CN101109362A

CN101109362A - Fluid energy converting device

Info

Publication number: CN101109362A
Application number: CNA2007101392645A
Authority: CN
Inventors: 蔡志凌
Original assignee: Individual
Current assignee: Individual
Priority date: 2007-08-20
Filing date: 2007-08-20
Publication date: 2008-01-23
Anticipated expiration: 2027-08-20
Also published as: CN100538064C

Abstract

The invention relates to an energy converter for fluid, pertains to the technical field of energy conversion, which can convert the kinetic energy of a fluid in any direction into mechanical energy for rotating in oriented way about a rotary shaft by the following propose: a fluid energy converter, a rotatable main shaft and at least two rotating parts that are isolated each other and drive the main shaft to rotate in the same direction and rotate about a cross shaft that is vertical to the main shaft, a rotating part comprises at least one cross shaft that is vertical to the main shaft and fixed, at least one group of longitudinally rotating blades that rotate about the cross shaft and a cross baffling shaft that baffles the longitudinally rotating blade at the lowest point and is vertical to the main shaft. The invention can take use of wind, water flow, wave, tide, pressure oil and steam for generating power, irrigation and transportation, etc., and is of a wonderful market prospect.

Description

Fluid energy converting device

Technical field

Fluid energy converting device of the present invention is specifically related to a kind ofly the fluid dynamic energy of any direction to be converted to the device of doing the mechanical energy of directed rotation around a certain rotating shaft, belongs to the energy conversion technique field.

Background technique

The human at present exploitation to new and renewable sources of energy also is in the starting stage, mainly pass through solar energy, the water energy, wind energy, chemical energy and atomic power wait and obtain energy, these energy such as chemical energy and atomic power exist certain pollution and harm at this stage, and solar energy, water energy and Wind Power Utilization are commonplace, and solar energy, the utilization of water energy or wind energy is easy to be subjected to the time, the influence of region and other factors, particularly utilize water energy and wind energy, be subjected to the direction of current or wind and the influence of flow velocity especially, for the water energy, can only obtain electric energy by in large-scale flowing water channel, setting up the water power plant, and thousands of little river does not also obtain development and use, the development and utilization of enriching marine energy is also under test for containing, the particularly tidal energy of ocean and wave energy, this is good non-polluting energy sources, owing to the time descend to be difficult to when going up to utilize; Can only set up the wind power station in the bigger area of wind speed for wind energy and obtain electric energy, when constantly changing direction, current or wind-force just is difficult to obtain electric energy, the efficient of the wind-driven generator of existing vertical shaft or horizontal axis is lower, is unfavorable for extensive extensively popularization.

Chinese patent notification number CN2087242U, the patent No. is: 90219658.8, the day for announcing is on October 23rd, 1991, name is called and discloses a kind of fluid dynamic conversion equipment in " fluid dynamic conversion equipment ", it is characterized in that: support at its top and the middle part axis hole is respectively arranged, main shaft cooperates with bracket bearing by two axis holes on the support, the top of main shaft is screwed two connectors, four air door strut jacks that have substantially horizontal evenly to announce on the connector are screwed behind the air door strut inserted link on the air door strut insertion connector; One side of air door strut has axis hole, and air door cooperates with air door strut bearing, and the air door postive stop baffle is fixed on a side of strut axis hole.The air door of this utility model patent is a left rotation and right rotation on horizontal plane; air door can be blown to the position that can not rotate under special circumstances; and air door can not return to original state voluntarily, can not regulate stressed size and lifting surface area, does not have self-protecting function under high wind.

Summary of the invention

Technical problem to be solved by this invention provides and a kind ofly the fluid dynamic energy of any direction can be converted to the mechanical energy of doing directed rotation around a certain rotating shaft, and have utilize gravity restPose automatically, can according to actual conditions regulate loading angle and lifting surface area fluid energy converting device.

