TW201235558A - Fluid energy converter - Google Patents

Abstract

The present invention is the fluid energy converter comprising a relatively stationary round-like-box which has a protruding edge at there a notched groove-shaped track be equipped with, and a rotatable cylindrical frame structure owns a plurality of uniformly spaced rectangular blades which are rotatably mounted between the arm-pairs of this frame. A part of the cylindrical frame is located inside the depression of the round-like-box. Every blade has a roller positioned on each shoulder, this two rollers on the blade engaging the track alternately; because of the special mathematical properties of the track trajectory, each blade can be guided to proper direction for increased power generation and reduced drag without using any other mechanical controls.

Description

201235558 VI. Description of the invention: [Technical field of invention] When the front of the structure is related to the structure of the 'rotational kinetic energy, it will push the body's [previous technology] ball (9), change, threatening to the convention town: > , S 目 士 P 仃 仃 仃 仃 仃 仃 仃 仃 仃 仃 仃 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范 规范Through a good fluid energy converter, the energy can be converted into 11 and the fluid energy can be converted into a rotating energy, which is called a water-based device. Vertical: The second technology is more stereotyped and has a commercial rate. And ° under the juice must be enough to greatly improve the work of both. - The mechanism, the more moving the movement, the pressure on the mechanism shaft to generate pressure by the fluid flow; such as driving the generator armature to turn ί=; == can: 201235558 苇 rotation; drive the shaft rotation of the mechanism, the shaft. Turning the blade to produce a 'pushing fluid flow; such as a fan or a boat propelling a vertical axis blade fluid energy converter, dating back to 1846 'c. Hand obtained US patent, name, water wheel" 】 US Pat N.· 4,517 i hidden dt.〇nMay % 1846>. This is the reference to the sun and the moon and the two vertical paddle wheel 'or wind motor, or _ equipment; and the water can be vertical and the other leaves _ flow view The mechanism, the blade is designed to be non-removable, 'common in early fluid power generators or windmills. Because of the niso m, the handle n, = (four), the position of the installation changes, or the design change of the reduction, with low resistance or Improve the efficiency of the force; but the thief can not eliminate the generation of the resistance. The design of the receiving mechanism is to pivot the end of the rotating arm into a pivotable way. When the blade rotates (10) degrees to the axis, the blade is pulled. In the miscellaneous reading of the material, if the blade can make the "with the wind direction, dynamically maintain the difference between the two can achieve less resistance, and generate a greater force. This is the kind of rhyme thinking, but also the mode of H line; this kind of thinking has appeared in the past 100 years, but unfortunately it has not been designed. The object of the present invention is to propose a new design that effectively solves this problem. Blade = mechanism shaft rotation when the 'blade itself also rotates, can be traced back to 7, C. F · Whlsler's US patent, the name "WIND WHEEL" fine j N °. 862,299 1 prison dt〇 (10) Aug. 6, 1907>. When the blades are paired with the mechanism, the gears and the chain are used to drive the blades to rotate, and the blades are dynamically maintained at different angles, so that the design achieves a reduction in resistance and a large force. When the fennel sheet is revolved from the heart of the heart, it is a problem of the present invention to how to let the blade rotate as well, thereby achieving a reduction in resistance and a large force. There are so many problems in this way. 6 201235558 = Invented the solution to solve this problem. Recently appeared

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Aug. 3, 2010>. When the blade is rotated to the shaft of the mechanism 7, 766f02 BI issued t0 on the rotor blades rotate, dynamically let the blades and wind design achieve reduced resistance, and produce a different angle than the force of A. Let wind turbine number: 2GG8339453 In the public day, 2GG8 in August, when the Chinese invention opened the axis rotation, "Ming application is open, I want to use the adjustable connection": ! 'Dynamicly let the leaves and the wind direction maintain proper: no = smart = reduce Resistance, and the purpose of generating greater force. W reached =6, Liang Liangzhi's Chinese patent, please disclose, name, and flow <People's Republic of China invention publication number: CN1769668 ΐ二!?. In this invention, please disclose that if you want to use the column, when the movable sail rotates to the =- side of the product body, the movable sail frame is stuck on the column due to the fluid: the rotation 'although moving to the downstream of the fluid flow, In fluid action, ^

