CN2683892Y - Power-generating apparatus - Google Patents
Power-generating apparatus Download PDFInfo
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- CN2683892Y CN2683892Y CN 200320103222 CN200320103222U CN2683892Y CN 2683892 Y CN2683892 Y CN 2683892Y CN 200320103222 CN200320103222 CN 200320103222 CN 200320103222 U CN200320103222 U CN 200320103222U CN 2683892 Y CN2683892 Y CN 2683892Y
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- pouring weight
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Abstract
The utility model relates to a power-generating apparatus, which makes a mechanism through using the mutual engagement of gears and the difference of gear ratio, generate smooth energy, output and input actions, and through the displacement of weight block, makes the mechanism able to rapidly make the action of gravity center displacement. The utility model uses the action of gravity center displacement, to make the mechanism able to rapidly and smoothly automatically run and generate effective kinetic energy.
Description
Technical field
The utility model relates to method and device thereof that a kind of power produces, especially a kind of main body whirligig that utilizes cooperative type makes mechanism displacement reach the unidirectional skew of mechanism body center of gravity; And utilize mechanism's centre-of gravity shift, mechanism is freely turned round reposefully, be also to close gear and flywheel by mechanism's mutual Nie of automatic rotating device array, the kinetic energy of mechanism's generation is changed effectively, and be transferred to energy collector and make energy storage effectively, mechanism is freely turned round reposefully, be also to close gear and flywheel by mechanism's mutual Nie of automatic rotating device array, the kinetic energy that mechanism produces is changed effectively, and be transferred to energy collector and make energy storage effectively, the utility model can be described as a kind of device of being apt to implement to produce with effective energy, on the spot power.
Background technique
In recent years; because earth energy is about to face the crisis of energy depletion; so all constantly active development utilization " wind-force " of countries in the world, " solar energy ", " waterpower " or " underground heat " wait the method that produces the electric power energy, extenuate the speed that traditional energy is consumed with this.
Above-mentioned " wind-force ", " solar energy ", " waterpower " or the modes such as " underground heat " no matter utilized come produce power, and the restriction that is subject to " provincialism " is all arranged; For example, the long-term wind-force in certain some areas is not strong, promptly can't use " wind-force " to come produce power; In the same manner, the certain areas weather is for rainy throughout the year, and then " solar energy " also can't use naturally; And " waterpower " reaches " underground heat " and wants especially partly that there is existence advantageous area side.Be also can't be applicable to each area, the whole world effectively.
For this reason, the claimant is early prior to proposing the technology contents that relevant power produces on September 9th, 91, be No. 091120401 application for a patent for invention case of TaiWan, China patent, but the structure in this application case technological scheme is too complicated and huge, is difficult to meet the needs of current technical development.
Summary of the invention
The utility model purpose is to generate energy in view of the existing natural force that utilizes, and is subject to the shortcoming that the area can be implemented, and is the research and development improvement that constantly progresses greatly, and proposes the device that a mechanical power produces.For asking progressing greatly again of method and device, be actively design and experiment, make that this method and device can be more smooth, the gravity output quantity is more promoted, and the space kenel is more reduced.For reaching above-mentioned purpose, this mechanism utilizes the mutual Nie of gear to close and the difference of gear ratio, produces energy stably, output and input action, and, make this mechanism can promptly do the action of displacement of center of gravity by the pouring weight displacement.Utilize displacement of center of gravity action, make this mechanism can be rapidly and running and produce effective kinetic energy automatically reposefully.
Before describing the technical solution of the utility model, at first simple elaboration formation mechanism of the present utility model.
The utility model is by the mechanical device rotating power, utilizes the main body whirligig of cooperative type, reaches the unidirectional skew of mechanism body center of gravity as mechanism displacement; And utilize mechanism's centre-of gravity shift, and mechanism is freely turned round reposefully, be also to close gear and flywheel by mechanism's mutual Nie of automatic rotating device array, the kinetic energy of mechanism's generation is changed effectively, and be transferred to energy collector and make energy storage effectively.
