CN205013055U

CN205013055U - Aerodynamic electric generator

Info

Publication number: CN205013055U
Application number: CN201520733223.9U
Authority: CN
Inventors: 陈小辉
Original assignee: Individual
Current assignee: Individual
Priority date: 2015-09-16
Filing date: 2015-09-16
Publication date: 2016-02-03
Anticipated expiration: 2025-09-16

Abstract

The utility model discloses an aerodynamic electric generator, its characterized in that: gas holder in super high -pressure gas production sealing device, hinder, fastener and magnet, super high -pressure gas production sealing device includes the frame, sets up compressor and the gas holder of setting in the frame lower part on frame upper portion, the compressor include inner shell and shell, the inside cavity of shell, the inner shell include top board and double -deck drum board, the inside cavity of top board, open on the upper portion of top board has the scavenge port, double -deck drum board include first layer drum board and second floor drum board, the upper portion of shell open and to have first air inlet, the part bottom of shell downwards protruding form with the corresponding double -deck drum card slot of double -deck drum board, the fastener include wing spare, cylinder, turbine, whirlpool axle, coil.

Description

Aerodynamic electric generator

Technical field

The utility model relates to generation technology.

Background technique

Generating refers to and utilizes dynamic power device that the prime energy of the heat energy, nuclear energy etc. of water energy, fossil fuel (coal, oil, rock gas) is converted to the production process of electric energy.In order to supply the need of each department of national economy and people's lives.Present generating still uses fossil fuel to be main forms of electricity generation, but the resource of fossil fuel is few, day by day exhausted.The mankind gradually bring into use solar energy, wind energy, geothermal power, ocean energy equal energy source to generate electricity.

Model utility content

Content of the present utility model is:

Aerodynamic electric generator, is characterized in that: comprise gas holder, resistor, fastener and the magnet in extra-high production seal arrangement;

Described extra-high is produced seal arrangement and is comprised frame, is arranged on the gas compressor of upper rack and is arranged on the gas holder of frame lower; Described gas compressor comprises inner casing and shell; The inner hollow of described shell; Described inner casing comprises top board and double-layered cylinder plate; The inner hollow of described top board, the top of top board has scavenge port; Described double-layered cylinder plate comprises first layer cylinder plate and second layer cylinder plate; The shape of described first layer cylinder plate is cylindrical shape, and its bore is less than the width of top board; The shape of described second layer cylinder plate is also cylindrical shape, and its bore is less than the bore of first layer cylinder plate; Second layer cylinder sleeve-board is in the inside of first layer cylinder plate; The top of the first layer cylinder plate of double-layered cylinder plate is fixedly connected with the bottom of top board, and the top of its second layer cylinder plate is also fixedly connected with the bottom of top board; The inner hollow of described double-layered cylinder plate; The top of described shell has the first suction port, and the section bottom of shell convexes to form the double-layered cylinder board slot corresponding with double-layered cylinder plate downwards; Described double-layered cylinder board slot comprises first layer cylinder board slot and second layer cylinder board slot; Described first layer cylinder plate can move up and down in first layer cylinder board slot; Described second layer cylinder plate can move up and down in second layer cylinder board slot; The bottom of shell also has the first air outlet; Described inner casing is arranged in the enclosure, and the inwall on the side of top board and the top of shell fits; Described first layer cylinder plate and part top board, part enclosure surround formation first accessory air-space; The section bottom of described shell and first layer cylinder plate, second layer cylinder plate, part top board surround formation second accessory air-space; Described second layer cylinder plate and the section bottom of shell, part top board surround and form main gas tank;

Described gas holder comprises tank body; The top of described tank body has the second suction port communicated with the first air outlet; The bottom of tank body has the second air outlet, and the bottom of tank body againsts inwall is provided with sheetmetal (thickness is 1 microns); The below of tank body arranges the second air outlet closure member for controlling the second air outlet folding; The below of the second described suction port arranges the second air-inlet cover, and the shape of the longitudinal cross-section of the second described air-inlet cover is in " U " shape; The top of the part tank body of the surrounding of the second suction port has groove, and the bottom of the first described air outlet is arranged in groove; The left and right sides of described tank body also respectively arranges a resistor, and described resistor is fixed on tank body;

