CN102828784B - Pneumatic driving and power-generating machine - Google Patents
Pneumatic driving and power-generating machine Download PDFInfo
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- CN102828784B CN102828784B CN201110156705.9A CN201110156705A CN102828784B CN 102828784 B CN102828784 B CN 102828784B CN 201110156705 A CN201110156705 A CN 201110156705A CN 102828784 B CN102828784 B CN 102828784B
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- cylindrical drum
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Abstract
A shaft is connected on the left end face of the bottom of a cylinder I; an outer circle of a left disc is sleeved on an inner circle of the left part of a cylinder II; a blade and the cylinder I form a turbine; a cylinder is arranged in the turbine, a control motor is jointed on the left end face of the right side in the cylinder, a fan-shaped wheel is jointed on a hollow shaft of the control motor, a tile-shaped sheet is connected on the outer arc surface of the fan-shaped wheel, the tile-shaped sheet can shield a radial opening of air injection holes; the injection opening of each air injection hole is arranged along the tangent direction of the cylinder; a rotor hollow shaft of a generator set and the right part of the cylinder are concentrically connected; the cylinder doubles as a compressed air tank; the inner circle of the cylinder II is sleeved on the outer circle of the right disc; rotors are arranged on the left disc and the right disc; the control motor is connected with the controller which is fixed on the outer circle of the rotor shaft; the controller is connected with the generator set; a remote controller is connected with an output terminal of the generator set; the remote controller and the controller communicate with each other in a wireless form; and a charge valve is connected with the right end of the rotor shaft. A plurality of permanent magnets are respectively arranged on the turbine, the cylinder II, the cylinder, the left disc and the right disc so as to increase the torque.
Description
Technical field
The present invention relates to electromechanical integration technology, particularly a kind of aerodynamic force and electric organ.
Background technique
Existing chemical cell complex process, the material used is toxic, price.Not only production process is detrimental to health, endangers environment, and use scrap after be difficult to process, befouling environment.Energy density short its critical defect especially in (electric energy that per unit volume stores or the electric energy that unit mass stores) low, working life.Existing fuel cell, Fly wheel energy storage system, although pollute very little, technical sophistication, cost performance is low.Due to these defects, limit the use of existing battery, also make the Difficulty of electric vehicle, electronic ship heavy.
Existing Pneumatic actuator, efficiency low (about 35%) is also serious problems.
Summary of the invention
The present invention designs a kind of aerodynamic force and electric organ, and overcome the defect of existing battery, existing Pneumatic actuator, utilize compressed-air-storing energy, energy density is high, can export electric energy as battery, again can direct outputting power.Aerodynamic force and electric organ efficiency is high, cost performance is very high, the life-span is long, environmental protection.
The present invention is achieved through the following technical solutions.
As Fig. 1 Fig. 2 shows.
The right-hand member of axle 7 connects with left side concentric at the bottom of the cylinder of a cylinder 13, circumferentially has some deflation holes 14 at the bottom of the cylinder of a cylinder 13; With left bearing 10, axle 7 is arranged on the central authorities of left disk 2; No. two cylinder 16 left part inner circles are socketed in the cylindrical of left disk 2, and left disk 2 circumferentially has some exhaust ports 3, and exhaust port 3 is corresponding with deflation hole 14; Silencer cover 1 is enclosed within outside axle 7 cylindrical, and is socketed on the cylindrical on No. two cylinder 16 left sides, and the mesopore of silencer cover 1 and the cylindrical of axle 7 interspace 9, and silencer cover 1 leaves left end one interval of left disk 2; Some blades 15 are evenly arranged the inner circle being connected in a cylinder 13, and the left end of blade 15 connects with the right side at the bottom of the cylinder of a cylinder 13, and blade 15 and a cylinder 13 form turbine; Being placed in described turbine of cylindrical drum 11 concentric, but be not in contact with each other; Left side, the right concentric in cylindrical drum 11 connects control motor 8, the hollow shaft 6 controlling motor 8 connects sectional wheel 5, connect watt shape sheet 4 at the outer arced surface of sectional wheel 5, watt shape sheet 4 contacts with cylindrical drum 11 inner circle, and watt shape sheet 4 can hide the radial port of fumarole 12; Fumarole 12 is diametrically arranged in pairs in cylindrical drum 11, tangential along cylindrical drum 11 of the spout of each fumarole 12, and the spout of each fumarole 12 or be all clockwise direction, or be all counterclockwise; The rotor shaft 20 of generator set 19 connects with the right part concentric of cylindrical drum 11, and rotor shaft 20 is hollow; Cylindrical drum 11 doubles as compressed air cylinder; With right bearing 17, rotor shaft 20 is arranged on the central authorities of right disk 27; No. two cylinder 16 right part inner circles are socketed in the cylindrical of right disk 27; Control motor 8 wire 25, No. two wires 26 to be connected with the controller 24 be fixed on rotor shaft 20 cylindrical, a wire 25, No. two wire 26 glue are fixed in the axial groove on rotor shaft 20, and controller 24 is between right disk 27 and generator set 19; Controller 24 is connected with generator set 19 No. three wires 22, No. four wires 23, and No. three wires 22, No. four wire 23 glue are fixed in the axial groove on rotor shaft 20; Remote controller 18 is connected with the Out let No. five wire 18-1 of generator set 19, No. six wire 18-2; Remote controller 18 and controller 24 wirelessly contact; Gas charging valve 21 connects with the right-hand member of rotor shaft 20.