Continuous rotation of the frame 'transfer fluid flow energy to the patent application name" W_ AND TURBINE &lt; Pub. No.: US 2010/0060008 Al , Pllh nt · _2_&gt; When the blade rotates against the axis of the mechanism, the invention is filed The second disclosure utilizes one of the elliptical axes in the round revolution of the blade; and the two-circle mechanical switch in the orbit automatically forces the rails of the blade to alternately enter the obedience; the purpose of the two-fork force is unfortunate. The design has some mathematical The problem, 201235558 Ξϋΐ 之 杂 杂 杂 杂 杂 是 是 是 是 是 2012 2012 2012 2012 2012 2012 2012 2012 机械 机械 机械 机械 机械 机械 机械 机械 机械 机械 机械 机械 机械 机械 机械 机械 机械 机械 机械 机械 机械 机械 机械 机械 机械 机械 机械 机械 机械 机械In the case of orbital 丄 = 荦 因 因 因 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由 自由The blade continues to rotate. Some inventions 'do not use mechanical control film, turn. On this aspect, there are the following inventions: (4) General blade of the blade % 2〇〇8 'FRIESEN, George, R. Canadian patent application ίί! t *^2007/001950,a Apr 24? 2〇〇8} The blade of the right-hand structure is mounted on the arm frame of the windmill. The i Hi is a larger® structure. The ®-shaped structure allows the blade to rotate the blade to make the blade free. Swing two = J large for the mussel field = structure blocking the blade, the blade will be blocked by the wind, the car will be handed over = and the circular structure will not bear the blade 'the blade is released with i ig ^ H0, the wind is blocked, because Direct windshield, causing resistance to small winds. #这n;if rate, impact and noise, etc. have considerable concerns. Mechanical; teeth = or the characteristics of the design of the invention 'is not forced to use the blade (4), ^ strong financial film rotation, do not use mechanical switches, to count the pen for the concave orbit. Instead, use the principle of dynamic geometry, design, when the flat outside the track is open, and smart operation The establishment of the mechanism when i is different from the angle of inflammation, so that the device can reduce the resistance, and the production will blow with the wind, and the unfavorable control of the blade will not allow the blade to change efficiency, and the design of the collision will be high. Energy transfer [Abstract] 201235558 General fluid, divided into compressible fluids such as wind, and no There are two kinds of compressed fluids, such as water. The conversion mode of the energy conversion device is divided into two ways: receiving the energy of the fluid to generate the rotational kinetic energy, and using the rotational kinetic energy to push the fluid flow. Therefore, there are four combinations of the application combinations of the fluid energy converter. The four combinations of the invention still have the same core structure, which is called the basic mechanism. The basic mechanism, the fluid characteristics, the difference of the direction change, the design of the side difference, the different application of the job. The basis of the invention The design contents of the mechanism and various types are described below. The basic structure of the basic structure of the invention includes two items: a similar π-type wheel frame that can rotate the fixed axis; the convex edge surface of the wheel frame is provided ,; raw and - rotatable cylindrical frame and complex evenly spaced in the frame = rectangle, the center line of the rectangular blade is the rotation axis, and ^ 哞 哞 ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ The distance between the upper and lower arms, the leaves of the pregnant wheel, and the rotation of the blade; leaf,: Rong 2 = frame;:=::=, the space in the wheel frame is used for the degree, slightly larger than the thickness of the upper part Exercising, accepting the guidance of the obedience, causing the rotation of the blade to change the blade and the second round of the gliding. When the flow occurs, the blade can be reduced to prevent the inner circle and the upper arm portion of the 5-shaped frame. , can, 'in the outside of the blade revolution round, does not directly affect the cylindrical frame; 201235558 similar to the shape of the wheel frame of the concave way, is open to the road to enter and exit. The orbital obstruction curve ‘ is described later; nine points, no orbit ’ becomes the rotation of the blade, and its rail rim 3 is slightly enlarged at the J end. This is and. The mouth is on the road; the outer wheel on the outer side of the blade is always on the road. 3^ concave The two-track wheel will alternate into the simple way; the second wheel (4) will enter the man and the wheel will be on the concave road at the same time. When the k-frame rotates against the revolution axis, it rotates when the orbit is guided by 5 turns. Blade-to-revolution