Described fastener comprises wing part, cylindrical body, turbine, whirlpool axle, coil; The shape of described cylindrical body is cylindrical shape; Turbine and whirlpool axle are set in cylindrical body; The described core of wing part is fixedly connected with the outer wall of cylindrical body, and its two ends can contact with resistor; The effect of wing part is: when pressurized gas spray in gas holder, and fastener can be moved to the below of the second air outlet, and the wing part in translation motion in fastener can contact with resistor, to stop fastener glide downwards; Described turbine is fixedly connected with whirlpool axle, and whirlpool the tip of the axis is fixedly connected with coil; The both ends open of described cylindrical body, pressurized gas can enter cylindrical body from a wherein opening, then spray from its another opening; Described coil is arranged on the below from the opening away from the second air outlet of cylindrical body, and described magnet is also arranged on the below of same opening, and around coil;

Described upper rack arranges the first support, central rack one second support is each side set, frame lower one the 3rd support is each side set; The first described support is arranged the first drive unit for driving top board to move up and down; The second described support is arranged the second drive unit for driving whole gas compressor to move up and down; The 3rd described support is arranged the 3rd drive unit that the second air outlet closure member can be made to depart from from the second air outlet.

The upper right quarter of described frame arranges the 4th support; The first described drive unit comprises the first motor be arranged on the first support, the first gear be arranged on the first support, vertically to arrange and bottom is fixed on the first dowel bar on top board, is arranged on the first tooth bar on the first dowel bar and the second lever braking device; The second described lever braking device comprises the 3rd montant, the second lever, the 4th montant, the 5th tooth bar and the 6th tooth bar; The second described lever is arranged on the 4th support; The 5th described tooth bar is fixed on the 3rd montant, and the 6th described tooth bar is fixed on the 4th montant; The top of the 3rd described montant is fixedly connected with the bottom of the left part of the second lever, and the top of the 4th described montant is fixedly connected with the bottom of the right part of the second lever; The first described gear was both meshed with the first tooth bar, was also meshed with the 5th tooth bar; The first described motor is provided with the 4th gear, the 4th described gear is meshed with the 6th tooth bar.

The second described drive unit comprises setting the second motor on the secondary support bracket, arrange on the secondary support bracket and by the second motor-driven second gear, be fixed on the second dowel bar in " L " type on the outer wall of shell and be arranged on the second tooth bar on the second dowel bar; The second described gear is meshed with the second tooth bar; The second described motor can drive the second gear to rotate; The effect of the second drive unit is: after gas compressor has compressed gas, by whole gas compressor upwardly, the bottom of the first air outlet of gas compressor is spun off from groove; Second support of the left and right sides of described central rack is respectively arranged one second drive unit.

3rd support of the left and right sides of described frame lower is respectively arranged one the 3rd drive unit; The 3rd described drive unit comprises the supporting frame be arranged on the 3rd support, the 3rd motor be arranged on the 3rd support, the first lever braking device, be arranged on the 3rd support and by the 3rd motor-driven 3rd gear, to be horizontally disposed with and one end is fixed on the 3rd dowel bar on supporting frame and is arranged on the 3rd tooth bar of below of the 3rd dowel bar; The 3rd described gear is meshed with the 3rd tooth bar; The 3rd described support arranges the 5th support, and the 5th described support is fixed on the 3rd support; The first described lever braking device comprises the first bevel gear, the first montant, the first lever, the second montant, the second bevel gear; The first described lever is arranged on the 5th support; The first described montant is provided with the 7th tooth bar, the 7th described tooth bar is fixed on the first montant; The second described montant is provided with the 4th tooth bar, the 4th described tooth bar is fixed on the second montant; The top of the first described montant is fixedly connected with the bottom of the right part of the first lever, and the top of the second described montant is fixedly connected with the bottom of the left part of the first lever; The 3rd described motor is provided with the 5th gear; The first described bevel gear was both meshed with the 5th gear on the 3rd motor, was also meshed with the 7th tooth bar on the first montant; The second described bevel gear was both meshed with the 4th tooth bar on the second montant, was also meshed with the 3rd gear; Described supporting frame arranges support slot, and the two ends of the second described air outlet closure member are separately positioned in the support slot on the supporting frame of the left and right sides of frame lower; The top of the second air outlet closure member is provided with the projection matched with the second air outlet; The 3rd described motor can drive the 3rd gear to rotate, the effect of the 3rd motor is: the 3rd gear can be made after the 3rd electric motor starting to rotate, left side the 3rd gear can drive left side the 3rd dowel bar and supporting frame to left movement, the left end of the second air outlet closure member is spun off from the support slot in left side, 3rd gear on right side can drive the 3rd dowel bar on right side and supporting frame to move right, and the right-hand member of the second air outlet closure member is spun off from the support slot on right side.

