device, and the trailing edge of the blade moves ahead of the leading edge of the blade, the control system consists of the following structural elements of the band-blade device to obtain a flow, namely from the outer surfaces of the rectilinear sections of closed tapes, from the levers of the tape of direct motion, levers of the tape of the return movement, sliding levers of the forward movement, the directing guide of the forward movement, sliding levers of the return movement, directing the reverse movement and, as a result of the connection of structural elements included in the control system, namely, in the interaction of the heel of the sliding lever of direct movement with the direct motion guide, the blade takes a non-rigid fixed position for direct movement before the start of a straight forward movement, and at the beginning of a straight forward movement at the moment interaction of the heel of the lever of the tape of direct movement with the outer surface of the rectilinear portion of the closed tape there is a rigid fixation of the position of the blade for direct movement at a fixed angle of attack, besides this, the effect of abruptly introducing the wing into the flow acts at this moment, and also in the interaction of the heel of the sliding lever of the reverse movement with the guide of the reverse movement, the blade does not take a rigidly fixed position for the reverse movement before the beginning of the rectilinear reverse movement, but at the beginning rectilinear reverse movement at the moment of interaction of the heel of the lever of the ribbon of the reverse movement with the outer surface of the rectilinear section of the closed Lena there is a rigid fixation of Nia vanes for return movement at a fixed angle of attack, except that in this moment acts effect of making sharp wing stream.

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