Turn 45 degrees. The obedience arc is a symmetrical rounded arc, with a symmetry axis turning straight to the pair = direction of the flow when the person's _ particle push; L face, this push, force for the cylindrical frame to produce a rotation in the ^ = let The framework has = good power. Therefore, on the surface of the n-type wheel frame, the direction of the arc symmetry axis is marked as a direction mark; in order to correct the force of the blade of the fluid to the frame, the most f will be affected by the fluid, so that What direction is indicated on the wheel frame is the most efficient flow of the fluid ^ two-way ^ can be pointed or installed. (d) 4 directions, β (four) positioning fluid flow The cadaver volume is characterized by neither mechanical gears or replacement into the concave orbit. Instead, use the blade to rotate the rail = the first ίίΓΓΐ ί trajectory wheel in a natural way to 'alternately enter the ϊ 执 ' ' to let the natural rotation to the best orientation. The best orientation, meaning ^ 201235558 When the sheet moves to different positions, it will change the direction of the blade, let = and 'ίϊ81 columnar frame rotate; face, two; reduce the diameter of the frame. The number of blades is not limited, but the leaf is near = material see fluid Depending on the characteristics, it can be used for sails or slabs, and &gt;, the basic mechanism to match the fluid characteristics and the direction of the change, to make different inventions and form different invention applications. The content is described below. The secluded record, fine material: there will be a similar door type wheel frame, which can be used as a boundary wheel for the second and second direction of the bearing. In general, the traction wheel frame obeys, dynamically ϊίίί when it is different, creating the purpose of #乂大的力力. See the description of the embodiments for details. Fan II, ^ easy lion fluid or strong fluid energy receiving system, in order to strengthen the installation: = 2 force Γ, the system makes the structure of the device up and down symmetrical. Its hair: ί can be rotated synchronously, nine-way similar to the door type wheel frame. Above the blade, the top of the 冋# piece, the two sides of the symmetry have a wheel. The top and bottom of the blade are 二ί上ϊίΐΐΓ f. According to the direction of the flow direction on the wheel frame, install the wind "= to pull the wheel frame track, dynamically maintain the proper angle between the blades and the wind direction, the angle between the design, so that the design achieves the reduction of resistance, and the purpose of generating a force of A See also the description of the implementation. 3. Easy to push the fluid flow system 'usually push the fluid flow, the flow rate is faster than the design, the content is: same as the above incompressible fluid but not it or tailing, only fixed There is a machine to the private δ, the direction of the private fluid to push, in the track «guide vanes also rotate at the same time in the position, the law of the blade motion is paralyzed, which is conducive to the promotion of the fluid. For details, see Description of the embodiment. IV. The fluid propulsion system for the ship propeller, the content of which is: the basic structure of this item. Ten' is the same as the simple push fluid flow system of the above item. But slightly changed, in the synchronous double 201235558 ^ kit 'track At the periphery of the opening, the cover is emptied. When the blade rotates to the vicinity of the cusp point, it can reduce the resistance formed by the shear stress of the moon and the body. The compression is flat and points to the direction to be pushed, and becomes the device for keeping the horizontal rotation of the water propeller in two marks, so that the top of the cover f is placed and rotated. It is more convenient to install the propeller in the front and rear parts of the bottom of the ship. Description of the implementation method / Do not enter, _, side high efficiency and practical degree. This windmill, inside 1: ^ two, on, to reach the straight Shenkong fixed axis, a 兮 right 勒, # 座 has a special vertical column Turn to Wei Tingshu f = special lightness of face Ψ ^ ® ΐ T^t% : m There is a police car control unit on the seat. The installation line of the towel empty line 'line 2 ^ draw the upper end of the warning device and; Nine iSSir' hollow tube rotates to the above fixed axis, the wheel frame axis 22 = the interface, the brake control of the upper brake brake. Nearly another ',,, rut, can accept the fixed shaft in the special sleeve For the cylindrical frame part mechanism of the shaft, not _ is, the axis change tree is the same as the base rotation bearing interface, and the hollow two-axis center can be freely rotator and brake drum; the brake drum can be fixed Install a kinetic energy transmitter below the station ^ to form a cylindrical truss The rotational kinetic energy is transmitted to it = the bottom of the car is the bottom of the brake bearing as the interface, and the hollow fixed shaft is rotated. The application of the early 疋 矩形 殊 殊 ^ ° ° ° ° ° ° ° ° ° ° 有 有 有 有 有 有 有 有 有 有 有 有 有 有 有 有 有Material==3⁄4 201235558 Adjustable area of the blade, the whole practical elasticity. Blade _ wind area can be adjusted to add windmill support structure. The sail structure is placed under the sail; the outer frame is the horizontal support of the support beam , wind 』 outer frame bottom bracket 'sail by the plurality of horizontal sails, the outer frame of the backbone has c water, the lift of the sail beam can determine the retraction of the sail. The end of the leaf has a support rail, the mouth is facing inward. The horizontal sail of the sail two The sail beam is lifted and lowered in the 'C-shaped groove of the outer frame of the blade, and the horizontal sail beam rises to the m piece of the blade, without falling off. The highest position of the sail is the least profitable state. . See the facts

