CN100478587C - Eccentric power gain mechanism - Google Patents

Abstract

An eccentric power gaining mechanism driven by a power producer for outputting power comprises a first operating device, which includes a frame, a rotating unit disposed on the frame for being driven by the power producer and then outputting the power and several gaining units spaced in the rotating unit. When the rotating unit rotates, the integral center-of-mass position of the gaining unit is offset from that of the rotating unit to make the rotating unit form an off-centre operation, so as to make the power obtain a gain.

Description

Eccentric power gain mechanism

Technical field

The present invention relates to a kind of power gain mechanism, particularly relate to a kind of eccentric power gain mechanism that high power output is provided.

Background technique

Generally for need be with the object of spinning movement, for example engine, generator etc. suppose to provide the output of high torsion to be beneficial to further use, as with regard to automobile, can make automobile obtain stronger accelerating ability, or with regard to the power station, can increase generating efficiency significantly.Yet, with regard at present general facility, reach the output purpose of high torsion, often need very complicated structure, and, be example as unit with wind-power electricity generation if will reach the purpose of high torsion output with simple structure, though wind-power electricity generation is clean and pollution-free, but because whether the generation of wind-force can't be predicted, and modal problem be wind-force can't with continue, the powerful torsion of stationary mode supply generator group generate electricity, and causes generating efficiency not obvious.

Summary of the invention

The eccentric power gain mechanism that the object of the present invention is to provide a kind of simple structure and can provide high power to export.

Another object of the present invention is to provide a kind of sustainable and eccentric power gain mechanism of outputting power stably.

The invention is characterized in: this eccentric power gain mechanism is subjected to a drive power source, in order to export a power.This eccentric power gain mechanism comprises one first executor.This first executor comprises a frame, a rotary unit, and a plurality of gain units.This rotary unit is hubbed on this frame, in order to be subjected to this drive power source and then to export this power.These gain units are located at this rotary unit at interval, when this rotary unit rotates, the whole centroid position of these gain units departs from the whole centroid position of this rotary unit, make this rotary unit form eccentric motion, and make this power obtain a gain, wherein, this rotary unit has one and is hubbed on this frame in order to be subjected to the rotating component of this drive power source, and a plurality of respectively from the geometrical center of this rotating component outwardly equal angles extend into radial spacer element at interval, this rotating component has an axis central part that is positioned at its geometrical center, this spacer element has that first end that is connected with the rotating component axis central part and is connected with this rotating component periphery and in contrast to second end of this first end, and respectively this gain unit is to be located on this rotating component and in twos between the spacer element.

Eccentric power gain mechanism of the present invention, wherein, this rotary unit has one and is subjected to this rotating component interlock in order to this transmission of power is given the speedup element of a torque force device.

Eccentric power gain mechanism of the present invention, wherein, this rotating component is a flywheel.

Eccentric power gain mechanism of the present invention, wherein, this speedup element is a gear.

Eccentric power gain mechanism of the present invention, wherein, respectively this gain unit have be located at giving of this rotary unit can part, and one is slidedly arranged on this movably and gives work done part on can part.

Eccentric power gain mechanism of the present invention, wherein, respectively this gain unit has one to the energy part, reach one and be slidedly arranged on this movably to the work done part on the energy part, should give can part be to be located on this rotating component and between in twos between the spacer element, and have the first opposite end and second end, and second end of this first end and a spacer element wherein is connected with, and this second end is connected in the close neutral position of another spacer element.

Eccentric power gain mechanism of the present invention, wherein, respectively should give part to be a slide rail.

Eccentric power gain mechanism of the present invention, wherein, respectively this work done part is a counterweight.

Eccentric power gain mechanism of the present invention, wherein, this first executor also comprises to be located on this rotary unit and corresponding to this gain unit to absorb the damping unit that this gain unit acts on the impact force of this rotary unit.

Eccentric power gain mechanism of the present invention, wherein, this first executor comprises also that a plurality of intervals are located on this rotary unit and is corresponding to this gain unit to absorb the damping unit that this gain unit acts on the impact force of this rotary unit.

Eccentric power gain mechanism of the present invention, wherein, respectively this damping unit all have at least one be installed on respectively should give can part first end and the spring element on one of them of second end.

Eccentric power gain mechanism of the present invention, wherein, each damping unit all has at least one respectively close shock absorber that should give second end, one side of energy part of this spacer element of being located at.

Eccentric power gain mechanism of the present invention, wherein, respectively this damping unit has that an one end is fixed in second end of this spacer element respectively and the other end and this work done part respectively are connected with when rotating in order to contend with the respectively counterbalance of the centrifugal force of this work done part.

