CN1490520A

CN1490520A - Mechanical power generator

Info

Publication number: CN1490520A
Application number: CNA021314934A
Authority: CN
Inventors: 邱金和
Original assignee: Individual
Current assignee: Individual
Priority date: 2002-10-17
Filing date: 2002-10-17
Publication date: 2004-04-21

Abstract

A mechanical power generator features that a movable bar is arranged on a toothed active disk which can freely rotate and play the flywheel role, and has a group of counterweight blocks whose angle relative to ground and whose axle base can be alternatively changed for generating a high rotation torque applied to said toothed active disk, so rotating said toothed active disk.

Description

The mechanical power generation device

Technical field

The present invention relates to a kind of mechanical power generation device, refer to a kind of mechanical power generation device of being apt to implement on the spot to produce power especially with effective energy.

Background technique

In recent years; because the lasting consumption of earth energy; add and untapped new alternative energy source; the feasible mankind are about to face the crisis of energy depletion; so all constantly active development utilization " wind-force " of countries in the world at present, " 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, partly the long-term wind-force in area is not strong for certain, 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 " nature can't use; 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.

The inventor is subject to the shortcoming that the area can be implemented because the existing natural force that utilizes generates energy, is the research and development improvement that constantly progresses greatly, and invents out a mechanical power generation device eventually.

Summary of the invention

For overcoming above-mentioned defective, main purpose of the present invention is to provide a kind of mechanical power generation device, its motion bar has one group and can change and the outstanding balancing weight of establishing angle and wheelbase in ground, utilize different outstanding change and the conversions of establishing angle and wheelbase of this assembly pouring weight, cooperate action of gravity and driving gear is produced a running torque, drive driving gear and rotate and produce power, be apt to implement to produce power on the spot with effective energy to reach.

For realizing above-mentioned purpose, the technical solution used in the present invention is as follows:

A kind of mechanical power generation device, it is characterized in that, mainly can be hubbed on to rotate on the support and freely and on the active fluted disc of tool wheel action a motion bar is set one, this motion bar has one group and can alternately change and the outstanding balancing weight of establishing angle and wheelbase in ground, utilize the outstanding moment of establishing angle and wheelbase of this assembly pouring weight can change and the means of changing, cooperate the outstanding action of gravity of establishing angle of one of this assembly pouring weight again, and this active fluted disc is produced a bigger running torque, drive this driving gear rotation and produce power, to reach the kind purpose of implementing to produce power with effective energy on the spot.

Preferably, this mechanical power generation device comprises that further one can be hubbed on the support rotation freely and the discoid active fluted disc of tool wheel action, and this is below at least one generator of engagement driving then of fluted disc initiatively;

One in this card of fluted disc initiatively, apart from fluted disc vertical center line one setpoint distance place initiatively, sets firmly first movable pivot axis and second movable pivot axis respectively, and protrusion that this first and second movable pivot axis can make by electrical control means or retraction are in the card of driving gear;

One in this initiatively the card of fluted disc with respect to the position of this first and second movable pivot axis, then be provided with the motion bar that two ends all are installed with balancing weight, this motion bar is provided with first axis hole and one second axis hole that can supply the movable pivot axis pivot to close with respect to first and second movable pivot axis position;

One is positioned at the side of this motion bar towards pivot in this active fluted disc, and an alignment sensor that can prop up the motion bar location is set; And

One in the position of this driving tooth plate edge with respect to its horizontal center line, and the stop block of a tool backstop motion bar is set.

Preferably, the another side of the card of this active fluted disc is positioned at a side of motion bar relatively, further set firmly one and be parallel slide rail during with this motion bar location, the then sliding weight of establishing a tool setting weight on this slide rail, and making two extreme end of this slide rail, setting can be located first positioning device and second positioning device that this weight slides on slide rail.

Preferably, two free ends of this motion bar set firmly a balancing weight respectively.

Preferably, these motion bar two free ends further comprise first adjutage and second adjutage that autonomous active toothed disk pivot side substantially horizontal is extended.

Preferably, this motion bar is a direct rod shape.This motion bar is the U-shaped arm.

This initiatively frame bottom of fluted disc that is pivoted, both sides, below with respect to driving gear, respectively be pivoted with the one group of first generating gear train and its first generator and second generating gear train and its second generator that can form engagement driving respectively with the driving tooth dish, when this first generating gear train is rotated counterclockwise in the active fluted disc is capable, can make first generator for electricity generation, and make the second generating gear train form idle running; When the capable clockwise direction of active fluted disc rotates, the first generating gear train will form idle running, and this second generating gear train then can make second generator for electricity generation.