In order to solve the problems of the technologies described above, fluid energy converting device of the present invention is achieved through the following technical solutions: fluid energy converting device, main by a supporting structure and be installed in the solid of rotation device that this structural any direction fluid can both drive, this solid of rotation device comprises: rotatable main shaft 2 and at least two covers are spaced from each other and drive main shaft 2 and do rotation in the same way together, and also around the solid of rotation 3 perpendicular to transverse axis 4 rotations of main shaft 2;

Each above-mentioned solid of rotation 3 mainly comprises: at least one with main shaft 2 mutual vertical and fixing transverse axis 4, be vertical rotation blade 5 of vertical rotation and at least one around transverse axis 4 at least one group and block bottom vertically rotation blade 5, and with main shaft 2 orthogonal strut rail axles 6, its structure is: each group transverse axis 4 is vertically fixed on the side of main shaft 2 along same straight line, and block the bottom of last one group of vertical rotation blade 5 along equidirectional, vertically rotation blade 5 rotatably is sleeved on the periphery of transverse axis 4, strut rail axle 6 is parallel to each other with transverse axis 4 and is vertically fixed on the side of main shaft 2, and strut rail axle 6 blocks the bottom of bottom one group of vertical rotation blade 5 along equidirectional;

Each above-mentioned solid of rotation 3 can also be mainly to comprise: at least one with main shaft 2 mutual vertical and rotating transverse axis 4, at least one group is fixed on vertical rotation blade 5 on the transverse axis 4 and at least one and blocks bottom vertically rotation blade 5, and with main shaft 2 orthogonal strut rail axles 6, its structure is: each group transverse axis 4 is along the vertical rotatable side that is sleeved on main shaft 2 of same straight line, and block the bottom of last one group of vertical rotation blade 5 along equidirectional, vertically rotation blade 5 is fixed on the periphery of transverse axis 4, strut rail axle 6 is parallel to each other with transverse axis 4 and is vertically fixed on the side of main shaft 2, and strut rail axle 6 blocks the bottom of bottom one group of vertical rotation blade 5 along equidirectional;

Above-mentioned solid of rotation 3 can also move up and down along main shaft 2 integral body;

Each above-mentioned solid of rotation 3 also comprises: a cover is fixed on the framework 7 of main shaft 2 sides, at least one cover and connects the fixedly positioning means 10 of transverse axis 4 and strut rail axle 6 of the elevator mechanism 8 of transverse axis 4 and strut rail axle 6, the limit stoper 9 of regulating vertical rotation blade 5 rotation angles and at least one cover, its structure is: rectangular framework 7 is vertically fixed on the side of main shaft 2, transverse axis 4 and strut rail axle 6 are fixed on the both sides of framework 7 by elevator mechanism 8 and positioning means 10, are provided with the limit stoper 9 of vertical rotation blade 5 rotations in the side of framework 7;

Above-mentioned elevator mechanism 8 comprises lifting motor 11 and bridle line 12, and its structure is: lifting motor 11 is fixed on the upper end of framework 7, and the round end of lifting motor 11 connects all transverse axis 4 from top to down by bridle line 12;

Above-mentioned limit stoper 9 comprises electric rotating machine 13, last bridle line 14, each organizes the swivel mount 16 of vertical rotation blade 5 rotation angles lower connecting rod 15 and adjusting, its structure is: electric rotating machine 13 is fixed on the upper end of framework 7, the round end of electric rotating machine 13 connects the upper end of lower connecting rod 15 by last bridle line 14, connecting rod 15 and end face become the right angle end 17 of L shaped swivel mount 16 to link to each other, the side of the groove 19 of the framework 7 that the upper end 18 of swivel mount 16 is hinged on, the angle, lower end 20 of swivel mount 16 is by bottom bar 21 movable contacts in vertical rotation blade 5 underparts, bottom bar 21 is connected with angle, lower end 20, and perpendicular with the end face of swivel mount 16;

Above-mentioned positioning means 10 comprises motor 23, check lock lever 24, locking connecting rod 25 and lock plunger 26, its structure is: the neutral position of check lock lever 24 is hinged on the below, side of the groove 19 that each transverse axis 4 and strut rail axle 6 fixed, the little groove 27 of check lock lever 24 1 end bands, the other end is rigidly connected by locking connecting rod 25, and the bottom of locking connecting rod 25 links to each other with the lock plunger 26 of solenoid valve by bridle line.