At the cylindrical of a cylinder 13, some permanent magnet 13-3 are set; In the inner circle of No. two cylinders 16, some No. two permanent magnet 16-1 are set.A permanent magnet 13-3 does not contact with No. two permanent magnet 16-1, but makes the two be along the circumferential direction tangent direction, produces mutual magnetic repulsion or magnetic attachment active force.
At the left end of a cylinder 13, some No. three permanent magnet 13-1 are set; At the right-hand member of left disk 2, some No. four permanent magnet 2-1 are set.No. three permanent magnet 13-1 do not contact with No. four permanent magnet 2-1, but make the two be along the circumferential direction tangent direction, produce mutual magnetic repulsion or magnetic attachment active force.
Some No. five permanent magnet 13-2 are set at the bottom of the cylinder of a cylinder 13; At the left end of cylindrical drum 11, some No. six permanent magnet 11-1 are set.No. five permanent magnet 13-2 do not contact with No. six permanent magnet 11-1, but make the two be along the circumferential direction tangent direction, produce mutual magnetic repulsion or magnetic attachment active force.
At the left end of right disk 27, some No. seven permanent magnet 27-1 are set; At the right-hand member of cylindrical drum 11, some No. eight permanent magnet 11-2 are set.No. seven permanent magnet 27-1 do not contact with No. eight permanent magnet 11-2, but make the two be along the circumferential direction tangent direction, produce mutual magnetic repulsion or magnetic attachment active force.
First to the charge storage unit charging in the charge storage unit in remote controller 18, controller 254.Air is pressed in cylindrical drum 11 by gas charging valve 22, rotor shaft 20, hollow shaft 6 successively.
By remote controller 18 operation control 24, control motor 8 is made to rotate watt shape sheet 4, open fumarole 12, high-pressure air in cylindrical drum 11 sprays from fumarole 12, cylindrical drum 11 will rotate backward, run out of from deflation hole 14 after the high pressure draught impulse turbine simultaneously sprayed from fumarole 12 rotates, then overflow from exhaust port 3, space 9 successively.Cylindrical drum 11 turns generator set 19 and generates electricity, the outer confession of TV university part sent, sub-fraction supply remote controller 18 and controller 24.Turbine is by axle 7 outwards outputting power.Regulate watt shape sheet 4 to open the size of fumarole 12 by remote controller 18 operation control 24, described aerodynamic force and electric organ Energy transmission can be controlled.Described aerodynamic force and electric organ not only can realize the function of battery, can also directly realize power engine function.If axle 7 only drives another generator set, so described aerodynamic force and electric organ just only export controlled electric energy, are a battery completely.Make a watt shape sheet 4 cover fumarole 12 and can close described aerodynamic force and electric organ.
In described turbine, cylindrical drum 11 rotation process, the permanent magnet interaction of setting, can produce very large torque increment to turbine, cylindrical drum 11, and this is similar to the effect that the permanent magnet in magneto produces.Magneto change current direction realizes paraphase, and the power that the present invention's pressurized air produces realizes the transformation of repulsion and gravitation between two permanent magnets.
The effect that the present invention is useful:
1, described aerodynamic force and electric organ manufacture process, using process, rear almost non-toxic evil is scrapped, so environmental protection.
