CN105971833A - Collecting mechanism for swinging energy of wind-swung high-voltage power line - Google Patents

Abstract

The invention belongs to the technical field of energy recycling, and particularly relates to a collecting mechanism for swinging energy of a wind-swung high-voltage power line. The collecting mechanism comprises a swing inner rod, swing outer sleeves, a vibrating inner rod, a pneumatic motor, a differential, a swing rod, a micro-vibrating shell, a swing power generator and a gas storage tank, wherein the vibrating inner rod moves back and forth in a vibrating outer sleeve for carrying out inlet gas super-charging on the gas storage tank. The micro-vibrating shell can drive the swing rod to swing around a swing cylindrical pin, so that air in the swing rod outer sleeves at the two sides of the swing rod is mutually transmitted through the pneumatic motor; the pneumatic motor is used for transmitting energy into the power generator through a first rotary shaft and a second rotary shaft to generate electric energy. Besides, a liquid metal cavity is arranged in the micro-vibrating shell; liquid metal exists in the cavity; in the swing process of the micro-vibrating shell, the liquid metal cuts magnetic lines of force generated by a magnet to generate electric energy, and the electric energy is conducted out through a guide wire. By using three measures, the collecting mechanism sufficiently utilizes swing energy of the high-voltage power line, and has relatively good practical effect.

Description

A kind of wind pendulum high-tension bus-bar swings the collecting mechanism of energy

Art

The invention belongs to technical field of energy recovery, particularly relate to a kind of wind pendulum high-tension bus-bar and swing the collecting mechanism of energy.

Background technology

Power tool robot on high-tension bus-bar gradually increases at present, such as deicing robot.Often robot travels by carrying battery, after battery electric quantity is used up, needs artificial being taken off by robot, again changes battery or charge battery, causing the inconvenience that electric wire Work robot uses.Additionally since it is desired that pick and place the robot on high-voltage line, this is it is possible to bring security incident.So the robot power supply problem on solution high-tension bus-bar has important Research Significance.

The present invention designs the collecting mechanism of a kind of wind pendulum high-tension bus-bar swing energy and solves as above problem.

Summary of the invention

For solving drawbacks described above of the prior art, the present invention discloses a kind of wind pendulum high-tension bus-bar and swings the collecting mechanism of energy, and it realizes by the following technical solutions.

nullA kind of wind pendulum high-tension bus-bar swings the collecting mechanism of energy，It is characterized in that: it includes swinging interior bar、Swing overcoat、Swing circle pin、Swinging support、Bar in vibrations、Sidewall、Interior bar journal stirrup、Rear wall、Air motor、First freewheel clutch、Differential mechanism、Fork、Overcoat journal stirrup、Vibrations spring、Vibrations overcoat、Microseism shell、Swing generator、Air accumulator、First spring annulus、Second spring annulus、Vibrations gas outlet、Vibrations gas feed、Base plate、Shock button、Vibrations draw-in groove、Vibrations snap ring、Interior bar props up fastener、Air guide port、Swing snap ring、Swing gas feed、Swing gas outlet、Swing draw-in groove、Air guide channel、Rocking key、Second rotating shaft、Tapered gearbox、Second freewheel clutch、Motor inlet、Motor outlet、Motor supports、First rotating shaft、Clutch support、Differential support、First power shaft、Air accumulator import、Second power shaft、Output shaft、Electromotor supports、Reservoir outlet、Air accumulator supports，On two of which sidewall symmetry ground mounting base，Two rear walls are symmetrically mounted on base plate，And the cross section of two sidewalls and two rear walls constitutes rectangle；Vibrations overcoat is arranged on base plate, shake and outer set upper side circular hole has symmetrical vibrations draw-in groove, second spring annulus is arranged on place on the lower side outside vibrations overcoat, in vibrations, bar lower end is symmetrically installed with two shock button, in vibrations, bar is nested in vibrations jacket internal, and shock button and vibrations card slot fit, the first spring annulus is arranged in vibrations on the upside of bar；Vibrations spring is placed on outside the interior bar of vibrations and vibrations overcoat, and one end is arranged on the first spring annulus, and the other end is arranged on the second spring annulus；Vibrations snap ring is arranged on vibrations overcoat top, vibrations gas outlet and vibrations gas feed and is installed on the downside of vibrations overcoat；Swinging support is arranged on masthead end in vibrations, fork is arranged on swinging support by swing circle pin, microseism shell is arranged on fork bottom, and fork centre position lateral symmetry is provided with two overcoat journal stirrups, and two sidewalls are separately installed with an interior bar journal stirrup symmetrically；Swinging symmetry in the circular hole of overcoat and have two swing draw-in grooves, swing gas feed and swing gas outlet is arranged on swing overcoat one end side by side, swing overcoat one end is provided with one fastener；In swinging, bar one end is provided with two rocking keys symmetrically, has air guide channel and air guide channel off-axis in swinging in bar, and air guide channel exit is provided with air guide port, and in swinging, bar one end is also equipped with one fastener；During in swinging, bar is nested in swing overcoat, and rocking key and swing card slot fit, swing snap ring and be arranged on swing overcoat one end；Bar journal stirrup interior for two overcoat journal stirrups and two, the overcoat journal stirrup of fork side and interior bar journal stirrup are connected by straight pin with a fastener for bar in the fastener swinging overcoat and swing respectively；Air motor is supported by motor and is arranged on base plate, air motor rotating shaft all has in air motor both sides stretches out, first freewheel clutch and the second freewheel clutch are arranged on the base plate of air motor both sides by clutch support, second rotating shaft is connected by tapered gearbox and the second freewheel clutch output shaft, first freewheel clutch output shaft is that the first rotating shaft, motor inlet and motor outlet are installed on air motor；Differential mechanism is arranged on base plate by differential support, and differential mechanism has the first power shaft, the second power shaft and three axles of output shaft, and swing generator is arranged on base plate by electromotor support and swing generator power shaft is connected with output shaft；Air accumulator is supported by air accumulator and is arranged on base plate, and air accumulator import and reservoir outlet are installed in air accumulator one end.