Fluid energy converting device of the present invention has following beneficial effect compared with prior art:

1, is skillfully constructed, simple and reasonable for structure, reliable and stable: because being spaced from each other and driving main shaft 2 by a rotatable main shaft 2 and at least two covers, fluid energy converting device of the present invention does rotation in the same way together, and the solid of rotation 3 that also rotates around the transverse axis 4 perpendicular to main shaft 2; The structure of each solid of rotation 3 is: each group transverse axis 4 is vertically fixed on the side of main shaft 2 along same straight line, and block the bottom of last one group of vertical rotation blade 5 along equidirectional, vertically rotation blade 5 rotatably is sleeved on the periphery of fulcrum 4, strut rail axle 6 is parallel to each other with transverse axis 4 and is vertically fixed on the side of main shaft 2, and strut rail axle 6 blocks the bottom of bottom one group of vertical rotation blade 5 along equidirectional; Solid of rotation 3 can also move up and down along main shaft 2 integral body; Each solid of rotation 3 also comprises: a cover is fixed on the framework 7 of main shaft 2 sides, at least one cover and connects the fixedly positioning means 10 of transverse axis 4 and strut rail axle 6 of the elevator mechanism 8 of transverse axis 4 and strut rail axle 6, the limit stoper 9 of regulating vertical rotation blade 5 rotation angles and at least one cover, its structure is: rectangular framework 7 is vertically fixed on the side of main shaft 2, transverse axis 4 and strut rail axle 6 are fixed on the both sides of framework 7 by elevator mechanism 8 and positioning means 10, are provided with the limit stoper 9 of vertical rotation blade 5 rotations in the side of framework 7; Therefore this apparatus structure advantages of simple has the gravity of utilization and restPoses automatically, can regulate loading angle and lifting surface area by elevator mechanism 8 and limit stoper 9, has self-protecting function.

2; application is wide; energy-conserving and environment-protective: because fluid energy converting device of the present invention can convert the fluid dynamic energy of any direction to the mechanical energy of directed rotation; elevator mechanism 8 and limit stoper 9 make this device have the lifting surface area of adjusting and stressed size; and the self-protection function under abominable situation; therefore use the available fluid of the present invention that wind is arranged; current; wave; morning and evening tides; steam; the pressure wet goods; can be used for generating electricity; irrigation and transportation etc.; the resource of all utilizations of the present invention is natural energy resources and non-polluting energy sources, also can not produce secondary pollution in conversion process of energy.

3, easily make, easily installation, easy-maintaining, manufacturing cost and use cost be low: because simple in structure, all component all are easy to get, therefore easily making, easy installation, easy-maintaining, and manufacturing process is simple, need not to re-use other energy in the using process, do not have cost of use substantially.

Description of drawings

Below in conjunction with accompanying drawing fluid energy converting device of the present invention is further specified:

Fig. 1 is the structural upright schematic representation of first kind of mode of execution of fluid energy converting device of the present invention;

Fig. 2 is the structural upright schematic representation of second kind of mode of execution of fluid energy converting device of the present invention;

Fig. 3 is the structural upright schematic representation of the third mode of execution of fluid energy converting device of the present invention;

Fig. 4 be among Fig. 3 A to view;

Fig. 5 is the working state figure of B-B sectional view positioning means 10 among Fig. 3;

Fig. 6 is the off working state figure of B-B sectional view positioning means 10 among Fig. 3;

Fig. 7 is a fluid energy converting device Application Example 1 of the present invention;

Fig. 8 is a fluid energy converting device Application Example 2 of the present invention.

Embodiment

Fig. 1 is the structural upright schematic representation of first kind of mode of execution of fluid energy converting device of the present invention, this device is by support 1, main shaft 2, solid of rotation 3, transverse axis 4, vertically rotation blade 5 and strut rail axle 6 are formed, main shaft 2 rotatable being fixed on the support 1 among this figure, a solid of rotation 3 is fixed to becoming each in the side of main shaft 2, each solid of rotation 3 comprises: 1 with main shaft 2 mutual vertical and fixing transverse axis 4, one group of vertical rotation blade 5 and bottom of blocking vertical rotation blade 5 of doing vertical rotation around transverse axis 4, and with main shaft 2 orthogonal strut rail axles 6, the structure of each solid of rotation 3 is: strut rail axle 6 is seen the bottom of blocking vertical rotation blade 5 along clockwise direction from the top down, vertically rotation blade 5 rotatably is sleeved on the periphery of transverse axis 4, and strut rail axle 6 is parallel to each other with transverse axis 4 and is vertically fixed on the side of main shaft 2.