Eccentric power gain mechanism of the present invention, wherein, respectively this spring element is a pressure spring.

Cooperate with the simple mechanism of gain unit by rotary unit of the present invention, not only sustainable and stably export a power, and can make this power obtain a gain, and then reach goal of the invention of the present invention.

Description of drawings

Fig. 1 is not complete combination plan view, and an embodiment of eccentric power gain mechanism of the present invention is described.

Fig. 2 is this embodiment's not complete plan view, and this embodiment's one first executor is described.

Fig. 3 is this embodiment's not complete plan view, and this embodiment's one second executor is described.

Fig. 4 is this embodiment's not complete plan view, and the annexation of this embodiment's a transmission device and this first executor is described.

Fig. 5 is this embodiment's not complete side view, and this embodiment's a engaging and disengaging gear is described.

Fig. 6 is this embodiment's not complete side view, illustrates that this engaging and disengaging gear of this embodiment is positioned at a stop position.

Fig. 7 is this embodiment's not complete plan view, illustrates that this transmission device of this embodiment is positioned at a non-transmission position.

Fig. 8 is this embodiment's not complete side view, illustrates that this engaging and disengaging gear of this embodiment is positioned at an operating position.

Embodiment

The present invention is described in detail below in conjunction with drawings and Examples.

Consulting Fig. 1, is an embodiment of eccentric power gain mechanism 1 of the present invention, and the eccentric power gain mechanism 1 of present embodiment is driven by two power sources (figure does not show), in order to provide a torque force device 6 power.In the present embodiment, power source is made of a power motor and an electric gear motor, and torque force device 6 is an example with a generator.

Eccentric power gain mechanism 1 comprises that second executor 3, two that one first executor 2, two lays respectively at first executor about 2 two sides lays respectively at first executor about 2 two sides and between the transmission device 4 of 3 of second executors, and an engaging and disengaging gear 5 that is positioned at transmission device 4 front sides.

Consult Fig. 2, first executor 2 comprises that a support stands on frame 21, on the supporting surface (figure do not show) and be hubbed on the frame 21 rotary unit 22, eight that passes to torque force device 6 in order to outputting power and be located on the rotary unit 22 gain unit 23 in order to gain rotary unit 22 power respectively, and eight are located at respectively on the rotary unit 22 in order to absorb the damping unit 24 that gain unit 23 acts on the impact force of rotary unit 22.

Rotary unit 22 have one be hubbed on the frame 21 and have a rotating component 222, eight that is positioned at the axis central part 221 of its geometrical center respectively rotation moving part 222 axis central part 221 outwardly equal angles be spaced into radial spacer element 223, and one give torque force device 6 in order to cooperating the speedup element 224 of the required rotating speed of torque force device 6 with rotating component 222 bridle joint transferring power, and in twos spacer element 223 can match respectively define a confession respectively this gain unit 23 reach the working space 225 that this damping unit 24 respectively is installed with.Spacer element 223 has first end 226 that is connected with rotating component 222 axis central parts 221, and one in contrast to first end 226 and second ends 227 that are connected with rotating component 222 periphery.In addition, in the present embodiment, rotating component 222 is a flywheel, and speedup element 224 is a small gear.

Respectively this gain unit 23 has one to energy part 231, and one is slidedly arranged on movably to the work done part 232 on the energy part 231.In the present embodiment, giving part 231 to be a slide rail, and work done part 232 is a wedge shape counterweight.Give and can part 231 to be located on the rotating component 222 and between 223 of spacer elements in twos, and have one first opposite end 233 and one second end 234, second end 227 of first end 233 and a spacer element 223 wherein is connected with, and second end 234 is connected in another spacer element 223 contiguous neutral position.

Respectively this damping unit 24 have two be installed in respectively respectively should give can part 231 first end 233 and second end 234 on and the spring element 241, two that is positioned at work done part 231 2 sides be located at this spacer element 223 respectively respectively near giving a side that can part 231 second ends 234 and being positioned to shock absorber 242 that can part 231 2 sides, reach that an one end is fixed in second end 227 of spacer element 223 and counterbalance 243 that the other end and work done part 232 are connected with.Above-mentioned counterbalance 243 is the centrifugal force of work done part 232 when rotating in order to contend with, and its pulling force is less than the gravity of work done part 232.

In the present embodiment, respectively this spring element 241 is all a pressure spring, and respectively this shock absorber 242 is made by the rubber material, and counterbalance 243 is an extension spring.