2, traditional Pneumatic actuator, pressurized gas is from gas holder along pneumatic tube to the blast nozzle in active chamber on the one hand, because friction can cause no small energy loss; Blast nozzle is fixed on active chamber inwall on the other hand, only with the work done of jet stream impulse turbine, cannot utilize jet reaction force acting.So traditional Pneumatic actuator efficiency low (about 35%).And described aerodynamic force and electric organ, rotating cylinder arranges fumarole, not only utilizes the work done of jet stream impulse turbine, and reaction force work done when utilizing jet, in addition utilize permanent magnetic to produce very large torque increment, it is estimated that its efficiency can reach more than 90%.
3, traditional Pneumatic actuator must with gas holder, and cause its volume comparatively large, thus energy density is low.And described aerodynamic force and electric organ utilize the cylinder of energy work done to double as gas holder, so small volume, energy density is higher.
4, to determine its shelf-life long for the structure of described aerodynamic force and electric organ and working principle.
5, due to above-mentioned advantage 1,2,3,4, thus described aerodynamic force and electric organ cost performance high.
6, described aerodynamic force and electric organ can output powers, again can direct outputting power.
7, due to above-mentioned advantage 1,2,3,4,5,6, the application prospect of aerodynamic force and electric organ is more wide.Such as the manufacture of Cleaning Equipment, ship etc., traditional battery will be replaced gradually.
Accompanying drawing explanation
Fig. 1 is the structural representation of described aerodynamic force and electric organ;
Fig. 2 is the A-A sectional drawing of Fig. 1.
Embodiment
Embodiment:
As Fig. 1 Fig. 2 shows.
The right-hand member of axle 7 connects with left side concentric at the bottom of the cylinder of a cylinder 13, circumferentially has some deflation holes 14 at the bottom of the cylinder of a cylinder 13; With left bearing 10, axle 7 is arranged on the central authorities of left disk 2; No. two cylinder 16 left part inner circles are socketed in the cylindrical of left disk 2, and left disk 2 circumferentially has some exhaust ports 3, and exhaust port 3 is corresponding with deflation hole 14; Silencer cover 1 is enclosed within outside axle 7 cylindrical, and is socketed on the cylindrical on No. two cylinder 16 left sides, and the mesopore of silencer cover 1 and the cylindrical of axle 7 interspace 9, and silencer cover 1 leaves left end one interval of left disk 2; Some blades 15 are evenly arranged the inner circle being connected in a cylinder 13, and the left end of blade 15 connects with the right side at the bottom of the cylinder of a cylinder 13, and blade 15 and a cylinder 13 form turbine; Being placed in described turbine of cylindrical drum 11 concentric, but be not in contact with each other; Being placed in described turbine of cylindrical drum 11 concentric, but be not in contact with each other; Left side, the right concentric in cylindrical drum 11 connects control motor 8, the hollow shaft 6 controlling motor 8 connects sectional wheel 5, connect watt shape sheet 4 at the outer arced surface of sectional wheel 5, watt shape sheet 4 contacts with cylindrical drum 11 inner circle, and watt shape sheet 4 can hide the radial port of fumarole 12; Fumarole 12 is diametrically arranged in pairs in cylindrical drum 11, tangential along cylindrical drum 11 of the spout of each fumarole 12, and the spout of each fumarole 12 or be all clockwise direction, or be all counterclockwise; The rotor shaft 20 of generator set 19 connects with the right part concentric of cylindrical drum 11, and rotor shaft 20 is hollow; Cylindrical drum 11 doubles as compressed air cylinder; With right bearing 17, rotor shaft 20 is arranged on the central authorities of right disk 27; No. two cylinder 16 right part inner circles are socketed in the cylindrical of right disk 27; Control motor 8 wire 25, No. two wires 26 to be connected with the controller 24 be fixed on rotor shaft 20 cylindrical, a wire 25, No. two wire 26 glue are fixed in the axial groove on rotor shaft 20, and controller 24 is between right disk 27 and generator set 19; Controller 24 is connected with generator set 19 No. three wires 22, No. four wires 23, and No. three wires 22, No. four wire 23 glue are fixed in the axial groove on rotor shaft 20; Remote controller 18 is connected with the Out let No. five wire 18-1 of generator set 19, No. six wire 18-2; Remote controller 18 and controller 24 wirelessly contact; Gas charging valve 21 connects with the right-hand member of rotor shaft 20.