Its working procedure is: when fluid (such as wind energy, water energy, wave energy, steam energy, pressure wet goods) passes through fluid energy converting device of the present invention from front as shown in Figure 1, transverse axis 4 on the solid of rotation 3 in this moment left side is seen the bottom of blocking vertical rotation blade 5 on the clockwise direction from the top down, and promptly strut rail axle 6 is at the vertical front end of rotation blade 5 bottoms; Transverse axis 4 on the solid of rotation 3 on right side is seen the bottom of blocking vertical rotation blade 5 on the clockwise direction from the top down, be the rear end of strut rail axle 6 in vertical rotation blade 5 bottoms, vertical rotation blade 5 in left side is under the effect of fluid dynamic energy, because strut rail axle 6 blocks vertical rotation blade 5 in front, therefore vertical rotation blade 5 in left side can not be blown afloat, and sees from the top down along clockwise moment of torsion thereby make the left side be subjected to one; Vertical rotation blade 5 on right side is under the effect of fluid dynamic energy, because strut rail axle 6 blocks vertical rotation blade 5 in the back, this moment, vertical rotation blade 5 on right side was blown afloat rearwards by fluid dynamic energy, rise blow afloat angle greater than 0 degree less than 90 degree, what this moment, fluid produced sees that from the top down along anticlockwise moment of torsion be zero substantially, because vertical rotation blade 5 lifting surface areas in left side equal the area of vertical rotation blade 5, and vertical rotation blade lifting surface area on right side is far smaller than the area of the vertical rotation blade 5 in right side, the right and left is stressed subtract each other after, the resultant moment of force of the left and right sides is to see from the top down along right handed moment, therefore drives main shaft 2 around turning clockwise.When the solid of rotation 3 on right side originally forwards the left side to (Rotate 180 ° after), its stressing conditions is with original stressed consistent, when originally Zuo Ce solid of rotation 3 forwards the right side to, the solid of rotation 3 on its stressing conditions and original right side stressed consistent, when originally the solid of rotation 3 on right side forwards the left side to, the solid of rotation 3 in its stressing conditions and original left side stressed consistent, thereby whole stressing conditions is identical, can make main shaft 2 keep continuing identical seeing from the top down along clockwise direction and rotate;

If from the negative flow through of the present invention fluid energy converting device when fluid becomes this moment, this moment is top view person relatively, the stressing conditions of the solid of rotation 3 on right side is consistent with primary left side stressing conditions at this moment, and the stressing conditions of the solid of rotation 3 on the left of this moment is consistent with primary right side stressing conditions, this moment, fluid energy converting device was out-of-date in reverse fluid flow, the main shaft 2 of this device is still done seen from the top down along clockwise direction and rotate; Therefore fluid flows through main shaft 2 that this device all makes this device from which direction and does and be rotated counterclockwise.

Fig. 2 is the structural upright schematic representation of first kind of mode of execution of fluid energy converting device of the present invention, this device is by support 1, main shaft 2, solid of rotation 3, transverse axis 4, vertically rotation blade 5 and strut rail axle 6 are formed, main shaft 2 rotatable being fixed on the support 1 among this figure, 3 solid of rotation 3 are fixed to one-tenth in the side of main shaft 2, each solid of rotation 3 comprises: 5 with main shaft 2 mutual vertical and rotating

transverse axis

4,2 groups of vertical rotation blade 5 and bottoms of blocking nethermost vertical rotation blade 5 of doing vertical rotation around each root transverse axis 4, and with main shaft 2 orthogonal strut rail axles 6, the structure of each solid of rotation 3 is: each group transverse axis 4 is along the vertical rotatable side that is fixed on main shaft 2 of same straight line, and see from the top down along the bottom of counterclockwise blocking last one group of vertical rotation blade 5, vertically rotation blade 5 is fixed on the periphery of transverse axis 4, strut rail axle 6 is parallel to each other with transverse axis 4 and is vertically fixed on the side of main shaft 2, and strut rail axle 6 is seen from the top down along the bottom of counterclockwise blocking bottom one group of vertical rotation blade 5.

Fig. 3 is the structural upright schematic representation of the third mode of execution of fluid energy converting device of the present invention, Fig. 4 be among Fig. 3 A to view, Fig. 5 is the working state figure of B-B sectional view positioning means 10 among Fig. 3, Fig. 6 is the off working state figure of B-B sectional view positioning means 10 among Fig. 3, in Fig. 3～6, this device is mainly by support 1, main shaft 2, solid of rotation 3, transverse axis 4, vertical rotation blade 5, strut rail axle 6, framework 7, elevator mechanism 8, limit stoper 9 and positioning means 10 are formed, main shaft 2 rotatable being fixed on the support 1 among this figure, 3 solid of rotation 3 are fixed to one-tenth in the side of main shaft 2, each solid of rotation 3 comprises: 7 with main shaft 2 mutual vertical and rotating