The neighbouring setting of the second described air-inlet cover is used for holding the second air-inlet cover holder of the second air-inlet cover; The described top of the second air-inlet cover holder is fixedly connected with the bottom of the part tank body of the surrounding of the second suction port; The second described air-inlet cover is arranged in the second air-inlet cover holder; The bottom of the part tank body of the surrounding of the second described suction port has cover slot, and the part top of the second air-inlet cover can move up and down in cover slot; The right part of the second air-inlet cover holder has the 3rd suction port communicated with tank interior; The bottom of the second air-inlet cover holder has the air flue communicated with tank interior.

As further improvement of the utility model, the utility model also arranges the second suction port enclosing cover of shape in " C " shape of a longitudinal cross-section, after gas compressor has compressed gas, second electric motor starting rear driving second dowel bar moves upward and drives gas compressor also up to move together, the bottom of the first air outlet of gas compressor is spun off from groove, afterwards the second suction port enclosing cover is tipped upside down on groove, and the second suction port enclosing cover and groove are welded, to seal up hill and dale the tank body of gas holder.

Accompanying drawing explanation

Fig. 1 is the structural representation that part extra-high produces seal arrangement.

Fig. 2 is the structural representation of tank body, fastener.

Fig. 3 is the structural representation of part first lever braking device.

Fig. 4 is the structural representation of the second lever braking device.

Embodiment

Below in conjunction with accompanying drawing, embodiment of the present utility model is further described.

Aerodynamic electric generator as shown in Figure 2, is characterized in that: comprise gas holder, resistor 31, fastener and the magnet 34 in extra-high production seal arrangement;

Described extra-high is produced seal arrangement and is comprised frame (not shown), is arranged on the gas compressor of upper rack and is arranged on the gas holder (as shown in Figure 1) of frame lower; Described gas compressor comprises inner casing and shell 1; The inner hollow of described shell 1; Described inner casing comprises top board 2 and double-layered cylinder plate; The inner hollow of described top board 2, the top of top board 2 has scavenge port 57; Described double-layered cylinder plate comprises first layer cylinder plate 3 and second layer cylinder plate 29; The shape of described first layer cylinder plate 3 is cylindrical shape, and its bore is less than the width of top board 2; The shape of described second layer cylinder plate 29 is also cylindrical shape, and its bore is less than the bore of first layer cylinder plate 3; Second layer cylinder plate 29 is enclosed within the inside of first layer cylinder plate 3; The top of the first layer cylinder plate 3 of double-layered cylinder plate is fixedly connected with the bottom of top board 2, and the top of its second layer cylinder plate 29 is also fixedly connected with the bottom of top board 2; The inner hollow of described double-layered cylinder plate; The top of described shell 1 has the first suction port 7, and the section bottom of shell 1 convexes to form the double-layered cylinder board slot corresponding with double-layered cylinder plate downwards; Described double-layered cylinder board slot comprises first layer cylinder board slot 4 and second layer cylinder board slot 30; Described first layer cylinder plate 3 can move up and down in first layer cylinder board slot 4; Described second layer cylinder plate 29 can move up and down in second layer cylinder board slot (30); The bottom of shell 1 also has the first air outlet 5; Described inner casing is arranged in shell 1, and the inwall on the side of top board 2 and the top of shell 1 fits; Described first layer cylinder plate 3 surrounds formation first accessory air-space 10 with part top board 2, part enclosure 1; The section bottom of described shell 1 and first layer cylinder plate 3, second layer cylinder plate 29, part top board is 2-in-1 encloses formation second accessory air-space 28; Described second layer cylinder plate 29 and the section bottom of shell 1,2-in-1 the enclosing of part top board form main gas tank 6;