Practical beneficial effect of the present invention is: utilize one group can change and outstanding first and second balancing weight of establishing angle and wheelbase in ground, the outstanding moment of establishing angle and wheelbase of this assembly pouring weight can change the means with conversion, cooperate the outstanding action of gravity of establishing angle of one of this assembly pouring weight again, and this active fluted disc is produced a bigger running torque, drive this driving gear rotation and produce power, to reach the purpose of using effective energy to implement to produce power on the spot preferably.

For making the above-mentioned purpose of the present invention, effect and characteristics, to obtain more specifically and understand, and can implement according to this, graphic with the preferred embodiment cooperation below, figure number is described as follows:

Description of drawings

The schematic perspective view of Fig. 1 preferred embodiment of the present invention.

The floor map of Fig. 2 preferred embodiment of the present invention.

The static schematic representation of Fig. 3 preferred embodiment driving gear of the present invention.

The first actuator state schematic representation of Fig. 4 preferred embodiment of the present invention.

The second actuator state schematic representation of Fig. 5 preferred embodiment of the present invention.

The 3rd start view of Fig. 6 preferred embodiment of the present invention.

The 4th actuator state schematic representation of Fig. 7 preferred embodiment of the present invention.

The 5th actuator state schematic representation of Fig. 8 preferred embodiment of the present invention.

The 6th actuator state schematic representation of Fig. 9 preferred embodiment of the present invention.

The 7th actuator state schematic representation of Figure 10 preferred embodiment of the present invention.

The 8th actuator state schematic representation of Figure 11 preferred embodiment of the present invention.

The floor map of another preferred embodiment of Figure 12 the present invention.

Another preferred embodiment first actuator state schematic representation of Figure 13 the present invention.

Another preferred embodiment second actuator state schematic representation of Figure 14 the present invention.

Embodiment

As shown in Figures 1 and 2, the present invention mainly is provided with a trapezoidal frame 50, and this support 50 can stand on ground, and makes the ladder type top margin central authorities of this support, is pivoted with a discoid active fluted disc 10 with pivot 51; On the card of this active fluted disc 10, apart from active fluted disc 10 vertical center lines one predeterminable range position, set firmly one first movable pivot axis 11 and second movable pivot axis 12 respectively, this first and second

movable pivot axis

11,12 be by can controlling by external force (electromagnetic braking) so that these movable pivot axis can protrude or retraction in the card front of position fluted disc 10;

These active fluted disc 10 cards are with respect to the position of first and second

movable pivot axis

11,12, then be provided with a motion bar 20, this motion bar 20 corresponds to the position of first and second

movable pivot axis

11,12, then wear one first axis hole 21 and one second axis hole 22, first and

second axis hole

21,22 be can be reach the purpose that the insertion pivot closes when first and second

movable pivot axis

11,12 protrudes from active fluted disc 10 cards, by this, this motion bar 20 can be and is fixed in as the vertical initiatively on the fluted disc 10 (as shown in Figures 2 and 3).Should be illustrated around here, this motion bar 20 is U-shaped arm as shown in the figure in the present embodiment, and so this motion bar 20 can be direct rod shape, sincerely explanation on reality is used;

And this active fluted disc 10 is positioned at the side of motion bar 20 towards pivot 51, then is installed with one and can props up the alignment sensor 13 that motion bar 20 is located; Two free ends of this motion bar 20 then are provided with horizontally extending first adjutage 23 and second adjutage 24 respectively again, the free end of this first and

second adjutage

23,24, and set firmly first balancing weight 25 and second balancing weight 26 of tool setting weight respectively; And make the position of these active fluted disc 10 edges with respect to its horizontal center line, then be installed with one first stop block 14 and one second stop block 14A, wherein, this first stop block 14 separates with first axis hole 21 when first movable pivot axis 11 of motion bar 20, motion bar 20 forms one when reaching towards active fluted disc 10 edge tilt up with counter clockwise direction deflection, gives backstop and locatees (as shown in Figure 4); This second stop block 14A then separates with second axis hole 22 when second movable pivot axis 12 of motion bar 20, and motion bar 20 is in a clockwise direction during deflection, gives backstop and locatees.