The basic institutions can indeed operate, and the glory must be maintained.荦; =1 one shoulder on the track, at least one of the two tracks in the (four) ϋ κί turn movement, the second wheel will alternately enter the road; when the slanting and her defeat, the wheel will be in the concave track at the same time on. In the case of a cylindrical frame, the blade itself is rotated half a turn from the degree of self-rotation when it is guided by the road. When it is rotated at a revolution of (10) degrees, the degree of rotation is 9〇. The inventor found that the obedience to meet the above requirements is the second open and _ ° except that the inventor also uses the computer value = the arc trajectory of the basic mechanism to operate correctly. The following describes the mathematical characteristics of this new arc and the graphical simulation on paper. 'The new arc is - scale family Tw, _ arc Tw (four) both contain two numbers r, the radius of the cylindrical frame of the I rotation in the month, precisely, the distance of the rotation axis of the cylinder; s is the width of the blade, To be precise, 疋 the distance between the axes of the left and right horizontal wheels. Tw(r, s) has the following characteristics: · There are half scales, and the heart is the circle 0 of the origin. For any line segment s of length s &lt; 2r, when the point s of the line segment s is on the circumference of the circle, and the end point of the line segment 8 is on the arc Tw(r, s), the ray pair of the parallel y-axis The line segment S produces a reflection line whose parallel orientation is exactly tangent to the SI point. See Figure 2 of the figure. The shape of the TwM is similar to that of the pole; the heart line of the system is a curve with a sharp point, the curve point is on the circumference, and the point outside the curve point is outside the circle. In the invention of the present invention, the center of the round cymbal is the axis of the mechanism and the axis of the revolution, and the circle 0 is the rotation of the blade in the rotation of the 13 201335558, and when the blade is in the motion of the revolution, the blade is self-drying and the arc is guiding the blade to rotate. The concave shape is obsessed with the above. In the above Tw center, the line segment s is the width of the blade, and the second end point M of the line segment s is the rotation axis of the blade. The main purpose of the invention is to explain the axis of the left and right rail wheels. Learn the equation, so simply list the orbital arcs „the cumbersome illustrations. &amp; 'Continue to see the following 0 &lt;s&lt;2r, Twfcs) The parametric equation is as follows: ; y = (r+f)e〇 Sisint + (r.,)sinic〇st where -fcos_1(·^·) &lt;t&lt;Icos-'Ilf·); 3 This arc (4) resembles the continuation of the polar coordinate system, (4) the heart line · at t= When, for example, %, the arc coordinates are the same two points, and the cusp points are also recorded. The sharper field is removed, and the arc is reduced; the orbital arc is outside the circle ...2... Γ2 and the rotation has the above various mathematical characteristics. Continuing the illustration, the shape of the figure 圄1 exists, where _ = line W,1·46) is the segment - the blade is guided by the arc Tw (u.46) mn6. The lines in the figure are different When the position of the blade is oriented, the eccentricity of the revolution axis is circulated for one revolution, and the person turns to the line segment s to generate a reflection line, which is exactly tangent to the circle. Figure 2 shows the arc Some Tw characteristics of Tw(1,146), the reflection line produced by the flat section. No matter which line segment s; ' y = point leaf positive, line segment S represents the blade, circle represents the circle S frame# The thrust of the piece is pushed all the way to the direction of rotation of the cylindrical frame. In other words, it means that during the rotation of the blade, no resistance is generated, and the cylindrical frame is rotated by the maximum thrust. Figure 2 It can be seen that the line segment S1 and the incoming ray are vertical; that is, the system is fully stressed. The line segment 84 is parallel to the human ray; that is, the blade and the stream 14 201235558 line segment S2, and the incoming ray have a degree ▲ then the blade is in operation, the blade The change of the wheel and the concave road on the shoulder. The line segment S represents the blade; the two end points of the line segment s represent the two tracks on the shoulder of the blade. The mouth curve Tw represents the concave road. As can be seen from Figure 2: the line segment , S5 two: 丄 arc line Tw; that is, the two shoulders on the blade shoulders, all on the road. The other part of the line is the melon, the line Tw; that is, the other wheel on the shoulder of the blade, also enter the obedience.钿On the arc Tw, one end has left the arc Tw, leaving one rail in the orbit. The running line segment S1, after the changes of S2, S3, &, %, Hong, etc., returns to the position of SI, the line segment S1 just flips 18 degrees _ _ H, only one half turn when revolving one lap; When the irrigation degree is 9 degrees, the rotation is 9〇. It can be seen from Figure 2: Whenever the blade shoulders two wheels, ^ will - the wheel is in the concave way. When the leaf is moving, the second wheel will When the two wheels alternately enter the deportation, the second wheel will be in the concave symmetry ϊ ϊ ϊ; Figure 2 shows that the TW arc has a symmetry axis 'when the fluid flows in the direction perpendicular to the axis of symmetry, the cylindrical frame of the system The inner frame rotates the cylindrical frame. The track is traversed by the TW arc. In the second invention, the self-adjusting orbit is the arc Tw when the fluid flows in. The cylindrical frame is rotated by the 疋 疋 疋 · · ^ ^ ^ ^ ^ ^ 公 公 公 公 公 公 公 公 公 公 公 公 公 公 公 公 公 公 公 公 公 公 公 公 公 公 公 公 公 公 公 公 公 公 公 公 公 公 公Figure 3 of the figure shows that the motion is over: set, and the change of the blade is not changed. The normal vector is divided into the y-axis and the normal of the s-line segment s. The blade is on the axis of the revolution. 201235558 One revolution, the integral of the fluid force vector is pushed, just the sum, the frame, the flow direction mark on the wheel frame, pointing to the push to cause the better push effect. Li A shares &lt; direction, Benedictine frame cylindrical t (four) into the orbital movement process. _ blade width s = 1.8, cylindrical frame with constant velocity spine &quot;&quot; long ^ 8, continued action _. At this time, the blade returns to the original position when the command is made, but the a and b rails are aligned to the axis. When the blade revolves 180 degrees to the axis, it rotates half a turn from 7m piece and rotates 45 degrees. When the eye is turned 90 degrees and the axis is rotated 90 degrees, the figure 5_1 to 5_12 shows the side column frame _ frame 4 revolution-week, continuous action diagram. Contains a, b =, cylinder The motion of the two weeks. Shape = r-l, blade width s = 1.4, cylindrical frame to wait = the length of the bovine melon to be made of 12 continuous action. Scales, in the . ^ computer 摹 heart revolution - circle, the blade returns to the original position, but the next * piece to the axial circle (10) degrees. The blade revolves around the axis 18 () &amp; ^ right to rotate the blade half a degree of rotation 45 degrees.锝90 degrees to the axis revolution 9 〇 About the fluid flow energy conversion, the present invention