The purpose of this utility model realizes by following technical proposals, method for generating power provided by the utility model is to utilize axially unidirectional coaxial running of mechanical type in mechanism, and cooperate the skill of lever principle and elastic force (reaction force) to produce power, it mainly is to be loaded on pouring weight on the disk steel body by array, utilize centrifugal force and elastic force and leverage, make this mechanism's centre-of gravity shift, promptly utilize axial running shaft of mechanism arrangement and centre-of gravity shift, make mechanism produce power.
Power generation arrangement of the present utility model comprises a kind of like this mechanism, it is that three circular coaxial steel bodies are main body, the external edge of its each circular steel place, pouring weight be pivoted 4 groups and lever principle, its pouring weight is a free state, and establish respectively and the pneumatic-typed telescopic shaft of circular steel body with quantity mechanism top, and be set in the every rotation 30 of mechanism when spending pouring weight rotate an angle of 90 degrees automatically, make this mechanism centre-of gravity shift one fixed-direction, reach mechanism and do smooth operation with fixed-direction; Described mechanism also comprises input motor and compressor and pressure spring, described motor is transmitted in gear drive to power by belt, in the driving gear running simultaneously, compressor is running simultaneously also, make the pneumatic-typed telescopic shaft and the pouring weight of corresponding generation action produce corresponding interoperation, and pouring weight have corresponding the cooperation with pressure spring; Described mechanism does energy transfer and conversion by gear and ratchet that the mutual Nie of array closes, and with energy collector energy is done conversion effectively and stored, and effective energy can be stablized and produce to the device that its energy is produced.
Further describe technology contents of the present utility model below in conjunction with accompanying drawing, make it it is had more to be well understood to.
Description of drawings
Fig. 1 is the first actuator state schematic representation of the utility model preferred embodiment;
Fig. 2 is the second operating state schematic representation of the utility model preferred embodiment;
Fig. 3 is the 3rd an operating state schematic representation of the utility model preferred embodiment;
Fig. 4 is the 4th an operating state schematic representation of the utility model preferred embodiment;
Fig. 5 is the 5th an operating state schematic representation of the utility model preferred embodiment;
Fig. 6 is the 6th an operating state schematic representation of the utility model preferred embodiment;
Fig. 7 is the 7th an operating state schematic representation of the utility model preferred embodiment;
Fig. 8 is the 8th an operating state schematic representation of the utility model preferred embodiment;
Fig. 9 is the 9th an operating state schematic representation of the utility model preferred embodiment;
Figure 10 is the tenth an operating state schematic representation of the utility model preferred embodiment;
Figure 11 is the tenth an operating state schematic representation of the utility model preferred embodiment;
Figure 12 is the planar gesture view of the utility model preferred embodiment;
Figure 13 is the principle first actuator state schematic representation of the utility model preferred embodiment;
Figure 14 is the principle second actuator state schematic representation of the utility model preferred embodiment;
Figure 15 is principle the 3rd start view of the utility model preferred embodiment;
Figure 16 is principle the 4th actuator state schematic representation of the utility model preferred embodiment;
Figure 17 is principle the 5th actuator state schematic representation of the utility model preferred embodiment;
Figure 18 is principle the 6th actuator state schematic representation of the utility model preferred embodiment;
Figure 19 is the principle summary schematic representation of the utility model preferred embodiment;
Figure 20 is the principle summary schematic representation of the utility model preferred embodiment;
Figure 21 is that the principle of the utility model preferred embodiment describes schematic representation in detail;
Figure 22 is the preceding schematic perspective view of the utility model preferred embodiment;
Figure 23 is the back schematic perspective view of the utility model preferred embodiment;
Figure 24 A, 24B, 24C are respectively plan view, plan view and the side views of the utility model preferred embodiment.