In addition, in the present embodiment, these spacer elements 223 and corresponding working space 225, gain unit 23, and the number of damping unit 24 is to be eight, so also can be, and change spacer element 223 and corresponding working space 225, gain unit 23 according to the actual design demand, reach the number of damping unit 24.

Consult Fig. 3, respectively this second executor 3 comprises that a support stands on frame 31, on the supporting surface and be hubbed on rotary unit 32 on the frame 31 and two gain units 33 in order to gain rotary unit 32 power.

Rotary unit 32 has first rotating component 321 that is subjected to drive power source, and one is coaxial and be subjected to second rotating component 322 of first rotating component, 321 interlocks with first rotating component 321.In the present embodiment, first rotating component 321 is the gear of a cooperation power source, and second rotating component 322 is a flywheel.

Respectively this gain unit 33 is between first rotating component 321 and second rotating component 322 and has two one ends and be hubbed on the frame 31 and the swing part 331 of each interval one angle, and two counterweights 332 that are individually fixed in swing part 331 the other ends.In the present embodiment, two swing parts, 331 folded angles are 140 °.

Consult Fig. 1 and Fig. 4, respectively this transmission device 4 comprises a support unit 41, and one in order to the interlock unit 42 with transmission of power to the first executor 2 of second executor 3.

Support unit 41 has one and supports the support 411 that stands on the supporting surface, reaches the framework 412 that an one end and support 411 tops are pivoted.

Interlock unit 42 has one and is hubbed at first revolving part 421, on the frame 21 of first executor 2 and is hubbed at the 3rd revolving part 423, a circle that second revolving part 422 on the frame 31 of second executor 3, is hubbed on framework 412 and is located at first revolving part 421 and the first outer coupling component 424 of the 3rd revolving part 423, and a circle is located at second coupling component 425 outside second revolving part 422 and the 3rd revolving part 423.

In the present embodiment, first revolving part 421 and second revolving part 422 are all one or three ditch belt pulleys, and the 3rd revolving part 423 is one or six ditch belt pulleys, and first coupling component 424 and second coupling component 425 are all a belt.

Consult Fig. 1, Fig. 4, and Fig. 5, engaging and disengaging gear 5 comprises that one supports frame 51, two regulation units 52 that stand on the supporting surface, and a control unit 53.

Respectively this regulation unit 52 has the regulation and control lever 521 that an one end is fixedly arranged on framework 412 bottom sides of support unit 41, and a counterweight 522 that is hung at regulation and control lever 521 the other ends.

In the present embodiment, counterweight 332,522 all is in order to the object of weight to be provided, and the torsion of the visual user's desire output of its weight is done different allotments with considering of overall operation.

Control unit 53 has one and is hubbed on the frame 51 and has one first opposite end 530 and the action handle 532 of one second end 531, the first connecting rod 533 that one one end and action handle 532 first ends 530 are pivoted, one one end is articulated in the second connecting rod 534 of first connecting rod 533 the other ends, one bridging bar 535 that is pivoted with second connecting rod 534 the other ends, the extension rod 536 that one one end and bridging bar 535 1 ends are connected with, one one end is hubbed at the follower lever 537 of extension rod 536 the other ends, the one differential element 538 that articulates with the other end of follower lever 537, and two one ends are connected with in two end opposite of bridging bar 535 bottom surfaces, and the other end respectively with the affixed chain 539 of regulation and control lever 521 the other ends.

Second end, 531 usefulness of action handle 532 grip to carry on the convenience or to press down for the user.In addition, in the present embodiment, differential element 538 is made up of a power motor and an electric gear motor.

Engaging and disengaging gear 5 can move between a stop position and an operating position with respect to transmission device 4, and makes transmission device 4 move between a non-transmission position and a transmission position with respect to first executor 2.

Cooperate and consult Fig. 6 and Fig. 7, when user's pressing action handle 532 second ends 531, its first end 530 will drive first connecting rod 533, second connecting rod 534, and move on the bridging bar 535, and then on carry and being connected with at the fixing end of the chain 539 of bridging bar 535 bottom sides and regulation and control lever 521 and chain 539, regulation and control lever 521 with the framework 412 of interlock transmission device 4 together with the 3rd revolving part 423 that is hubbed on the framework 412, the 3rd revolving part 423 is moved toward the directions near first revolving parts 421 and second revolving part 422, and first coupling component 424 and second coupling component 425 are relaxed and can't transferring power.At this moment, engaging and disengaging gear 5 is positioned at stop position, and transmission device 4 is positioned at non-transmission position.