Bar and vibrations overcoat in the vibrations of the present invention, swinging interior bar and swinging overcoat is all to the gas generation effect in overcoat by reciprocating motion of the pistons.In vibrations, bar in motor process, is absorbed air from air, is then transported to out air pressurized in gas tank by high pressure gas by vibrations gas outlet in vibrations overcoat, and the high pressure as high-tension bus-bar robot originates from.If robot need not high pressure origin certainly, may be without this function.When fork swings, in the mutually isostructural swing of fork both sides, bar swings and defines independent space between overcoat and air motor, when fork swings, the gas compartment summation of the fork jacket internal of fork both sides is certain, but the space of both sides is in change, gas in air motor is being flowed, and then motor is done work.Outside swinging, on set, the purpose of design swing gas outlet and swing gas feed is, when in whole fork is along with vibrations, bar moves up and down, the gas compartment swung in overcoat of fork both sides increases simultaneously or reduces, the air now swinging overcoat requires supplementation with and reduces, and the swing gas outlet of increase and import solve this problem exactly.Air motor is rotating alternating movement in fork swing process, and alternating movement can be converted into the motion in the same direction of alternator shaft by the freewheel clutch of both sides, bevel gear box, differential mechanism.Achieve making full use of of energy.

Motor inlet and motor outlet on above-mentioned air motor are connected by conduit with the air guide port on bar in two swings of fork both sides respectively；Vibrations gas feed is connected with air, and vibrations gas outlet is connected with air accumulator import by conduit；First rotating shaft is connected by power transmission shaft with the first power shaft, and the second rotating shaft is connected by power transmission shaft with the second power shaft.

As the further improvement of this technology, the output shaft on above-mentioned differential mechanism is also equipped with flywheel.The flywheel of design serves the purpose increasing the stability that electromotor power shaft rotates.

As the further improvement of this technology, above-mentioned microseism shell includes Magnet, liquid metal chamber, and wherein two bending magnets are separately mounted to bend the both sides in liquid metal chamber and Magnet is identical with liquid metal chamber degree of crook.

As the further improvement of this technology, above-mentioned first rotating shaft is connected by flexible axle with the first power shaft, and the second rotating shaft is connected by flexible axle with the second power shaft.Flexible axle has the strongest space suitability.

As the further improvement of this technology, above-mentioned swing gas feed air inlet, swing gas outlet and give vent to anger be by cylinder inner casing outside draught head and work.