Described gas holder comprises tank body 9; The top of described tank body 9 has the second suction port 18 communicated with the first air outlet 5; The bottom of tank body 9 has the second air outlet 19, and the bottom of tank body 9 againsts inwall is provided with sheetmetal 11 (thickness is 1 microns); The below of tank body 9 arranges the second air outlet closure member 12 for controlling the second air outlet 19 folding; The below of the second described suction port 18 arranges the second air-inlet cover 14, and the shape of the longitudinal cross-section of the second described air-inlet cover 14 is in " U " shape; The top of the part tank body 9 of the surrounding of the second suction port 18 has groove 20, and the bottom of the first described air outlet 5 is arranged in groove 20; The left and right sides of described tank body 9 also respectively arranges a resistor 31, and described resistor 31 is fixed on tank body 9;

Described fastener comprises wing part 37, cylindrical body 38, turbine 35, whirlpool axle 32, coil 33; The shape of described cylindrical body 38 is cylindrical shape; Turbine 35 and whirlpool axle 32 are set in cylindrical body 38; The core of described wing part 37 is fixedly connected with the outer wall of cylindrical body 38, and its two ends can contact with resistor 31; The effect of wing part 37 is: when pressurized gas spray in gas holder, and fastener can be moved to the below of the second air outlet 19, and the wing part 37 in translation motion in fastener can contact with resistor 31, to stop fastener glide downwards; Described turbine 35 is fixedly connected with whirlpool axle 32, and the end of whirlpool axle 32 is fixedly connected with coil 33; The both ends open of described cylindrical body 38, pressurized gas can enter cylindrical body 38 from a wherein opening, then spray from its another opening; Described coil 33 is arranged on the below from the opening away from the second air outlet 19 of cylindrical body 38, and described magnet 34 is also arranged on the below of same opening, and around coil 33;

Described upper rack arrange the first support (belong to prior art, not shown, lower with), central rack one second support is each side set, frame lower one the 3rd support is each side set; The first described support is arranged the first drive unit for driving top board 2 to move up and down; The second described support is arranged the second drive unit for driving whole gas compressor to move up and down; The 3rd described support is arranged the 3rd drive unit that the second air outlet closure member 12 can be made to depart from from the second air outlet 19.

The upper right quarter of described frame arranges the 4th support 45; The first described drive unit comprises the first motor 2101 be arranged on the first support, the first gear 2102 be arranged on the first support, vertically to arrange and bottom is fixed on the first dowel bar 2103 on top board 2, the first tooth bar 2104 and the second lever braking device be arranged on the first dowel bar 2103; The second described lever braking device comprises the 3rd montant 44, second lever 46, the 4th montant 48, the 5th tooth bar 43 and the 6th tooth bar 47 (as shown in Figure 4); The second described lever 46 is arranged on the 4th support 45; The 5th described tooth bar 43 is fixed on the 3rd montant 44, and the 6th described tooth bar 47 is fixed on the 4th montant 48; The top of the 3rd described montant 44 is fixedly connected with the bottom of the left part of the second lever 46, and the top of the 4th described montant 48 is fixedly connected with the bottom of the right part of the second lever 46; The first described gear 2102 was both meshed with the first tooth bar 2104, was also meshed with the 5th tooth bar 43; The first described motor 2101 is provided with the 4th gear 49, and the 4th described gear 49 is meshed with the 6th tooth bar 47.

The second gear 2202 that the second described drive unit comprises setting the second motor 2201 on the secondary support bracket, setting drives on the secondary support bracket and by the second motor 2201, the second tooth bar 2204 being fixed on the second dowel bar 2203 in " L " type on the outer wall of shell 1 and being arranged on the second dowel bar 2203; The second described gear 2202 is meshed with the second tooth bar 2204; The second described motor 2201 can drive the second gear 2202 to rotate; The effect of the second drive unit is: after gas compressor has compressed gas, by whole gas compressor upwardly, the bottom of the first air outlet 5 of gas compressor is spun off from groove 20; Second support of the left and right sides of described central rack is respectively arranged one second drive unit.