Element numbers explanation among the figure
1 support 2a pneumatic-typed telescopic shaft A 2b pneumatic-typed telescopic shaft B
2c pneumatic-typed telescopic shaft C 2-1 compressor 3 main shafts
4 Bearing 5a disk A 5b disk B
5c disk C 6a1 pouring weight A1 6a2 pouring weight A2
6a3 pouring weight A3 6b1 pouring weight B1 6b2 pouring weight B2
6b3 pouring weight B3 6c1 pouring weight C1 6c2 pouring weight C2
6c3 pouring weight C3 6d1 pouring weight D1 6d2 pouring weight D2
6d3 pouring weight D3 7a1 pressure spring A1 7a2 pressure spring A2
7a3 pressure spring A3 7b1 pressure spring B1 7b2 pressure spring B2
7b3 pressure spring B3 7c1 pressure spring C1 7c2 pressure spring C2
7c3 pressure spring C3 7d1 pressure spring D1 7d2 pressure spring D2
7d3 pressure spring D3 8 driving gears 9 belt A
10 input motors, 11 output gear A (ratchet) 12a output gear B1
12b output gear B2 13 output gear C 14a output gear D1
Embodiment
Referring to accompanying drawing 1 to 12, the mechanism in the power generation arrangement of the present utility model is not when turning round as yet, and pneumatic-typed telescopic shaft A 2a, pneumatic-typed telescopic shaft B are that 2b, pneumatic-typed telescopic shaft C are 2c, all in the limes superiors position, as shown in Figure 1.Pouring weight A2 is that 6a2 then locates horizontal position and is that 7a2 is compressed in the limit inferior place with pressure spring A2.
During this mechanism entry into service, 10 entrys into service of input motor, and promptly 9 transmit power and drive driving gears 8 and turn round simultaneously by belt A, be that 5a, disk B are that 5b, disk C are that 5c is coaxial synchronously moving mechanism because of disk A again, then simultaneously in driving gear 8 runnings, compressor 2-1 is running simultaneously also, and making pneumatic-typed telescopic shaft B is that 2b stretches out downwards immediately fast, as shown in Figure 2.
Pneumatic-typed telescopic shaft B be 2b stretch out downwards bump pouring weight A2 be 6a2 simultaneously, being installed on pressure spring A2 is 7a2 place inductor, releasing in making pressure spring A2 immediately is 7a2 compression limit position, moment upwards launches.
At this moment, pouring weight A2 is 6a2, because of pneumatic-typed telescopic shaft B is under the bump of 2b and the effect of launching that pressure spring A2 is 7a2, instantaneous to anticlockwise 90 degree, be that 6a2 is instantaneous to anticlockwise simultaneously at pouring weight A2, the pneumatic-typed telescopic shaft B that stretches out downwards is 2b, when stretching out a fixed range, do the withdrawal action immediately fast, making pouring weight A2 is that 6a2 is rotating simultaneously, and both can be as shown in Figure 3 not conflicting.
When pouring weight A2 is the 6a2 rotation positioning, form this mechanism centre-of gravity shift simultaneously, also because of the effect of centre-of gravity shift, make this mechanism can be automatically and reposefully to one fixedly Fang Xiang do rotation effectively.Treat this mechanism when anticlockwise about 30 is spent, pouring weight A3 is that 6a3 rotates to be horizontal position, as shown in Figure 4.
When pouring weight A3 is that 6a3 rotates to this position simultaneously, in the running of this institution freedom, institute of mechanism device the mutual Nie of the array gear and the ratchet that close, do energy transfer and conversion, and pass through the device of 2 groups of flywheels, the device that the instinct volume production is given birth to, can stablize and produce effective energy, as shown in figure 12.
Pneumatic-typed telescopic shaft C is 2c, stretches out fast downwards immediately, as shown in Figure 5.
Pneumatic-typed telescopic shaft C be 2c to stretch out bump pouring weight B3 downwards be 6b3, being installed on pressure spring B3 simultaneously is 7b3 place inductor, releasing in making pressure spring B3 immediately is 7b3 compression limit position, moment upwards launches.At this moment, pouring weight B3 be 6b3 because of pneumatic-typed telescopic shaft C be under the bump of 2c and the effect of launching that pressure spring B3 is 7b3, instantaneous to anticlockwise 90 degree, at pouring weight B3 is that 6b3 is instantaneous to anticlockwise simultaneously, the pneumatic-typed telescopic shaft C that stretches out downwards is 2c, as shown in Figure 6, as shown in Figure 7, and when stretching out a fixed range, do the withdrawal action immediately fast, as shown in Figure 8.
When pouring weight B3 is that the 6b3 rotation positioning forms this mechanism centre-of gravity shift simultaneously, also because of the effect of centre-of gravity shift, make this mechanism can be automatically and reposefully to one fixedly Fang Xiang do rotation effectively.Treat this mechanism when anticlockwise about 30 is spent, pouring weight B1 is that 6b1 rotates to be horizontal position, as shown in Figure 8.