Relative to traditional Energy Recovery Technology, in the present invention, in vibrations, bar the coordinating of draw-in groove constitutes a reciprocating booster by shock button with vibrations with vibrations overcoat, it is possible in vibrations, bar is in vibrations overcoat moves back and forth, and air accumulator is carried out plenum.Microseism shell can drive fork to swing around swing circle pin, in swing process, in making the swing of fork both sides, bar moves back and forth in swinging overcoat, the air in the fork overcoat of fork both sides is made mutually to be transmitted by air motor, in transmittance process, doing work air motor, energy is delivered in electromotor produce electric energy by differential mechanism by air motor by the first rotating shaft and the second rotating shaft.It addition, have liquid metal chamber in microseism shell, having liquid metal in chamber, in microseism shell swing process, liquid metal is understood the magnetic line of force of septum magnet generation thus is produced electric energy, and conducts out by wire.One aspect of the present invention is swung by fork and obtains high-tension bus-bar most swing energy drive electrical power generators, on the other hand by bar in vibrations, residue swing energy is converted into gas pressure can be stored in gas tank, further through liquid metal, faint for high-tension bus-bar vibration energy is converted into electric energy by small vibrations and sensitive principles simultaneously, the use of three kinds of measures makes the present invention sufficiently make use of the swing energy of high-tension bus-bar, will have preferable practical function.

Accompanying drawing explanation

Fig. 1 is collecting mechanism internal structure distribution schematic diagram.

Fig. 2 is bar, overcoat scheme of installation in vibrations.

Fig. 3 is bar structural representation in vibrations.

Fig. 4 is vibrations jacket structure schematic diagrams.

Fig. 5 is vibrations snap ring scheme of installations.

Fig. 6 is that microseism shell is installed and internal structure schematic diagram.

Fig. 7 is to swing snap ring scheme of installation.

Fig. 8 is to swing jacket structure schematic diagram.

Fig. 9 is to swing interior bar structural representation.

Figure 10 is energy transferring structure distribution schematic diagram.

Figure 11 is air motor associated mounting structure schematic diagram.

nullLabel title in figure: 1、Bar in swinging，2、Swing overcoat，3、Swing circle pin，4、Swinging support，5、Bar in vibrations，6、Sidewall，7、Interior bar journal stirrup，8、Rear wall，9、Air motor，10、First freewheel clutch，11、Differential mechanism，12、Flywheel，13、Fork，14、Overcoat journal stirrup，15、Vibrations spring，16、Vibrations overcoat，17、Microseism shell，18、Swing generator，19、Air accumulator，20、First spring annulus，21、Second spring annulus，22、Vibrations gas outlet，23、Vibrations gas feed，24、Base plate，25、Shock button，26、Vibrations draw-in groove，27、Vibrations snap ring，28、Magnet，29、Liquid metal chamber，30、Prop up fastener，31、Air guide port，32、Swing snap ring，33、Swing gas feed，34、Swing gas outlet，35、Swing draw-in groove，36、Air guide channel，37、Rocking key，38、Second rotating shaft，39、Tapered gearbox，40、Second freewheel clutch，41、Motor inlet，42、Motor outlet，43、Motor supports，44、First rotating shaft，45、Clutch support，46、Differential support，47、First power shaft，48、Air accumulator import，49、Second power shaft，50、Output shaft，51、Electromotor supports，52、Reservoir outlet，53、Air accumulator supports.

