CN101936270A - Self-charging self-sufficient electric energy circularly-acting spring motor - Google Patents

Abstract

The invention discloses a self-charging self-sufficient electric energy circularly-acting spring motor which is characterized in that a battery (1), a switch (2) and a motor (3) are connected with a generator (23) to form a circulation loop; the motor (3), a deflected gear (4), a single tooth (5) of a fixed seat (6), a straight plate type spring (7), a transmission shaft (8) and three sets of large and small transmission gears (11, 12, 16, 17, 20 and 21) are connected with a terminal acting shaft (22) to form power; then the third small gear (21) is connected with the generator (23), the terminal of a lead (24) and the battery (1) to form a circulation electricity loop. The self-charging self-sufficient electric energy circularly-acting spring motor adopting the structure can be used for various vehicles, submarines, ships, planes and power plants which need the power and all motors under power grid voltages and also be used for household appliances.

Description

A kind of from the spring engine that fills self-sustaining power cycles acting

Technical field

The present invention relates to a kind ofly exist by battery, motor, especially can be under the situations of overwhelming majority times without the charging of machine external power, 24 hours every days, continuous some months was constantly from filling the spring engine that self-sustaining power cycles is done work.

Background technique

In the present technology, the fuel engine acting is to form with the supply that fuel oil does not stop.This technology is befouling environment not only in use, and under the situation that fuel oil skyrockets day by day, and user cost also skyrockets naturally etc. and to bring the negative serious problems in many places in many ways by multifactor giving.Chinese patent application: 200910151209.7 propose: connect motor by a power line, a switch, this motor is with a flywheel, a gear, a circle chain with after two kinds of springs are connected, when making this motor driving flywheel turn to limit position, this switch outage relief motor stall is had a rest, and these two kinds of springs drive the interior wheel that encloses chain and flywheel and rotate acting forward then.Though polluting during the acting of this technology is zero-emission, very energy-conserving and environment-protective, because this design used device is many, volume is big and cost is high, also the dawn can not self-charging, let alone self-sufficient power cycles is done work when long.Fall far short still for the earth or the human primal environment zero-emission target of being badly in need of.

Goal of the invention

The objective of the invention is: provide a kind of from the spring engine that fills self-sustaining power cycles acting.After it only needs to charge the battery with the machine external power for the first time, just can successive some months output 24 hours every days keep the power or the voltage of stable acting.

Technological scheme

The technological scheme that the present invention takes is: be connected with a motor through a switch by a power line on the battery, this motor and a deflection gear are connected, and the preceding end tooth of monodentate is meshed on this deflection gear back one perforation and a fixed base.This one place, deflection gear right side is connected with leaf spring outer end always inwards around descending and is connected with a transmission shaft left end after enclosing whole circle central point, after a position bearing hole is connected behind this transmission shaft right side and first vertical panel, this transmission shaft right-hand member links to each other with first Gear center transmission axis hole, the front tooth of this first gear is meshed with the back tooth of first small gear, left side transmission shaft left end is with after the first vertical panel anteposition bearing hole is connected on this first small gear, this first small gear the right transmission shaft right-hand part is connected with the second vertical panel anteposition bearing hole, this transmission shaft right-hand member links to each other with second largest Gear center transmission axis hole, the back tooth of this second largest gear is meshed with the front tooth of second small gear, after a position bearing hole is connected behind the transmission shaft left end on the left side and second vertical panel on this second small gear, this second small gear the right transmission shaft right-hand part is connected with position bearing hole behind the 3rd vertical panel, this transmission shaft right-hand member links to each other with the third-largest Gear center transmission axis hole, the front tooth of this third-largest gear is meshed with the back tooth of third pinion, this third pinion left side transmission shaft left end is connected with the 3rd vertical panel anteposition bearing hole, and the transmission shaft right-hand member on this third pinion the right is a terminal acting axle.Preceding fixed bolt is connected with three vertical panel front concentric hole, and back fixed bolt is connected the back and constitutes power with the concentric hole of three vertical panel back.Thereafter, the back tooth of small gear is meshed on described this third pinion front tooth and a generator left end transmission shaft again, this generator output end just, input is rectified on the terminal of paying utmost point output conductor and the battery, a pair utmost point is connected, at last, the terminal that utmost point output conductor is rectified, paid in output on this battery is rectified with the input of a direct current booster, a pair utmost point is connected.When this motor of need does work, the voltage of at first using machine external power coupling is after described this battery charge, closed this switch energising makes this motor rotation acting and drives the deflection gear when rotating forward, the sensing of described this monodentate is because of being to be to be in opposite direction downwards not constitute the card effect of being beared down on one on same vertical line with the sensing of this deflection wheel tooth upwards, rotated for 5 seconds behind greatest limit pulling force position to drive straight-plate-type spring pitch of the laps, this switch outage makes the motor rest that stops operating.The moment of this moment, the deflection gear is when returning of straight-plate-type spring reversed under the elastic pulling force effect, and a perforation that is in the monodentate upper end on the fixed base makes the deflection gear stop at once rotating backward because of reversing backward to be blocked by monodentate front end top immediately.This spring moment nature at this moment returns with maximum and plays the large and small gear rotation that thrust driving transmission shaft rotated and drove first, second, third engagement forward, make the terminal acting axle of this third pinion rotate acting, simultaneously, this third pinion driving engagement pinion rotation on the generator drive axle and is made this generator rotate acting generating and input battery.When this spring driving force does not reach this terminal acting axle of driving and generator load, promptly finishing once acting circulation.When needing the acting of this motor again, repeat said process so repeatedly, thus a but continuous power and voltage stable, reliable, that safety is done work of output of this motor continuous some months 24 hours every days.