When pouring weight B1 is that 6b1 rotates to this position simultaneously, in the running of this institution freedom, institute of mechanism device the mutual Nie of the array gear and the ratchet that close, do energy transfer and conversion, and pass through the device of 2 groups of flywheels, the device that the instinct volume production is given birth to, can stablize and produce effective energy, as shown in figure 12.
Pneumatic-typed telescopic shaft A is that 2a stretches out downwards immediately fast, as shown in Figure 9.
Pneumatic-typed telescopic shaft A be 2a to stretch out bump pouring weight B1 downwards be 6b1, being installed on pressure spring B1 simultaneously is 7b1 place inductor, releasing in making pressure spring B3 immediately is 7b3 compression limit position, moment upwards launches.At this moment, pouring weight B1 be 6b1 because of pneumatic-typed telescopic shaft A be under the bump of 2a and the effect of launching that pressure spring B1 is 7b1, instantaneous to anticlockwise 90 degree, at pouring weight B1 is that 6b1 is instantaneous to anticlockwise simultaneously, the pneumatic-typed telescopic shaft A that stretches out downwards is that 2a is when stretching out a fixed range, do the withdrawal action immediately fast, as shown in figure 10.
When pouring weight B1 is that the 6b1 rotation positioning forms this mechanism centre-of gravity shift simultaneously, also because of the effect of centre-of gravity shift, make this mechanism can be automatically and reposefully to one fixedly Fang Xiang do rotation effectively continuously.Treat this mechanism when anticlockwise about 30 is spent, pouring weight B2 is that 6b2 rotates to be horizontal position, as shown in figure 11.
Pouring weight B2 is that 6b2 rotates to this position simultaneously, in the running of this institution freedom, institute of mechanism device the mutual Nie of the array gear and the ratchet that close, do energy transfer and conversion, and pass through the device of 2 groups of flywheels, the device that the instinct volume production is given birth to, can stablize and produce effective energy, as shown in figure 12.
This mechanism utilizes 12 groups of pouring weight pieces in the mechanism by that analogy, utilizes above-mentioned steps, according to assigned position the time, discharges the spring in the compression, and cooperates telescopic shaft bump balancing weight, makes it produce leverage.When utilizing leverage, produce mechanism's off-centring, produce power to reach circulation.
This mechanism utilizes the lever principle of the reaction force and the object of spring, makes this mechanism can do unidirectional stably automatic running.The utility model is a mechanism arrangement of utilizing this principle to rotate automatically, and one group of energy output device with gear and flywheel, ratchet, and energy is done conversion effectively and stored with energy collector is to reach the target that power that effective energy implements on the spot produces.
Principle summary
This mechanism is three groups of same components, the group body of different amount position, and average each angle of each pouring weight is established a pouring weight, totally 12 pouring weights.And be set in the every rotation 30 of mechanism when spending pouring weight rotate an angle of 90 degrees automatically, make this mechanism centre-of gravity shift one fixed-direction, reach mechanism and do smooth operation with fixed-direction.
As pouring weight D1 among Figure 13 be 6d1 in horizontal position, promptly this moment, pouring weight D1 was a spring under the 6d1, was in the compression limit position and fixed.When pouring weight D1 was instantaneous the flicking of spring under the 6d1, pouring weight D1 was that 6d1 is that 6d1 upwards launches because of the elastic force of spring with pouring weight D1 then.
Shown in A group among Figure 14, when pouring weight D1 is that 6d1 upsprings when being mapped to the vertical position, device is that 6d1 fixes in the fixture generation effect immediately of this position with pouring weight D1.Making this mechanism is that 6d1 finishes the fixing while at pouring weight D1, and centre-of gravity shift is to the left side, and because of center of gravity deflection left side, then this mechanism can turn round left automatically.
When this mechanical operation is extremely organized as the B among Figure 15, pouring weight C1 is 6c1 when horizontal position (promptly rotating 30 degree), in the same manner, device is pressure spring below pouring weight C1 is 6c1, live script padlock, and be in the pressure spring of compression limit position because of the inductor effect this moment, instantaneously upwards launch, make pouring weight C1 be 6c1 in vertical state.