Detailed description of the invention

nullAs shown in Figure 1，It includes swinging interior bar 1、Swing overcoat 2、Swing circle pin 3、Swinging support 4、Bar 5 in vibrations、Sidewall 6、Interior bar journal stirrup 7、Rear wall 8、Air motor 9、First freewheel clutch 10、Differential mechanism 11、Fork 13、Overcoat journal stirrup 14、Vibrations spring 15、Vibrations overcoat 16、Microseism shell 17、Swing generator 18、Air accumulator 19、First spring annulus 20、Second spring annulus 21、Vibrations gas outlet 22、Vibrations gas feed 23、Base plate 24、Shock button 25、Vibrations draw-in groove 26、Vibrations snap ring 27、Interior bar props up fastener 30、Air guide port 31、Swing snap ring 32、Swing gas feed 33、Swing gas outlet 34、Swing draw-in groove 35、Air guide channel 36、Rocking key 37、Second rotating shaft 38、Tapered gearbox 39、Second freewheel clutch 40、Motor inlet 41、Motor outlet 42、Motor supports 43、First rotating shaft 44、Clutch support 45、Differential support 46、First power shaft 47、Air accumulator import 48、Second power shaft 49、Output shaft 50、Electromotor supports 51、Reservoir outlet 52、Air accumulator supports 53，The most as shown in Figure 1，On two sidewall 6 mounting bases 24 symmetrically，Two rear walls 8 are symmetrically mounted on base plate 24，And the cross section of two sidewalls 6 and two rear walls 8 constitutes rectangle；As shown in Figure 2, vibrations overcoat 16 is arranged on base plate 24, as shown in Figure 4, having symmetrical vibrations draw-in groove 26 in the circular hole of vibrations overcoat 16 upper end, the second spring annulus 21 is arranged on place on the lower side outside vibrations overcoat 16, as shown in Figure 3, in vibrations, bar 5 lower end is symmetrically installed with two shock button 25, it is internal that the interior bar 5 of vibrations is nested in vibrations overcoat 16, and shock button 25 coordinates with vibrations draw-in groove 26, and the first spring annulus 20 is arranged on the upside of the interior bar 5 of vibrations；Vibrations spring 15 is placed on outside the interior bar 5 of vibrations and vibrations overcoat 16, and one end is arranged on the first spring annulus 20, and the other end is arranged on the second spring annulus 21；It is installed on the downside of vibrations overcoat 16 as it is shown in figure 5, vibrations snap ring 27 is arranged on vibrations overcoat 16 top, vibrations gas outlet 22 and vibrations gas feed 23；As shown in Figure 2, swinging support 4 is arranged on bar 5 top in vibrations, fork 13 is arranged on swinging support 4 by swing circle pin 3, as shown in Figure 6, microseism shell 17 is arranged on fork 13 bottom, fork 13 centre position lateral symmetry is provided with two overcoat journal stirrups 14, as it is shown in figure 1, be separately installed with an interior bar journal stirrup 7 on two sidewalls 6 symmetrically；As shown in Figure 8, swinging symmetry in the circular hole of overcoat 2 and have two swing draw-in grooves 35, swing gas feed 33 and swing gas outlet 34 is arranged on swing overcoat 2 one end side by side, swing overcoat 2 one end is provided with one fastener 30；As it is shown in figure 9, bar 1 one end is provided with two rocking keys 37 symmetrically in swinging, having air guide channel 36 and air guide channel 36 off-axis in swinging in bar 1, air guide channel 36 exit is provided with air guide port 31, and in swinging, bar 1 one end is also equipped with one fastener 30；As it is shown in fig. 7, during in swinging, bar 1 is nested in swing overcoat 2, and rocking key 37 coordinates with swinging draw-in groove 35, swings snap ring 32 and is arranged on swing overcoat 2 one end；As it is shown in figure 1, bar journal stirrup 7 interior for two overcoat journal stirrups 14 and two, the overcoat journal stirrup 14 of fork 13 side and interior bar journal stirrup 7 are connected by straight pin with a fastener 30 for bar 1 in the fastener 30 swinging overcoat 2 and swing respectively；Such as Figure 10, shown in 11, air motor 9 supports 43 by motor and is arranged on base plate 24, air motor 9 rotating shaft all has in air motor 9 both sides stretches out, first freewheel clutch 10 and the second freewheel clutch 40 are arranged on the base plate 24 of air motor 9 both sides by clutch support 45, second rotating shaft 38 is connected with the second freewheel clutch 40 output shaft 50 by tapered gearbox 39, first freewheel clutch 10 output shaft 50 is that the first rotating shaft 44, motor inlet 41 and motor outlet 42 are installed on air motor 9；Differential mechanism 11 is arranged on base plate 24 by differential support 46, differential mechanism 11 has first power shaft the 47, second power shaft 49 and 50 3 axles of output shaft, and swing generator 18 is arranged on base plate 24 by electromotor support 51 and swing generator 18 power shaft is connected with output shaft 50；Air accumulator 19 supports 53 by air accumulator and is arranged on base plate 24, and air accumulator import 48 and reservoir outlet 52 are installed in air accumulator 19 one end.