Beneficial effect

Because this motor has mainly adopted battery, motor, spring, large and small gear and generator to do power and self-charging energy circular work, it is simple in structure, volume is little, cost is low.Guaranteed spontaneous, fill certainly, the stabilizing effective power of output of 24 hours successive some months of self-sustaining circulation electric energy and voltage when comprising the household appliances electricity consumption, noise, greenhouse gases and disposal of pollutants are zero.

Description of drawings

Below in conjunction with accompanying drawing with specifically execute real mode the present invention is described in further detail.

Fig. 1 is a spring engine plan view of the present invention.

Fig. 2 is the fixed base shown in Figure 1 and the section right elevation of monodentate.

Fig. 3 is large and small driving gear acting of three covers or a generator self-charging energy circuit plan view among the present invention.

Fixed bolt 16 second largest gear 17 second small gears 18 the 3rd vertical panel 19 transmission shafts 20 the third-largest gear 21 third pinions 22 terminals acting axle 23 generators 24 leads 25 back fixed bolt 26 boosters before 1 battery, 2 switches, 3 motors, 4 deflection gears, 5 monodentates, 6 fixed bases, 7 straight-plate-type springs, 8 transmission shafts, 9 connecting ends, 10 first vertical panels, 11 first gear 12 first small gears 13 transmission shafts 14 second vertical panels 15

Specifically execute real mode

Among Fig. 1, this spring engine comprises battery 1, the acting axle right-hand member of switch 2 and motor 3 right-hand members is connected with the left side bearing hole (not drawing among the figure) of deflection gear 4, a perforation is meshed with monodentate 5 front ends of fixed base 6 front sides below these deflection gear 4 backs, this one place, deflection gear 4 right outsides is connected with the left outer end of straight-plate-type spring 7, this straight-plate-type spring 7 is connected with the left end of transmission shaft 8 (not drawing among the figure) around the descending inner end of whole circle central point of enclosing inwards, after position bearing hole (drawing among the figure) left side penetrated and is connected behind these transmission shaft 8 right sides and as shown in Figure 3 first vertical panel, 10 left sides, the connecting end 9 of these transmission shaft 8 right-hand members and first gear 11 center transmission axis holes (among the figure picture) were connected.These first gear 11 front teeth are meshed with first small gear, 12 back teeth, and transmission shaft 13 left ends on this first small gear 12 are connected with these first vertical panel, 10 anteposition bearing holes (not drawing among the figure).Second vertical panel, 14 anteposition bearing holes (not drawing among the figure) are connected with these transmission shaft 13 right-hand parts, transmission axis hole on the second largest gear 16 (not drawing among the figure) is connected with transmission shaft 13 right-hand members, these second largest gear 16 back teeth are with after second small gear, 17 front teeth are meshed, and transmission shaft 19 left ends on this second small gear 17 are connected with second vertical panel, 14 a back bearing hole (drawing among the figure).The 3rd vertical panel 18 a back bearing hole (drawing among the figure) are with after these transmission shaft 19 right-hand parts are connected, and preceding fixed bolt 15 links to each other with this first vertical panel 10, this second vertical panel 14, the 3rd vertical panel 18 front concentric hole.Back fixed bolt 25 is connected with this first vertical panel 10, this second vertical panel 14 and the back concentric hole of the 3rd vertical panel 18.The back position transmission axis hole (not drawing among the figure) of the third-largest gear 20 is connected with these transmission shaft 19 right-hand members.These the third-largest gear 20 front teeth are meshed with third pinion 21 back teeth.The transmission shaft left end on these third pinion 21 left sides is connected with the anteposition bearing hole (not drawing among the figure) of the 3rd vertical panel 18, the transmission shaft right-hand part on these third pinion 21 the right is that terminal acting axle 22 constitutes power, thereafter, the preceding heel teeth at described this third pinion 21 is meshed with the back tooth of generator 23 left end connection gear.Output is rectified, is paid a utmost point output conductor 24 to deploy the lower left corner and the right shown in Figure 1 lead is that same line conductor is being connected up to terminal and is connected with the proper pair utmost point of input on described this battery 1 on this generator 23.The terminal that utmost point output conductor is rectified, paid in output on this battery 1 is rectified with 26 inputs of 250V DC booster, a pair utmost point is connected.