3rd support of the left and right sides of described frame lower is respectively arranged one the 3rd drive unit; The 3rd described drive unit comprises the supporting frame 23 be arranged on the 3rd support, the 3rd motor 2601, the first lever braking device be arranged on the 3rd support, be arranged on the 3rd support and by the 3rd motor-driven 3rd gear 2602, to be horizontally disposed with and one end is fixed on the 3rd dowel bar 2603 on supporting frame 23 and is arranged on the 3rd tooth bar 2604 of below of the 3rd dowel bar 2603; The 3rd described gear 2602 is meshed with the 3rd tooth bar 2604; The 3rd described support arranges the 5th support 40, and the 5th described support 40 is fixed on the 3rd support; The first described lever braking device comprises the first bevel gear 50, first montant 51, first lever 52, second montant 53, second bevel gear 54 (as shown in Figure 3); The first described lever 52 is arranged on the 5th support 40; The first described montant 51 is provided with the 7th tooth bar 55, and the 7th described tooth bar 55 is fixed on the first montant 51; The second described montant 53 is provided with the 4th tooth bar 56, and the 4th described tooth bar 56 is fixed on the second montant 53; The top of the first described montant 51 is fixedly connected with the bottom of the right part of the first lever 52, and the top of the second described montant 53 is fixedly connected with the bottom of the left part of the first lever 52; The 3rd described motor 2601 is provided with the 5th gear 17; The first described bevel gear 50 was both meshed with the 5th gear 17 on the 3rd motor 2601, was also meshed with the 7th tooth bar 55 on the first montant 51; The second described bevel gear 54 was both meshed with the 4th tooth bar 56 on the second montant 53, was also meshed with the 3rd gear 2602; Described supporting frame 23 arranges support slot 24, and the two ends of the second described air outlet closure member 12 are separately positioned in the support slot 24 on the supporting frame 23 of the left and right sides of frame lower; The top of the second air outlet closure member 12 is provided with the projection 25 matched with the second air outlet 19; The 3rd described motor 2601 can drive the 3rd gear 2602 to rotate, the effect of the 3rd motor 2601 is: the 3rd motor 2601 can make the 3rd gear 2602 rotate after starting, left side the 3rd gear 2602 can drive left side the 3rd dowel bar 2603 and supporting frame 23 to left movement, the left end of the second air outlet closure member 12 is spun off from the support slot 24 in left side, 3rd gear 2602 on right side can drive the 3rd dowel bar 2603 on right side and supporting frame 23 to move right, and the right-hand member of the second air outlet closure member 12 is spun off from the support slot 24 on right side.

The neighbouring setting of the second described air-inlet cover 14 is used for holding the second air-inlet cover holder 15 of the second air-inlet cover 14; The top of the second described air-inlet cover holder 15 is fixedly connected with the bottom of the part tank body 9 of the surrounding of the second suction port 18; The second described air-inlet cover 14 is arranged in the second air-inlet cover holder 15; The bottom of the part tank body 9 of the surrounding of the second described suction port 18 has cover slot 13, and the part top of the second described air-inlet cover 14 can move up and down in cover slot 13; The right part of the second air-inlet cover holder 15 has the 3rd suction port 16 communicated with tank body 9 inside; The bottom of the second air-inlet cover holder 15 has the air flue 8 communicated with tank body 9 inside.

As further improvement of the utility model, the utility model also arranges the second suction port enclosing cover 27 (as shown in Figure 2) of shape in " C " shape of a longitudinal cross-section, after gas compressor has compressed gas, second motor 2201 starts rear driving second dowel bar 2203 and moves upward and drive gas compressor also up to move together, the bottom of the first air outlet 5 of gas compressor is spun off from groove 20, afterwards the second suction port enclosing cover 27 is tipped upside down on groove 20, and the second suction port enclosing cover 27 is welded with groove 20, to seal up hill and dale the tank body 9 of gas holder.

Specific operation process of the present utility model is:

1. ambient atmos enters in the first accessory air-space 10, first layer cylinder board slot 4, second accessory air-space 28, second layer cylinder board slot 30, main gas tank 6 successively from the first suction port 7.