At the cylindrical of a cylinder 13, some permanent magnet 13-3 are set; In the inner circle of No. two cylinders 16, some No. two permanent magnet 16-1 are set.A permanent magnet 13-3 does not contact with No. two permanent magnet 16-1, but makes the two be along the circumferential direction tangent direction, produces mutual magnetic repulsion or magnetic attachment active force.
At the left end of a cylinder 13, some No. three permanent magnet 13-1 are set; At the right-hand member of left disk 2, some No. four permanent magnet 2-1 are set.No. three permanent magnet 13-1 do not contact with No. four permanent magnet 2-1, but make the two be along the circumferential direction tangent direction, produce mutual magnetic repulsion or magnetic attachment active force.
Some No. five permanent magnet 13-2 are set at the bottom of the cylinder of a cylinder 13; At the left end of cylindrical drum 11, some No. six permanent magnet 11-1 are set.No. five permanent magnet 13-2 do not contact with No. six permanent magnet 11-1, but make the two be along the circumferential direction tangent direction, produce mutual magnetic repulsion or magnetic attachment active force.
At the left end of right disk 27, some No. seven permanent magnet 27-1 are set; At the right-hand member of cylindrical drum 11, some No. eight permanent magnet 11-2 are set.No. seven permanent magnet 27-1 do not contact with No. eight permanent magnet 11-2, but make the two be along the circumferential direction tangent direction, produce mutual magnetic repulsion or magnetic attachment active force.
Claims (1)
1. aerodynamic force and electric organ, is characterized in that: the right-hand member of axle (7) connects with left side concentric at the bottom of the cylinder of a cylinder (13), circumferentially has some deflation holes (14) at the bottom of the cylinder of a cylinder (13); With left bearing (10), axle (7) is arranged on the central authorities of left disk (2); No. two cylinder (16) left part inner circles are socketed in the cylindrical of left disk (2), left disk (2) circumferentially have some exhaust ports (3), and exhaust port (3) is corresponding with deflation hole (14); Silencer cover (1) is enclosed within outside axle (7) cylindrical, and be socketed on the cylindrical on No. two cylinder (16) left sides, the mesopore of silencer cover (1) and the cylindrical of axle (7) interspace (9), and silencer cover (1) leaves left end one interval of left disk (2); Some blades (15) are evenly arranged the inner circle being connected in a cylinder (13), the left end of blade (15) connects with the right side at the bottom of the cylinder of a cylinder (13), and blade (15) and a cylinder (13) form turbine; Being placed in described turbine of cylindrical drum (11) concentric, but be not in contact with each other; Left side, the right concentric in cylindrical drum (11) connects control motor (8), the hollow shaft (6) controlling motor (8) connects sectional wheel (5), watt shape sheet (4) is connected at the outer arced surface of sectional wheel (5), watt shape sheet (4) contacts with cylindrical drum (11) inner circle, and watt shape sheet (4) can hide the radial port of fumarole (12); Fumarole (12) is diametrically arranged in pairs in cylindrical drum (11), tangential along cylindrical drum (11) of the spout of each fumarole (12), and the spout of each fumarole (12) or be all clockwise direction, or be all counterclockwise; The rotor shaft (20) of generator set (19) and the right part concentric of cylindrical drum (11) connect, and rotor shaft (20) is hollow; Cylindrical drum (11) doubles as compressed air cylinder; With right bearing (17), rotor shaft (20) is arranged on the central authorities of right disk (27); No. two cylinder (16) right part inner circles are socketed in the cylindrical of right disk (27); Control motor 8 to be connected with the controller (24) be fixed on rotor shaft (20) cylindrical with a wire (25), No. two wires (26), wire (25), No. two wires (26) are fixed in the axial groove on rotor shaft (20) with glue, and controller (24) is between right disk (27) and generator set (19); Controller (24) is connected with No. three wires (22), No. four wires (23) with generator set (19), and No. three wires (22), No. four wires (23) are fixed in the axial groove on rotor shaft (20) with glue; Remote controller (18) is connected with No. five wires (18-1), No. six wires (18-2) with the Out let of generator set (19); Remote controller (18) and controller (24) wirelessly contact; Gas charging valve (21) connects with the right-hand member of rotor shaft (20);