=, with the design of the = mechanism, the mathematics special V, the era of global warming crisis, the original = the second choice in the energy short-body flow energy conversion mode. ...deduction, a stream of efficiency [embodiment] Door type wheel frame, wheel The basic mechanism of the invention includes: can be similar to the directional tilting 201235558 set - open concave job road... rotatable cylindrical frame And the ίβίΐί vertical rectangle ^ on the column. Describe each group, the rotatable cylindrical frame, Figure 6 is a frame with a solid axis, with a plurality of pairs of shafts 2, evenly spaced below. The blade rotation shaft 3 is sandwiched between the outer ends of the upper and lower support arms, the blades rotate, and the interface between the support arms and the support arms is the bearing 4. The radius r of the cylindrical turn is the horizontal distance from the center point of the solid axis to the center point of the blade's rotation axis. The distance between the upper and lower arms just allows the blade with the wheel to rotate, and the rail wheel does not hit the arm when it is rotated from one piece. ', -, moment = blade' Figure 7 is a rectangular blade with four wheels. The rectangular blades have a rail wheel 5 on each of the upper, lower, left and right sides. The rail wheel is a horizontal wheel, which can reduce the force and noise when the road is taxied. The blade center line is the blade rotation axis 6, and the rotation is the thickness of the blade support arm plus the horizontal wheel thickness plus the blade height and the moderate 曰1 gap. s is the flat distance from the center point of the horizontal wheel circle to the center point of the blade rotation axis. Figure 8 is an illustration of the assembly of the blade 7 into a rotatable cylindrical frame 8. -, similar to the door type wheel frame with a concave shape, Figure 9 is a track that can be attached to a certain fixed axis type of door type wheel frame' wheel frame convex edge surface - open concave track 9' Wheel frame. The concave orbital groove width is slightly larger than the diameter of the rail wheel to facilitate the rail wheel to slide inside and guide the blade to rotate. The dotted line in the path of Fig. 9 is the obscuring arc Tw (four) 1 叙述 described in the Summary of the Invention. The circle U of the circle of Fig. 9 indicates the position of the cylindrical rotatable frame, which is also the trajectory of the blade axis to the fixed axis. A portal wheel frame with a concave orbital shape, the thickness of the hollow portion is sufficient to accommodate the round frame above the cylindrical frame. Figure 10 is a perspective view of Figure 9. The center of the circle inside the wheel frame circle u is exactly the knowledge of the cylindrical frame. The interface between the wheel frame and the axis of the column frame is the bearing 12. The arc on the wheel frame has a symmetry axis. In the vertical direction of the axis of symmetry of the arc, a direction mark 13 is indicated, indicating that the flow/claw direction is called a flow direction mark. At the flow direction mark, the wind chamber or 17 201235558 as shown in Fig. 1 as the fluid energy receiving system, the wheel frame surface can be air-conditioned, or linearized, "reducing the fluid flow system, with the orbital force wheel two maps" 2=the same;