2. the first motor 2101 starts rear driving first dowel bar 2103 and moves downward, and top board 2 also moves downward thereupon and compresses the gas in main gas tank 6.In compression process, the pressure of the gas in the pressure of the gas in the pressure of the gas in the pressure of the gas in the pressure of the gas in the first accessory air-space 10, first layer cylinder board slot 4, the second accessory air-space 28, second layer cylinder board slot 30 and main gas tank 6 increases progressively step by step, can reduce the leakage of gas in main gas tank 6 like this.

3. the gas after compression sprays from the first air outlet 5 and enters into successively in the second suction port 18, the 3rd suction port 16, tank body 9.

4. the second motor 2201 starts rear driving second dowel bar 2203 and moves upward, and the second dowel bar 2203 promotes whole gas compressor and moves upward, and the bottom of the first air outlet 5 of gas compressor is spun off from groove 20.In the process, because the gas in air flue 8 is to the impetus of the second air-inlet cover 14, the second air-inlet cover 14 is moved upward, and the second air-inlet cover 14 enters in cover slot 13.

6. the second suction port enclosing cover 27 is tipped upside down on groove 20, and the second suction port enclosing cover 27 is welded, to seal up hill and dale the tank body 9 of gas holder with groove 20.

7. when using the gas in tank body 9 to generate electricity, the 3rd motor 2601 controlling the left and right sides of frame lower drives the 3rd dowel bar 2603 reversing motion, the two ends of the second air outlet closure member 12 are spun off from support slot 24, and the second air outlet closure member 12 comes off from the second air outlet 19.Spray from the second air outlet 19 after pressurized gas break through sheetmetal 11.

8. fastener is moved to rapidly the below of the second air outlet 19, the wing part 37 in translation motion in fastener can contact with resistor 31, thus stops fastener glide downwards.

9. the pressurized gas sprayed from the second air outlet 19 enter in cylindrical body 38.These high pressure air are known from experience promotion turbine 35 and are rotated, and turbine 35 drives whirlpool axle 32 to rotate, and whirlpool axle 32 is with again moving winding 33 to rotate, and coil 33 cuts the magnetic induction line produced by magnet 34, generation current in coil 33.

The part be not specifically noted in above specification is prior art, or can be realized by prior art.All equivalences done according to the content of the utility model claim change all should as technology category of the present utility model with modification.

Claims

1. aerodynamic electric generator, is characterized in that: comprise gas holder, resistor (31), fastener and the magnet (34) in extra-high production seal arrangement;

Described extra-high is produced seal arrangement and is comprised frame, is arranged on the gas compressor of upper rack and is arranged on the gas holder of frame lower; Described gas compressor comprises inner casing and shell (1); The inner hollow of described shell (1); Described inner casing comprises top board (2) and double-layered cylinder plate; The inner hollow of described top board (2), the top of top board (2) has scavenge port (57); Described double-layered cylinder plate comprises first layer cylinder plate (3) and second layer cylinder plate (29); The shape of described first layer cylinder plate (3) is cylindrical shape, and its bore is less than the width of top board (2); The shape of described second layer cylinder plate (29) is also cylindrical shape, and its bore is less than the bore of first layer cylinder plate (3); Second layer cylinder plate (29) is enclosed within the inside of first layer cylinder plate (3); The top of the first layer cylinder plate (3) of double-layered cylinder plate is fixedly connected with the bottom of top board (2), and the top of its second layer cylinder plate (29) is also fixedly connected with the bottom of top board (2); The inner hollow of described double-layered cylinder plate; The top of described shell (1) has the first suction port (7), and the section bottom of shell (1) convexes to form the double-layered cylinder board slot corresponding with double-layered cylinder plate downwards; Described double-layered cylinder board slot comprises first layer cylinder board slot (4) and second layer cylinder board slot (30); Described first layer cylinder plate (3) can move up and down in first layer cylinder board slot (4); Described second layer cylinder plate (29) can move up and down in second layer cylinder board slot (30); The bottom of shell (1) also has the first air outlet (5); Described inner casing is arranged in shell (1), and the inwall on the side of top board (2) and the top of shell (1) fits; Described first layer cylinder plate (3) and part top board (2), part enclosure (1) surround formation first accessory air-space (10); The section bottom of described shell (1) and first layer cylinder plate (3), second layer cylinder plate (29), part top board (2) surround formation second accessory air-space (28); Section bottom, the part top board (2) of described second layer cylinder plate (29) and shell (1) surround and form main gas tank (6);