Bar 5 and vibrations overcoat 16 in the vibrations of the present invention, swinging interior bar 1 and swinging overcoat 2 is all to the gas generation effect in overcoat by reciprocating motion of the pistons.In vibrations, bar 5 in motor process, is absorbed air from air, is then transported to out air pressurized in gas tank by high pressure gas by vibrations gas outlet 22 in vibrations overcoat 16, and the high pressure as high-tension bus-bar robot originates from.If robot need not high pressure origin certainly, may be without this function.When fork 13 swings, in the mutually isostructural swing of fork 13 both sides, bar 1 swings and defines independent space between overcoat 2 and air motor 9, when fork 13 swings, the gas compartment summation of fork 13 jacket internal of fork 13 both sides is certain, but the space of both sides is in change, gas in air motor 9 is being flowed, and then motor is done work.It is swinging the purpose of design swing gas outlet 34 and swing gas feed 33 on overcoat 2, when in whole fork 13 is along with vibrations, bar 5 moves up and down, the gas compartment swung in overcoat 2 of fork 13 both sides increases simultaneously or reduces, the air now swinging overcoat 2 requires supplementation with and reduces, and the swing gas outlet 34 of increase and import solve this problem exactly.Air motor 9 is rotating alternating movement in fork 13 swing process, and alternating movement can be converted into the motion in the same direction of alternator shaft by the freewheel clutch of both sides, bevel gear box, differential mechanism 11.Achieve making full use of of energy.

Motor inlet 41 and motor outlet 42 on above-mentioned air motor 9 are connected by conduit with the air guide port 31 on bar 1 in two swings of fork 13 both sides respectively；Vibrations gas feed 23 is connected with air, and vibrations gas outlet 22 is connected with air accumulator import 48 by conduit；First rotating shaft 44 is connected by power transmission shaft with the first power shaft 47, and the second rotating shaft 38 is connected by power transmission shaft with the second power shaft 49.

As shown in Figure 10, the output shaft 50 on above-mentioned differential mechanism 11 is also equipped with flywheel 12.The flywheel 12 of design serves the purpose increasing the stability that electromotor power shaft rotates.

As shown in Figure 6, above-mentioned microseism shell 17 includes Magnet 28, liquid metal chamber 28, and wherein two bending magnets 28 are separately mounted to bend the both sides in liquid metal chamber 28 and Magnet 28 is identical with liquid metal chamber 28 degree of crook.

Above-mentioned first rotating shaft 44 is connected by flexible axle with the first power shaft 47, and the second rotating shaft 38 is connected by flexible axle with the second power shaft 49.Flexible axle has the strongest space suitability.

Above-mentioned swing gas feed 33 air inlet, swing gas outlet 34 give vent to anger be by cylinder inner casing outside draught head and work.

In sum, in the present invention, in vibrations, bar 5 the coordinating of draw-in groove 26 constitutes a reciprocating booster by shock button 25 with vibrations with vibrations overcoat 16, it is possible in vibrations, bar 5 is in vibrations overcoat 16 moves back and forth, and air accumulator 19 is carried out plenum.Microseism shell 17 can drive fork 13 to swing around swing circle pin 3, in swing process, in making the swing of fork 13 both sides, bar 1 moves back and forth in swinging overcoat 2, the air in fork 13 overcoat of fork 13 both sides is made mutually to be transmitted by air motor 9, in transmittance process, doing work air motor 9, energy is delivered in electromotor produce electric energy by differential mechanism 11 by air motor 9 by the first rotating shaft 44 and the second rotating shaft 38.It addition, have liquid metal chamber 28 in microseism shell 17, having liquid metal in chamber, in microseism shell 17 swing process, liquid metal is understood the magnetic line of force of septum magnet 28 generation thus is produced electric energy, and conducts out by wire.One aspect of the present invention is swung by fork 13 and obtains high-tension bus-bar most swing energy drive electrical power generators, on the other hand by bar 5 in vibrations, residue swing energy is converted into gas pressure can be stored in gas tank, further through liquid metal, faint for high-tension bus-bar vibration energy is converted into electric energy by small vibrations and sensitive principles simultaneously, the use of three kinds of measures makes the present invention sufficiently make use of the swing energy of high-tension bus-bar, will have preferable practical function.

Claims (5)