逬转 ===== 15=· The stability of the 'this step _ step double wheel box kit, using the link, ,, σ wheel frame, causing synchronous rotation, as shown in Figure 13. - The fluid is divided into compressible fluids such as the material, and the contact is ::= r r = 2 large 2. r, fluid energy transfer: the same basic mechanism, the basic machine to; two invention application. The application design of each type is different in the axis of the cabin. When the (4) county is located at the end of the wire, the === flow direction mark points to the direction of fluid flow. The circular conversion farm is formed by a simple wheel ί14 having a rotatable compressible flow S of the blade 7 as shown in Fig. 14. Instead of showing the second line, the shed can be used to receive fluid energy, for the same standard, to produce high-efficiency rotational kinetic energy; it can also be used to turn the mff to the fresh energy. The fluid of the step wind is in the direction of the mark on the wheel frame, and the hunger U is 20, and the wind zone is affected by the fluid flow, and the conversion device can be from the state of the fluid energy of 201235558 ΐίίϊί. Rotatable cylindrical frame, set by the community. The combined-synchronous two-wheel frame kit also receives fluid energy from the incompressible fluid, either by the flow direction or the rudder. °, insects in the propulsion system for the fluid propulsion system, the same as the upper, the flow system 'but slightly changed, can reduce the blade against the incompressible: = force. The implementation method is: use-synchronous double-wheel frame; ίϊί ίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίίί When the two J air 'blades rotate near the sharp point of the arc, the resistance formed by the shear stress of the compressed fluid can be reduced. The film can not be kept horizontal, and points to the direction to be pushed. It becomes the second 隹: the device 22 that can be tilted after the thruster can be tilted, so that this class r25, just two ====: In the above basic control and performance, the utility model achieves a practical windmill, so that it has a special-purpose WH windmill in the warning and the body. The content includes four parts: the special wheel frame, as shown in Fig. 24, Fig. 20 and Fig. 21, The track mode is set in the frame as follows: 22: 28, the upper end of the fixed shaft is provided with a warning device. The pipeline is installed in the hollow portion of the shaft, and the car is touched by H 3 . The control unit 33 is installed below; the control unit controls the upper end of the fixed shaft through the warning device 29 with the warning and the brake tube on the center of the vehicle and the s line 28 ′ of the brake of the track brake.