As the B among Figure 16 group, this device is the swing offset of 6c1 because of pouring weight C1 also, makes this mechanism once more on the left of the centre-of gravity shift deflection, make mechanism can automatic steady ground to anticlockwise.
When the B among Figure 17 group pouring weight C1 is that 6c1 rotates about 30 when spending, just in time be that the pouring weight B2 of C group among Figure 18 is that 6b2 rotates to horizontal position.In the same manner, the inductor of device below pouring weight B2 is 6b2, when rotating so far the position, immediately originally padlock live, the pressure spring in the compression fully, instantaneous relase is come; Making pouring weight B2 is 6b2, because of the elastic force of pressure spring, rotates up the vertical position immediately, make mechanism once more centre-of gravity shift to mechanism left side.Also because of centre-of gravity shift to the left, this mechanism can be turned round automatically to the left.
Shown in C group among Figure 19, when pouring weight B2 is that 6b2 pouring weight smooth operation about 30 is when spending, the C of this moment then turns round simultaneously to horizontal position, mechanism utilizes polylith heavily to hang down to be installed in the 2-3 group disk, make mean allocation and be installed on wherein, and the pouring weight that is installed on wherein is necessary for homogeneous weight, and on average is disposed in the space of 360 degree.Disk quantity can do the disk series connection because of demand, and the disk series connection promptly is to make mechanism the stable and continuous running produce power capacity---be power.
Calculation specifications:
Suppose that pouring weight B1 weight is 500KG steel body
Scheme to anticlockwise 90 degree as I-2 by horizontal position as I-1 figure pouring weight B1
Ask that the merit (joule) how many pouring weight B1 needs deducts the energy that spring stores
Figure 22,23 and 24 has illustrated the preceding schematic perspective view of the utility model preferred embodiment respectively next, back schematic perspective view and floor map.
Above-mentioned mechanism utilizes the mutual Nie of gear to close and the difference of gear ratio, produces energy stably, output and input action, and, make its mechanism can promptly do the action of displacement of center of gravity by the pouring weight displacement.Utilize displacement of center of gravity action, make this mechanism can be rapidly and running and produce effective kinetic energy automatically reposefully.
Claims (2)
1. power generation arrangement, it is characterized in that this device comprises a kind of like this mechanism, it is that three circular coaxial steel bodies are main body, the external edge of its each circular steel place, with the pouring weight of be pivoted 4 groups and lever principle, its pouring weight is a free state, mechanism establishes respectively and the pneumatic-typed telescopic shaft of circular steel body with quantity the top, and be set in the every rotation 30 of mechanism when spending pouring weight rotate an angle of 90 degrees automatically, make this mechanism centre-of gravity shift one fixed-direction, reach mechanism and do smooth operation with fixed-direction; Described mechanism also comprises input motor and compressor and pressure spring, be hubbed at a fixed position device in the mechanism, spring assembly is launched action and cooperates lever principle, described motor is transmitted in gear drive to power by belt, in the driving gear running simultaneously, compressor is running simultaneously also, make the pneumatic-typed telescopic shaft and the pouring weight of corresponding generation action produce corresponding interoperation, and pouring weight has corresponding the cooperation with pressure spring; Described mechanism does energy transfer and conversion by gear and ratchet that the mutual Nie of array closes, and with energy collector energy is done conversion effectively and stored, and effective energy can be stablized and produce to the device that its energy is produced.
2. power plant according to claim 1 is characterized in that the described mechanism 3 groups of circular rotation steel bodies that then are pivoted, and its each pouring weight then mean allocation utilizes this principle to make the mechanisms in series device in this mechanism.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 200320103222 CN2683892Y (en) | 2003-11-11 | 2003-11-11 | Power-generating apparatus |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 200320103222 CN2683892Y (en) | 2003-11-11 | 2003-11-11 | Power-generating apparatus |
Publications (1)
Publication Number | Publication Date |
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CN2683892Y true CN2683892Y (en) | 2005-03-09 |
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Family Applications (1)
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CN 200320103222 Expired - Fee Related CN2683892Y (en) | 2003-11-11 | 2003-11-11 | Power-generating apparatus |
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CN (1) | CN2683892Y (en) |
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2003
- 2003-11-11 CN CN 200320103222 patent/CN2683892Y/en not_active Expired - Fee Related
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