At the cylindrical of a cylinder (13), some permanent magnets (13-3) are set; In the inner circle of No. two cylinders (16), some No. two permanent magnets (16-1) are set; A permanent magnet (13-3) does not contact with No. two permanent magnets (16-1), but makes the two be along the circumferential direction tangent direction, produces mutual magnetic repulsion or magnetic attachment active force;
At the left end of a cylinder (13), some No. three permanent magnets (13-1) are set; At the right-hand member of left disk (2), some No. four permanent magnets (2-1) are set; No. three permanent magnets (13-1) do not contact with No. four permanent magnets (2-1), but make the two be along the circumferential direction tangent direction, produce mutual magnetic repulsion or magnetic attachment active force;
Some No. five permanent magnets (13-2) are set at the bottom of the cylinder of a cylinder (13); At the left end of cylindrical drum (11), some No. six permanent magnets (11-1) are set; No. five permanent magnets (13-2) do not contact with No. six permanent magnets (11-1), but make the two be along the circumferential direction tangent direction, produce mutual magnetic repulsion or magnetic attachment active force;
At the left end of right disk (27), some No. seven permanent magnets (27-1) are set; At the right-hand member of cylindrical drum (11), some No. eight permanent magnets (11-2) are set; No. seven permanent magnets (27-1) do not contact with No. eight permanent magnets (11-2), but make the two be along the circumferential direction tangent direction, produce mutual magnetic repulsion or magnetic attachment active force.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201110156705.9A CN102828784B (en) | 2011-06-13 | 2011-06-13 | Pneumatic driving and power-generating machine |
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Application Number | Priority Date | Filing Date | Title |
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CN201110156705.9A CN102828784B (en) | 2011-06-13 | 2011-06-13 | Pneumatic driving and power-generating machine |
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CN102828784A CN102828784A (en) | 2012-12-19 |
CN102828784B true CN102828784B (en) | 2015-06-17 |
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CN201110156705.9A Expired - Fee Related CN102828784B (en) | 2011-06-13 | 2011-06-13 | Pneumatic driving and power-generating machine |
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CN113224907B (en) * | 2021-05-17 | 2022-08-19 | 华能太仓发电有限责任公司 | Power generation system and use method thereof |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
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JP2002153036A (en) * | 2000-11-08 | 2002-05-24 | Sumitomo Special Metals Co Ltd | Rotary machine and wind power generator using the same |
CN201210641Y (en) * | 2008-06-17 | 2009-03-18 | 南京师范大学 | Cross-flow wind power dynamo magneto |
CN201671768U (en) * | 2010-05-14 | 2010-12-15 | 周大同 | Power unit |
CN101956667A (en) * | 2010-09-06 | 2011-01-26 | 朱恒杰 | Wind magnet comprehensive generating system |
CN201747411U (en) * | 2010-08-02 | 2011-02-16 | 郭旭东 | Engine capable of converting gas, electricity and magnetic energy into KE |
CN202176457U (en) * | 2011-06-13 | 2012-03-28 | 刘新广 | Air power and generator |
Family Cites Families (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS57198123A (en) * | 1981-05-27 | 1982-12-04 | Yoshiteru Kitagawa | Magnetic engine for car by air medium |
WO2006005041A2 (en) * | 2004-06-30 | 2006-01-12 | Mike Tkadlec | Magnetic propulsion motor |
US8487470B2 (en) * | 2009-05-22 | 2013-07-16 | Derek Grassman | Vertical axis wind turbine and generator therefore |
-
2011
- 2011-06-13 CN CN201110156705.9A patent/CN102828784B/en not_active Expired - Fee Related
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2002153036A (en) * | 2000-11-08 | 2002-05-24 | Sumitomo Special Metals Co Ltd | Rotary machine and wind power generator using the same |
CN201210641Y (en) * | 2008-06-17 | 2009-03-18 | 南京师范大学 | Cross-flow wind power dynamo magneto |
CN201671768U (en) * | 2010-05-14 | 2010-12-15 | 周大同 | Power unit |
CN201747411U (en) * | 2010-08-02 | 2011-02-16 | 郭旭东 | Engine capable of converting gas, electricity and magnetic energy into KE |
CN101956667A (en) * | 2010-09-06 | 2011-01-26 | 朱恒杰 | Wind magnet comprehensive generating system |
CN202176457U (en) * | 2011-06-13 | 2012-03-28 | 刘新广 | Air power and generator |
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CN102828784A (en) | 2012-12-19 |
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Granted publication date: 20150617 Termination date: 20160613 |