transverse axis

4,2 groups of vertical rotation blade 5 and bottoms of blocking nethermost vertical rotation blade 5 of doing vertical rotation around each root transverse axis 4, and with main shaft 2 orthogonal strut rail axles 6, solid of rotation 3 can also move up and down along main shaft 2 integral body; Each solid of rotation 3 also comprises: a cover is fixed on the framework 7 of main shaft 2 sides, one cover connects the elevator mechanism 8 of transverse axis 4 and

strut rail axle

6,7 covers are regulated the fixedly positioning means 10 of transverse axis 4 and strut rail axle 6 of the limit stoper 9 of vertical rotation blade 5 rotation angles and 2 covers, its structure is: rectangular framework 7 is vertically fixed on the side of main shaft 2, transverse axis 4 and strut rail axle 6 are fixed on the both sides of framework 7 by elevator mechanism 8 and positioning means 10, be provided with the limit stoper 9 of vertical rotation blade 5 rotations in the side of framework 7, each group transverse axis 4 is along the vertical rotatable side that is fixed on main shaft 2 of same straight line, and see from the top down along the bottom of counterclockwise blocking last one group of vertical rotation blade 5, vertically on the rotatable periphery that is sleeved on transverse axis 4 of rotation blade 5, strut rail axle 6 is parallel to each other with transverse axis 4 and is vertically fixed on the side of main shaft 2, strut rail axle 6 sees that from the top down the bottom of main shaft 2 is provided with automatically controlled part 28 along the bottom of counterclockwise blocking bottom one group of vertical rotation blade 5.

The structure of above-mentioned elevator mechanism 8 is: lifting motor 11 is fixed on the upper end of framework 7, and the round end of lifting motor 11 connects the intermediate portion of all transverse axis 4 and strut rail axle 6 from top to down by bridle line 12.

Above-mentioned limit stoper 9 comprises electric rotating machine 13, last bridle line 14, each organizes the swivel mount 16 of vertical rotation blade 5 rotation angles lower connecting rod 15 and adjusting, its structure is: electric rotating machine 13 is fixed on the both sides, upper end of framework 7, the round end of electric rotating machine 13 connects the upper end of lower connecting rod 15 by last bridle line 14, connecting rod 15 and end face become the right angle end 17 of L shaped swivel mount 16 to link to each other, the below, side of the groove 19 of the framework 7 that the upper end 18 of swivel mount 16 is hinged on, the angle, lower end 20 of swivel mount 16 is by bottom bar 21 movable contacts in vertical rotation blade 5 underparts, bottom bar 21 is connected with angle, lower end 20, and perpendicular with the end face of swivel mount 16.

The material of vertical rotation blade 5 can adopt high strength such as steel plate, metal alloy, glass fibre reinforced plastics, fiber, plastics, plastic-steel, light-duty material to make among the described the present invention in above Fig. 1～6; All motors, solenoid valve are motor commonly used on the market, and its automatically controlled part 28 also is control circuit commonly used.

In addition, overcome gravity and Mo Chali when making 5 rotations of vertical rotation blade, transverse axis 4 can be provided with the vertically middle and upper part of rotation blade 5 again, press the strut rail axle 7 consistent, can further increase work efficiency like this with transverse axis 4 directions in the bottom of each vertical rotation blade 5.

Fig. 7 is a fluid energy converting device Application Example 1 of the present invention, this device a kind of application on wind power plant, Fig. 7 is on the basis of Fig. 3～6, with support 1 link to each other as the rotor of magneto, rotation by main shaft 2 drives rotor rotation, thereby the generation electric energy, other structures and Fig. 3～6 are basic identical.

Fig. 8 is a fluid energy converting device Application Example 2 of the present invention, this device a kind of application on the wind-force haulage device, this device is to be on the basis of Fig. 3～6 at Fig. 7, with support 1 as the driving wheel that transports belt, provide power to conveyor belt, 4 solid of rotation 3 are fixed to one-tenth in the side of main shaft 2 among the figure, and other structures and Fig. 3～6 are basic identical.

Claims

1. fluid energy converting device, main by a supporting structure and be installed in the solid of rotation device that this structural any direction fluid can both drive, it is characterized in that: this solid of rotation device comprises: a rotatable main shaft (2) and at least two covers are spaced from each other and drive main shaft (2) and do rotation in the same way together, and the solid of rotation (3) that also rotates around the transverse axis (4) perpendicular to main shaft (2).