1. null1. the collecting mechanism of a wind pendulum high-tension bus-bar swing energy，It is characterized in that: it includes swinging interior bar、Swing overcoat、Swing circle pin、Swinging support、Bar in vibrations、Sidewall、Interior bar journal stirrup、Rear wall、Air motor、First freewheel clutch、Differential mechanism、Fork、Overcoat journal stirrup、Vibrations spring、Vibrations overcoat、Microseism shell、Swing generator、Air accumulator、First spring annulus、Second spring annulus、Vibrations gas outlet、Vibrations gas feed、Base plate、Shock button、Vibrations draw-in groove、Vibrations snap ring、Interior bar props up fastener、Air guide port、Swing snap ring、Swing gas feed、Swing gas outlet、Swing draw-in groove、Air guide channel、Rocking key、Second rotating shaft、Tapered gearbox、Second freewheel clutch、Motor inlet、Motor outlet、Motor supports、First rotating shaft、Clutch support、Differential support、First power shaft、Air accumulator import、Second power shaft、Output shaft、Electromotor supports、Reservoir outlet、Air accumulator supports，On two of which sidewall symmetry ground mounting base，Two rear walls are symmetrically mounted on base plate，And the cross section of two sidewalls and two rear walls constitutes rectangle；Vibrations overcoat is arranged on base plate, shake and outer set upper side circular hole has symmetrical vibrations draw-in groove, second spring annulus is arranged on place on the lower side outside vibrations overcoat, in vibrations, bar lower end is symmetrically installed with two shock button, in vibrations, bar is nested in vibrations jacket internal, and shock button and vibrations card slot fit, the first spring annulus is arranged in vibrations on the upside of bar；Vibrations spring is placed on outside the interior bar of vibrations and vibrations overcoat, and one end is arranged on the first spring annulus, and the other end is arranged on the second spring annulus；Vibrations snap ring is arranged on vibrations overcoat top, vibrations gas outlet and vibrations gas feed and is installed on the downside of vibrations overcoat；Swinging support is arranged on masthead end in vibrations, fork is arranged on swinging support by swing circle pin, microseism shell is arranged on fork bottom, and fork centre position lateral symmetry is provided with two overcoat journal stirrups, and two sidewalls are separately installed with an interior bar journal stirrup symmetrically；Swinging symmetry in the circular hole of overcoat and have two swing draw-in grooves, swing gas feed and swing gas outlet is arranged on swing overcoat one end side by side, swing overcoat one end is provided with one fastener；In swinging, bar one end is provided with two rocking keys symmetrically, has air guide channel and air guide channel off-axis in swinging in bar, and air guide channel exit is provided with air guide port, and in swinging, bar one end is also equipped with one fastener；During in swinging, bar is nested in swing overcoat, and rocking key and swing card slot fit, swing snap ring and be arranged on swing overcoat one end；Bar journal stirrup interior for two overcoat journal stirrups and two, the overcoat journal stirrup of fork side and interior bar journal stirrup are connected by straight pin with a fastener for bar in the fastener swinging overcoat and swing respectively；Air motor is supported by motor and is arranged on base plate, air motor rotating shaft all has in air motor both sides stretches out, first freewheel clutch and the second freewheel clutch are arranged on the base plate of air motor both sides by clutch support, second rotating shaft is connected by tapered gearbox and the second freewheel clutch output shaft, first freewheel clutch output shaft is that the first rotating shaft, motor inlet and motor outlet are installed on air motor；Differential mechanism is arranged on base plate by differential support, and differential mechanism has the first power shaft, the second power shaft and three axles of output shaft, and swing generator is arranged on base plate by electromotor support and swing generator power shaft is connected with output shaft；Air accumulator is supported by air accumulator and is arranged on base plate, and air accumulator import and reservoir outlet are installed in air accumulator one end；

   Motor inlet and motor outlet on above-mentioned air motor are connected by conduit with the air guide port on bar in two swings of fork both sides respectively；Vibrations gas feed is connected with air, and vibrations gas outlet is connected with air accumulator import by conduit；First rotating shaft is connected by power transmission shaft with the first power shaft, and the second rotating shaft is connected by power transmission shaft with the second power shaft.
2. A kind of wind the most according to claim 1 pendulum high-tension bus-bar swings the collecting mechanism of energy, it is characterised in that: it is also equipped with flywheel on the output shaft on above-mentioned differential mechanism.
3. A kind of wind the most according to claim 1 pendulum high-tension bus-bar swings the collecting mechanism of energy, it is characterized in that: above-mentioned microseism shell includes Magnet, liquid metal chamber, wherein two bending magnets are separately mounted to bend the both sides in liquid metal chamber and Magnet is identical with liquid metal chamber degree of crook.
4. A kind of wind the most according to claim 1 pendulum high-tension bus-bar swings the collecting mechanism of energy, it is characterised in that: above-mentioned first rotating shaft is connected by flexible axle with the first power shaft, and the second rotating shaft is connected by flexible axle with the second power shaft.
5. A kind of wind the most according to claim 1 pendulum high-tension bus-bar swing energy collecting mechanism, it is characterised in that: above-mentioned swing gas feed air inlet, swing gas outlet give vent to anger be by cylinder inner casing outside draught head and work.