Claims (3)

1. the present invention is by a kind of spring engine that fills self-sustaining power cycles acting certainly, wherein, battery 1 and lead, switch 2 and lead are with after motor 3 is connected, this motor 3, deflection gear 4, monodentate 5, straight-plate-type spring 7, transmission shaft 8, one, two, three vertical panels 10,14,18, before, back fixed bolt 15,25, one, two, three covers are big, small gear 11,12,16,17,20,21 are connected with terminal acting axle 22, this third pinion 21, the lead 24 of generator 23 output is connected also turn-on power, and capable to become the loop be that this spring engine circuit is imported power and voltage with battery 1, it is characterized in that: described this battery (1) lower right corner just, paying the lead of extremely going up output is connected with switch (2) front end, the output of this switch (2) rear end is rectified, output is proper on the terminal of paying lead and motor (3) lower left corner, paying utmost point input end connects, the acting axle right-hand member of described this motor (3) right-hand member is connected with deflection gear (4) left side center transmission axis hole, a perforation is meshed with monodentate (5) front end of fixed base (6) front side below this deflection gear (4) back, this one place, right outside of deflection gear (4) is connected with the left outer end of straight-plate-type spring (7), this straight-plate-type spring (7) is connected with transmission shaft (8) left end around the inner end of the central point of descending circle inwards, this transmission shaft (8) right side is connected with position, first vertical panel (10) back bearing hole, the connecting end (9) of this transmission shaft (8) right-hand member links to each other with first gear (11) center transmission axis hole, this first gear (11) front tooth is meshed with first small gear (12) back tooth, transmission shaft (13) left end on this first small gear (12) is connected with this first vertical panel (10) anteposition bearing hole, second vertical panel (14) anteposition bearing hole is connected with this transmission shaft (13) right-hand part, transmission axis hole on the second largest gear (16) is connected with this transmission shaft (13) right-hand member, this second largest gear (16) back tooth is meshed with second small gear (17) front tooth, transmission shaft (19) left end on this second small gear (17) is connected with this position, second vertical panel (14) back bearing hole, position, the 3rd vertical panel (18) back bearing hole is connected with this transmission shaft (19) right-hand part, preceding fixed bolt (15) and this first vertical panel (10), this second vertical panel (14), the 3rd vertical panel (18) front concentric hole connects, back fixed bolt (25) and this first vertical panel (10), this second vertical panel (14), be connected with the 3rd vertical panel (18) back concentric hole, position, the third-largest gear (20) back bearing hole is connected with this transmission shaft (19) right side, this the third-largest gear (20) front tooth is meshed with third pinion (21) back tooth, the transmission shaft left end on this third pinion (21) left side is connected with the 3rd vertical panel (18) anteposition bearing hole, the transmission shaft right-hand part on this third pinion (21) the right is a terminal acting axle (22), the front tooth of this third pinion (21) is meshed with the gear back tooth that this generator (23) left end is connected, this generator (23) output terminal just, upward input is proper to pay utmost point output conductor (24) terminal and described this battery (1), pay the utmost point and connect and compose circulation power, this battery (1) is gone up output and is rectified, paying the terminal and 250V DC booster (26) input of utmost point output conductor rectifies, paying the utmost point connects.

2. described a kind of from the spring engine that fills self-sustaining power cycles acting according to claim 1, it is characterized in that: this third pinion (20) front tooth is meshed with the gear back tooth that this generator (23) left end is connected, and this generator (23) output is rectified, pair utmost point output conductor (24) terminal is rectified, paid the utmost point with described this battery (1) input and is connected.

3. according to claim 1 or 2 described a kind of spring engines that fill self-sustaining power cycles acting certainly, it is characterized in that: this battery (1) is gone up output terminal proper, pair utmost point output conductor and is connected with 250V DC booster (26) input end.

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