In the special sleeve is a thin __^, the design is as shown in Figure I and Figure I 201235558 ΐΐίΐΐ basic mechanism 'but the axis changes to a special sleeve 34. The y μ can transmit the conveyor 3S and the brake drum 36; the brake drum can be installed at the bottom of the shackle with the thrust bearing 31 as the interface application early °122 « :: from == 37 for the interface, to the above fixed shaft The heart rotates. But the wheel = • 40 'can accept the fixed axle above the brakes = parallel to the mark, install single or multiple wind cabins 2 early in the frame of the recording frame according to the flow moment ^ temple 苇 苇 Λ = i, basically the same as The basic mechanism, the blade body shape is a symmetrical slap wheel 5 money sliding in the concave track of the above wheel frame. The blade material varies depending on the situation and can be a sail, a plate or a blade of adjustable area. The size of the wind-bearing area of the real film can be adjusted to increase the blade of the windmill that is placed in the frame. The design of Figure 2 is as follows: the sail-like structure can be retracted; the outer frame is retractable. The sail structure structure 42 has an intra-leaf sail with a plurality of evenly spaced movable horizontal sail beams 46. The leaves are arranged in the frame. The second part is the ClU yellow beam 49 with the opening facing inward; The beam 50, the beams are all facing, and the opening is facing inward. The left and right ends of the C-shaped beam at the top of the blade frame are provided with a pulley 1 through the pulley block 43 and the cable 44 to suspend, retract and fix the sail; the lower c-slab beam is fixed inside the sail Bottom. The sail inside the blade, the sail beam L1 at both ends of the sail beam is placed in the inner C-shaped opening of the left and right Η-shaped beam of the blade outer frame, and the sail beam is sliding = the c-shaped groove on the inner side of the truss beam does not fall off. The outer side of the frame is placed on the inner side of the frame, the sail beam is accommodated, and the sail rail wheel is arranged at the end; the outer side is the cable for accommodating the pulley block. The outer side of the H-beam can be covered to protect the cable and reduce the influence of the wind. The cable is attached to the top. The sail beam, pulling the top, the sail beam, will drive the sail beam below through the canvas. When the uppermost sail beam is pulled into the upper C-beam of the blade, it is the condition that the wind receiving area of the blade is the largest; when it is pulled to the lower beam, it is the state that the wind receiving area of the blade is the smallest. 201235558 [Simplified illustration Fig. 1 is a view showing the shape of a Tw arc of the present invention. Fig. 2 is a view showing some characteristics of the Tw arc of the present invention. Fig. 3 is a view showing some characteristics of the Tw arc of the present invention. Fig. 4 is a view of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 3 is a diagram showing a guiding mechanism of a four-blade foundation mechanism according to the invention of the present invention. Court = a cylindrical frame of a solid axis that can be rotated by the embodiment of the invention. A rectangular blade diagram with four wheels in accordance with an embodiment of the present invention.

_. 8 is a cylindrical frame-like member that can be rotated by a blade according to an embodiment of the present invention. FIG. 9 is a block diagram of a wheel with a track according to an embodiment of the present invention. A perspective view of a wheel-containing wheel frame according to an embodiment of the present invention. The figure is the wheel frame-side of the tilting mode of the present invention, the more optimal the flow direction mark, and the 12 series of the wheel frame hollowing diagram of the embodiment of the present invention. , a synchronous two-wheel box kit diagram of an embodiment of the present invention. u A diagram of a simple energy conversion device according to an embodiment of the present invention.