Described gas holder comprises tank body (9); The top of described tank body (9) has the second suction port (18) communicated with the first air outlet (5); The bottom of tank body (9) has the second air outlet (19), and the bottom of tank body (9) againsts inwall is provided with sheetmetal (11); The below of tank body (9) arranges the second air outlet closure member (12) for controlling the second air outlet (19) folding; The below of described the second suction port (18) is provided with the second air-inlet cover (14), and the shape of the longitudinal cross-section of described the second air-inlet cover (14) is in " U " shape; The top of the part tank body (9) of the surrounding of the second suction port (18) has groove (20), and the bottom of described the first air outlet (5) is arranged in groove (20); The left and right sides of described tank body (9) also respectively arranges a resistor (31), and described resistor (31) is fixed on tank body (9);

Described fastener comprises wing part (37), cylindrical body (38), turbine (35), whirlpool axle (32), coil (33); The shape of described cylindrical body (38) is cylindrical shape; Turbine (35) and whirlpool axle (32) are set in cylindrical body (38); The core of described wing part (37) is fixedly connected with the outer wall of cylindrical body (38), and its two ends can contact with resistor (31); The effect of wing part (37) is: when pressurized gas spray in gas holder, fastener can be moved to the below of the second air outlet (19), wing part (37) in translation motion in fastener can contact with resistor (31), to stop fastener glide downwards; Described turbine (35) is fixedly connected with whirlpool axle (32), and the end of whirlpool axle (32) is fixedly connected with coil (33); The both ends open of described cylindrical body (38), pressurized gas can enter cylindrical body (38) from a wherein opening, then spray from its another opening; Described coil (33) is arranged on the below from the opening away from the second air outlet (19) of cylindrical body (38), described magnet (34) is also arranged on the below of same opening, and around coil (33);

Described upper rack arranges the first support, central rack one second support is each side set, frame lower one the 3rd support is each side set; The first described support is arranged the first drive unit for driving top board (2) to move up and down; The second described support is arranged the second drive unit for driving whole gas compressor to move up and down; The 3rd described support is arranged the 3rd drive unit that the second air outlet closure member (12) can be made to depart from from the second air outlet (19).

2. aerodynamic electric generator according to claim 1, is characterized in that: the upper right quarter of described frame arranges the 4th support (45); The first described drive unit comprises the first motor (2101) be arranged on the first support, the first gear (2102) be arranged on the first support, vertically to arrange and bottom is fixed on the first dowel bar (2103) on top board (2), is arranged on the first tooth bar (2104) on the first dowel bar (2103) and the second lever braking device; The second described lever braking device comprises the 3rd montant (44), the second lever (46), the 4th montant (48), the 5th tooth bar (43) and the 6th tooth bar (47); Described the second lever (46) is arranged on the 4th support (45); The 5th described tooth bar (43) is fixed on the 3rd montant (44), and the 6th described tooth bar (47) is fixed on the 4th montant (48); The top of the 3rd described montant (44) is fixedly connected with the bottom of the left part of the second lever (46), and the top of the 4th described montant (48) is fixedly connected with the bottom of the right part of the second lever (46); Described the first gear (2102) was both meshed with the first tooth bar (2104), was also meshed with the 5th tooth bar (43); Described the first motor (2101) is provided with the 4th gear (49), the 4th described gear (49) is meshed with the 6th tooth bar (47).

3. aerodynamic electric generator according to claim 1, is characterized in that: the second gear (2202) that the second described drive unit comprises setting the second motor (2201) on the secondary support bracket, setting drives on the secondary support bracket and by the second motor (2201), the second tooth bar (2204) being fixed on the second dowel bar (2203) in " L " type on the outer wall of shell (1) and being arranged on the second dowel bar (2203); Described the second gear (2202) is meshed with the second tooth bar (2204); Described the second motor (2201) can drive the second gear (2202) to rotate; The effect of the second drive unit is: after gas compressor has compressed gas, by whole gas compressor upwardly, the bottom of first air outlet (5) of gas compressor is spun off from groove (20); Second support of the left and right sides of described central rack is respectively arranged one second drive unit.