Cooperate and consult Fig. 3, start power source respectively and drive 322 rotations of second rotating component, and two swing parts 331 of gain unit 33 are rotated along same direction in regular turn with the counterweight 332 that is fixedly arranged on swing part 331 bottoms with first rotating component 321 that orders about the second corresponding executor 3.Owing to when gain unit 33 continues to rotate in the same direction, will provide second rotating component 322 1 gain power, and make second rotating component 322 form eccentric motion.

Cooperate and consult Fig. 8, after 2 second executors 3 all run well, can will carry on action handle 532 second ends 531, make first end 530 together with first connecting rod 533, second connecting rod 534, reach bridging bar 535 and move down, and then the end that chain 539 and regulation and control lever 521 and chain 539 are fixed also moves down.Regulation and control lever 521 can drive framework 412 and the 3rd revolving part 423 of transmission devices 4, makes that the 3rd revolving part 423 is past to be moved away from first revolving part 421 and second revolving part, 422 directions, and then strains first coupling component 424 and second coupling component 425.At this moment, engaging and disengaging gear 5 is positioned at operating position, and transmission device 4 is positioned at the transmission position.

Simultaneously, start differential element 538, make differential element 538 drive follower lever 537 rotations, and then the extension rod 536 that is pivoted of interlock and follower lever 537 and the bridging bar 535 that is connected with extension rod 536, bridging bar 535 is connected with drive in the chain 539 of two end opposite of its bottom surface and moves or move down in turn together with regulation and control lever 521.Whereby, can make two transmission devices 4 be positioned at transmission position and non-transmission position in regular turn, make 2 second executors 3 alternately power be passed to first executor 2 via transmission device 4 respectively and then drive first executor 2 and move.

Cooperate and to consult Fig. 2, when second revolving part, 422 rotations of transmission device 4 and the rotating component 222 that orders about first executor 2 rotated (supposing to clockwise rotate), the gain unit of also drive being located on the rotating component 222 23 rotated thereupon.

At this moment, because gravitational effect can permanent make the work done part 232 of gain unit 23 slide onto to lowest part that can part 231, so, when turning to rotating component 222, this work done part 232 respectively is positioned at rotating component 222 axis central parts 221 when right-hand, work done part 232 will move to first end 233 of relative below (for rotating component 222 by second end 234 of the relative top of giving energy part 231, work done part 232 is positioned at rotating component 222 right side peripheral regions), and compression is positioned at the spring element 241 of first end 233, and can lower the impact strength of 232 pairs of rotating components 222 of work done part by the pooling feature that spring element 241 provides; In addition, counterbalance 243 is to be stress state and to have a pulling force.

When this work done part 232 respectively turns to when being positioned at rotating component 222 axis central parts 221 left sides with rotating component 222, work done part 232 will be because of being subjected to the tension of centrifugal force effect and counterbalance 243 simultaneously, and move to second end 234 of relative below (for rotating component 222 by first end 233 of the relative top of giving energy part 231, the place, axle center of work done part 232 contiguous rotating components 222), and compression is positioned at the spring element 241 of second end 234, and collide the shock absorber 242 that is positioned at spacer element 223 close second end, 234 1 sides, and can lower the impact strength of 232 pairs of rotating components 222 of work done part by the pooling feature that spring element 241 and shock absorber 242 are provided.

At this moment, because total centroid position of first executor 2 is offset to the right, will makes whole formation eccentric motion and provide rotating component 222 1 gain power.So, the power that provides by power source, and the gain power that provides of add up first executor 2 and 2 second executors 3, the rotating component 222 that can make first executor 2 is with transmit scriptures speedup element 224 and then drive torque force device 6 actions of power.

In addition, owing to ought wherein one go to the rotating component 222 right-hand work done parts 232 are moved to relative below by second end 234 of relative top first end 233, wherein another work done part 232 that goes to rotating component 222 lefts move to by first end 233 of phase time top relative below second end 234 the time, will be simultaneously to rotating component 222 output works, though can provide rotating component 222 power, the instantaneous angular velocity of rotation of rotating component 222 is accelerated, and related first revolving part, the 421 instantaneous angular velocity of rotations that make accelerate.

At this moment, cooperation by engaging and disengaging gear 5 differential elements 538 makes transmission device 4 checker between operating position and non-operating position, can avoid first revolving part 421 to influence the angular velocity of rotation of second revolving part 422 and second coupling component 425, make and strain second coupling component 425 because of angular velocity of rotation accelerates, produce the gain power that frictional force will be offseted first executor 2 therebetween when second revolving part 422.