Ui Inventive diagram of a simple high-capacity energy conversion device. η η ίί The energy conversion device of the embodiment of the invention is installed with a wind thief tail boat diagram. : A diagram of a basin-shaped double wheel frame kit according to an embodiment of the present invention. Figure η The energy system diagram of the incompressible fluid. Schematic diagram of the ship propeller installation of the f5I + mingming embodiment. ί 2〇 is a hollow axis diagram of an embodiment of the present invention. (4) A detailed diagram of the real-life style shirt. Figure. In the embodiment of the invention, the sleeve is a cylindrically rotatable cylindrical frame. The embodiment of the embodiment is a sleeve-rotating columnar frame. Figure 24 is a diagram of the kidney-shaped chick-connected brake drum. 21 201235558 Figure 25 is a schematic view of a sail-shaped rectangular blade of the present invention. Figure 26 is a schematic view of a windmill according to the invention of the present invention. [Main component symbol description] 1 real axis 2 blade support arm 3 blade rotation axis 4 bearing 5 rail wheel 6 rotation axis • 7 blade 8 rotatable cylindrical frame 9 concave track 10 track arc 11 wheel frame internal point line circle 12 bearing 13 flow direction mark 14 wheel frame with concave track 15 link 17 rotatable cylindrical frame * 19 blade rotatable cylindrical frame 18 synchronous double wheel frame kit 20 rudder or tail rudder 21 cover 22 horizontal rotation Device 24 bottom 25 propeller 23 vessel 26 seat body 27 vertically fixed hollow shaft 22 201235558 28 line 29 warning device 30 track brake brake 31 thrust bearing 32 cylindrical frame brake brake 33 warning and brake control unit 34 sleeve 35 Kinetic energy transmitter 36 brake drum 37 bearing 38 with sleeve as the axis of the cylindrical frame 39 fixed hollow shaft 40 brake drum 41 sail 42 blade outer frame 43 pulley block 44 cable 45 sail upper beam 46 horizontal sail beam 47 blade rotation axis 48 blade rotation axis 49 C-beam 50 Η beam 51 sail beam track 23

Claims (1)

201235558 VII. The scope of the patent application L匡 convex: - Rotating similar door type wheel frame, frame, frame, "Rotating cylindrical frame column frame, the force piece above is placed pivotally in the circle The arm clamps the two ends of the rotation axis of the blade; the upper and lower arms protrude; the minute: the wide rotation of the rotation. Similar to the upper wheel frame of the door type wheel; the concave track groove below it is sufficient The blade shoulders are according to the second item, the first item, the concave shape is outside the cylindrical frame, ^£^ into the system circle ^: the blade when the flow = :,: direction mark to facilitate positioning or installing the wind snake Or a tail snake. When t 5. A fluid energy receiving device, comprising: a similar door type wheel frame equipped with a steerable rudder, an upper direction; the direction axis J includes a cylindrical axis extending from both ends thereof. : The column is rotated by 辕2, so that the flow direction mark and the rotary piece on the wheel frame are at the optimum position, so that the Zhao is opposite to the guide: the rotation energy of the 柱 leaf can be rotated by the columnar frame. 201235558 The symmetrical synchronously rotating wheel frame is formed into: the device 'includes: an upper 22 frame, The frame is fine ^ up and down and right to the circle f, with a rotatable material, An « in the frame cylindrical sleeve 7. Body = turn = columnar, the rotation energy. The two-wheel frame kit consisting of a wheel frame, the inner blades that can be rotated synchronously are symmetrical up and down, the blades are up and down left too: the frame is framed, and the frame two upper and lower wheel frames are concavely shaped: two wheel frame kit: J leaf two wheels: sliding Outstretched. Fixed double wheel frame kit. (10) Material (9) is in the direction of the new line, and the fluid flow is promoted _ body flow: the seventh item of the patent scope pushes the flow to rotate, and the inside of the cover is filled with air. The 9 parts of the cover are mounted, which will move the vessel forward, ίί Side ίίί= and the upper end of the Anshang warning device and the brakes brakes ^s line to let it ^ brake, the body has a warning and brake control unit, = the frame on the cylindrical frame alternately slides in the concave of the wheel frame Shaped track; sleeve movement 25 201235558, 'sleeve and mosquito towel recording heart _ bearing surface, and - with concave frame, shaft bearing connection brake drum, can accept hollow 敔, row direction, safety: rectangular blade inside The sail-like structure can be retracted, and the cymbal S is = release = support structure. The bottom of the sail is fixed at the bottom of the outer frame of the blade. The outer shell of the blade has a C-shaped groove structure. e ^ Port = === There are bracket rails at both ends, and the rails at both ends of the horizontal sail beam are placed when the === beam rises to the top of the blade frame. It is complete; When it is lowered to the outside of the piece, it is the least windy state. 26