2. fluid energy converting device according to claim 1, it is characterized in that: each solid of rotation (3) mainly comprises: at least one with the mutual vertical and fixing transverse axis (4) of main shaft (2), be vertical rotation blade (5) of vertical rotation and at least one around transverse axis (4) at least one group and block bottom vertically rotation blade (5), and with the orthogonal strut rail axle of main shaft (2) (6), its structure is: each group transverse axis (4) is vertically fixed on the side of main shaft (2) along same straight line, and block the bottom of last one group of vertical rotation blade (5) along equidirectional, vertically rotation blade (5) rotatably is sleeved on the periphery of transverse axis (4), strut rail axle (6) and transverse axis (4) are parallel to each other and are vertically fixed on the side of main shaft (2), and strut rail axle (6) blocks the bottom of bottom one group of vertical rotation blade (5) along equidirectional.

3. fluid energy converting device according to claim 1, it is characterized in that: each solid of rotation (3) is by mainly comprising: at least one with the mutual vertical and rotating transverse axis (4) of main shaft (2), at least one group is fixed on vertical rotation blade (5) on the transverse axis (4) and at least one and blocks bottom vertically rotation blade (5), and with the orthogonal strut rail axle of main shaft (2) (6), its structure is: each group transverse axis (4) is along the vertical rotatable side that is sleeved on main shaft (2) of same straight line, and block the bottom of last one group of vertical rotation blade (5) along equidirectional, vertically rotation blade (5) is fixed on the periphery of transverse axis (4), strut rail axle (6) and transverse axis (4) are parallel to each other and are vertically fixed on the side of main shaft (2), and strut rail axle (6) blocks the bottom of bottom one group of vertical rotation blade (5) along equidirectional.

4. according to claim 2 or 3 described fluid energy converting devices, it is characterized in that: solid of rotation (3) can also move up and down along main shaft (2) integral body.

5. fluid energy converting device according to claim 4, it is characterized in that: each solid of rotation (3) also comprises: a cover is fixed on the framework (7) of main shaft (2) side, at least one cover connects the elevator mechanism (8) of transverse axis (4) and strut rail axle (6), regulate the fixedly positioning means (10) of transverse axis (4) and strut rail axle (6) of the limit stoper (9) of vertical rotation blade (5) rotation angle and at least one cover, its structure is: rectangular framework (7) is vertically fixed on the side of main shaft (2), transverse axis (4) and strut rail axle (6) are fixed on the both sides of framework (7) by elevator mechanism (8) and positioning means (10), are provided with the limit stoper (9) of vertical rotation blade (5) rotation in the side of framework (7).

6. fluid energy converting device according to claim 5, it is characterized in that: elevator mechanism (8) comprises lifting motor (11) and bridle line (12), its structure is: lifting motor (11) is fixed on the upper end of framework (7), and the round end of lifting motor (11) connects all transverse axis (4) from top to down by bridle line (12).

7. fluid energy converting device according to claim 5, it is characterized in that: limit stoper (9) comprises electric rotating machine (13), last bridle line (14), each organizes the swivel mount (16 of vertical rotation blade (5) rotation angle lower connecting rod (15) and adjusting, its structure is: electric rotating machine (13) is fixed on the upper end of framework (7), the round end of electric rotating machine (13) connects the upper end of lower connecting rod (15) by last bridle line (14), connecting rod (15) and end face become the right angle end (17) of L shaped swivel mount (16) to link to each other, the side of the groove (19) of the framework (7) that the upper end (18) of swivel mount (16) is hinged on, the angle, lower end (20) of swivel mount (16) contacts in vertical rotation blade (5) underpart by bottom bar (21) is movable, bottom bar (21) is connected with angle, lower end (20), and perpendicular with the end face of swivel mount (16).

8. fluid energy converting device according to claim 5, it is characterized in that: positioning means (10) comprises motor (23), check lock lever (24), locking connecting rod (25) and lock plunger (26), its structure is: the neutral position of check lock lever (24) is hinged on the below, side of the groove (19) that each transverse axis (4) and strut rail axle (6) fixed, the check lock lever little grooves of (24) one end bands (27), the other end is rigidly connected by locking connecting rod (25), and the bottom of locking connecting rod (25) links to each other with the lock plunger (26) of solenoid valve by bridle line.