In addition, because eccentric power gain mechanism of the present invention 1 is symmetrical mechanism design, can make the load of first executor 2 average and stable, and then increase the working life of eccentric power gain mechanism 1 of the present invention, and the noise that produces can reduce work the time.

Conclude above-mentioned, the present invention is by simple eccentric mechanism design, as first executor 2 is that utilize to give can part 231 (slide rail) and the cooperating of work done part 232 (wedge shape counterweight), and second executor 3 is to utilize cooperating of swing part 331 and counterweight 332, make the rotary unit 32 of the rotary unit 22 of first executor 2 and second executor 3 form the eccentric motions and the rotating power therebetween that gains simultaneously, and then the output purpose that the input that reaches low torsion also can high torsion.In addition, by cooperating of engaging and disengaging gear 5 and transmission device 4, can make the eccentric power gain mechanism 1 of the present invention can be when action positively to continue and the stable manner supplying power.Also have, the present invention also can be connected the eccentric power gain mechanism 1 of required a few days with the output required drive according to design requirement, reaches goal of the invention of the present invention really.

Claims (14)

1. an eccentric power gain mechanism is subjected to a drive power source, in order to export a power, it is characterized in that, this eccentric power gain mechanism comprises:

One first executor, comprise that a frame, is hubbed on this frame in order to be subjected to this drive power source and then to export the rotary unit of this power, and the gain unit of this rotary unit is located at a plurality of intervals, when this rotary unit rotates, the whole centroid position of this gain unit departs from the whole centroid position of this rotary unit, make this rotary unit form eccentric motion, and make this power obtain a gain;

This rotary unit has one and is hubbed on this frame in order to be subjected to the rotating component of this drive power source, and a plurality of respectively from the geometrical center of this rotating component outwardly equal angles extend into radial spacer element at interval, this rotating component has an axis central part that is positioned at its geometrical center, this spacer element has that first end that is connected with the rotating component axis central part and is connected with this rotating component periphery and in contrast to second end of this first end, and respectively this gain unit is to be located on this rotating component and in twos between the spacer element.

2. eccentric power gain mechanism according to claim 1 is characterized in that, this rotary unit has one and is subjected to this rotating component interlock in order to this transmission of power is given the speedup element of a torque force device.

3. eccentric power gain mechanism according to claim 1 is characterized in that, this rotating component is a flywheel.

4. eccentric power gain mechanism according to claim 2 is characterized in that, this speedup element is a gear.

5. eccentric power gain mechanism according to claim 1 is characterized in that, respectively this gain unit have be located at giving of this rotary unit can part, and one is slidedly arranged on this movably and gives work done part on can part.

6. eccentric power gain mechanism according to claim 1, it is characterized in that, respectively this gain unit has one to the energy part, reach one and be slidedly arranged on this movably to the work done part on the energy part, should give can part be to be located on this rotating component and between in twos between the spacer element, and have the first opposite end and second end, and second end of this first end and a spacer element wherein is connected with, and this second end is connected in the close neutral position of another spacer element.

7. eccentric power gain mechanism according to claim 6 is characterized in that, respectively should give part to be a slide rail.

8. eccentric power gain mechanism according to claim 6 is characterized in that, respectively this work done part is a counterweight.

9. eccentric power gain mechanism according to claim 1, it is characterized in that this first executor also comprises to be located on this rotary unit and corresponding to this gain unit to absorb the damping unit that this gain unit acts on the impact force of this rotary unit.

10. eccentric power gain mechanism according to claim 6, it is characterized in that this first executor comprises also that a plurality of intervals are located on this rotary unit and be corresponding to this gain unit to absorb the damping unit that this gain unit acts on the impact force of this rotary unit.

11. eccentric power gain mechanism according to claim 10 is characterized in that, respectively this damping unit all have at least one be installed on respectively should give can part first end and the spring element on one of them of second end.

12. eccentric power gain mechanism according to claim 10 is characterized in that, each damping unit all has at least one respectively close shock absorber that should give second end, one side of energy part of this spacer element of being located at.

13. eccentric power gain mechanism according to claim 10, it is characterized in that respectively this damping unit has that an one end is fixed in second end of this spacer element respectively and the other end and this work done part respectively are connected with when rotating in order to contend with the respectively counterbalance of the centrifugal force of this work done part.

14. eccentric power gain mechanism according to claim 11 is characterized in that, respectively this spring element is a pressure spring.

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