4. aerodynamic electric generator according to claim 1, is characterized in that: the 3rd support of the left and right sides of described frame lower is respectively arranged one the 3rd drive unit, the 3rd described drive unit comprises the supporting frame (23) be arranged on the 3rd support, the 3rd motor (2601) be arranged on the 3rd support, the first lever braking device, be arranged on the 3rd support and by the 3rd motor-driven 3rd gear (2602), to be horizontally disposed with and one end is fixed on the 3rd dowel bar (2603) on supporting frame (23) and is arranged on the 3rd tooth bar (2604) of below of the 3rd dowel bar (2603), the 3rd described gear (2602) is meshed with the 3rd tooth bar (2604), the 3rd described support is arranged the 5th support (40), the 5th described support (40) is fixed on the 3rd support, the first described lever braking device comprises the first bevel gear (50), the first montant (51), the first lever (52), the second montant (53), the second bevel gear (54), described the first lever (52) is arranged on the 5th support (40), described the first montant (51) is provided with the 7th tooth bar (55), the 7th described tooth bar (55) is fixed on the first montant (51), described the second montant (53) is provided with the 4th tooth bar (56), the 4th described tooth bar (56) is fixed on the second montant (53), the top of described the first montant (51) is fixedly connected with the bottom of the right part of the first lever (52), and the top of described the second montant (53) is fixedly connected with the bottom of the left part of the first lever (52), the 3rd described motor (2601) is provided with the 5th gear (17), described the first bevel gear (50) was both meshed with the 5th gear (17) on the 3rd motor (2601), was also meshed with the 7th tooth bar (55) on the first montant (51), described the second bevel gear (54) was both meshed with the 4th tooth bar (56) on the second montant (53), was also meshed with the 3rd gear (2602), described supporting frame (23) arranges support slot (24), and the two ends of the second described air outlet closure member (12) are separately positioned in the support slot (24) on the supporting frame (23) of the left and right sides of frame lower, the top of the second air outlet closure member (12) is provided with the projection (25) matched with the second air outlet (19), the 3rd described motor (2601) can drive the 3rd gear (2602) to rotate, the effect of the 3rd motor (2601) is: the 3rd motor (2601) can make the 3rd gear (2602) rotate after starting, left side the 3rd gear (2602) can drive left side the 3rd dowel bar (2603) and supporting frame (23) to left movement, the left end of the second air outlet closure member (12) is spun off from the support slot (24) in left side, 3rd gear (2602) on right side can drive the 3rd dowel bar (2603) on right side and supporting frame (23) to move right, the right-hand member of the second air outlet closure member (12) is spun off from the support slot (24) on right side.

5. aerodynamic electric generator according to claim 1, is characterized in that: the neighbouring setting of described the second air-inlet cover (14) is used for holding the second air-inlet cover holder (15) of the second air-inlet cover (14); The described top of the second air-inlet cover holder (15) is fixedly connected with the bottom of the part tank body (9) of the surrounding of the second suction port (18); Described the second air-inlet cover (14) is arranged in the second air-inlet cover holder (15); The bottom of the part tank body (9) of the surrounding of described the second suction port (18) has cover slot (13), and the part top of the second air-inlet cover (14) can move up and down in cover slot (13); The right part of the second air-inlet cover holder (15) has the 3rd suction port (16) communicated with tank body (9) inside; The bottom of the second air-inlet cover holder (15) has the air flue (8) communicated with tank body (9) inside.

6. the aerodynamic electric generator according to claim 1 or 3, it is characterized in that: after gas compressor has compressed gas, second motor (2201) starts rear driving second dowel bar (2203) and moves upward and drive gas compressor also up to move together, the bottom of first air outlet (5) of gas compressor is spun off from groove (20), then the second suction port enclosing cover (27) of the shape of longitudinal cross-section in " C " shape is tipped upside down on groove (20), and the second suction port enclosing cover (27) and groove (20) are welded, seal up hill and dale with the tank body (9) to gas holder.