As shown in Figure 1 and Figure 2, these initiatively support 50 bottoms of fluted disc 10 that are pivoted, with respect to the both sides, below of driving gear 10, respectively be pivoted with the one group of first generating gear train 30 and first generator 31 and second generating gear train 40 and second generator 41 that can form engagement driving respectively with driving gear 20; Wherein, this first generating gear train 30 comprises first gear 301 that is meshed with active fluted disc 10, one second gear 302 that is meshed with first gear 301, one the 3rd gear 303 that is meshed with second gear 302, the belt pulley 304 of the one and the 3rd gear 303 consubstantialities and a drive belt 305 etc., the second generating gear train 40 then comprises first gear 401 that is meshed with active fluted disc 10, one second gear 402 that is meshed with first gear 401, one the 3rd gear 403 that is meshed with second gear 402, the belt pulley 404 of the one and the 3rd gear 403 consubstantialities and a drive belt 405 etc., because

second gear

302 and 402 is all ratchet, so when being rotated counterclockwise, can driving first generator 31 via the first generating gear train 30 and produce electric energy in active fluted disc 10; And when active fluted disc 10 rotates in a clockwise direction, the first generating gear train 30 will form idle running; This second generating gear train 40 then can drive 41 generatings of second generator when active fluted disc 10 clockwise directions rotate, otherwise when this active fluted disc 10 rotates in a counter-clockwise direction, this second generating gear train 40 will form idle running.

By this, as the present invention during (as Fig. 3 to shown in Figure 6) in start, can utilize external force (electronic electromagnetic force) control, first movable pivot axis 11 that is inserted in motion bar 20 first axis holes 21 is contracted in active fluted disc 10, and the upper semisection positioning states that makes motion bar 20 obtains to discharge (as shown in Figure 3), motion bar 20 will lose static balancing and will be the axle center with second movable pivot axis 12 of upper semisection this moment, and motion bar 20 is rotated towards stop block 14 sides, promptly make first adjutage, 23 sides of this motion bar 20 together with first balancing weight 25, be able to second movable pivot axis 12 and be the axle center, and towards the direction deflection of stop block 14, thereby form anticlockwise pivot pendulum (shown in Fig. 4 arrow R1); When propping up in stop block 14 when motion bar 20 swings, this motion bar 20 has just formed the inclination (as shown in Figure 5) of institute's predetermined angle with the vertical center line of movable fluted disc 10, and make script lay respectively on the same vertical line, under first, two balancing

weights

25,26, in company with motion bar 20 formation rotary state as shown in Figure 5, make this first balancing weight 25 convexedly stretch in the initiatively outer rim of fluted disc 10, second balancing weight 26 then swings in active fluted disc 10 inboards, because this moment, motion bar 20 was the axle center with second movable pivot axis 12, so the running torque of first balancing weight 25 is significantly much larger than the running torque of second balancing weight 26; So this moment, first balancing weight, 25 weight just can put on the stop block 14, and the active fluted disc 10 that together drives the tool wheel action produces a bigger anticlockwise running torque (shown in the arrow R2 of Fig. 6), and drive the first generating gear train 30 and make 31 runnings of first generator and generate electricity by driving gear 10, generating gear train 40 then formed and dallied and second generator 31 is not generated electricity this moment second.

Extremely shown in Figure 11 as Fig. 7, fluted disc 10 carries out anticlockwise rotation when first balancing weight 25 of motion bar 20 as above-mentioned running torque continue to drive initiatively, because this moment, the driving gear 10 of tool wheel action formed a rotatory inertia that continues, so first balancing weight 25 puts on initiatively fluted disc 10 formed moments of inertia, just can make that initiatively fluted disc 10 is together with first, two balancing

weights

25,26 turn to the opposite side that is higher than active fluted disc 10 vertical center lines together, be positioned at the top and form second balancing weight 26, and the state that first balancing weight 25 is positioned at the below and slightly faces upward, extremely shown in Figure 9 as Fig. 7, this moment is because first, two balancing

weights

25,26 put on fluted disc 10 initiatively the moment that is rotated counterclockwise made initiatively that fluted disc 10 angle of swing almost reach 180 degree, be subjected to gravitational effect counteracting and disappearance gradually, so when motion bar 20 angle of swing are spent above 180, as shown in figure 10, can break away from stop block 14 and form clockwise revolution (shown in Figure 10 arrow R3), and then prop up alignment sensor 13 back and stop, and make first axis hole 21 on the motion bar 20 aim at initiatively first movable pivot axis 11 of fluted disc 10 more simultaneously, this just can utilize automatically controlled alignment sensor 13 automatic shake-up first movable pivot axis 11 to protrude out the insertion pivot in a flash and close in first axis hole 21, and make motion bar 20 be positioned the relatively initiatively opposite side (as shown in figure 11) of fluted disc 10, simultaneously, second movable pivot axis 12, utilize 12 retractions of automatically controlled alignment sensor 13 automatic interlock second movable pivot axis in moment, and separate with second axis hole 22, promptly the pivot of second movable pivot axis 12 and second axis hole 22 relation of closing discharges, and the upper semisection positioning states that makes motion bar 20 obtains to discharge (similar counterrotating shown in Figure 3), thereby the power of finishing once generates actuation cycles, it simultaneously also is the beginning of power generation actuation cycles next time, motion bar 20 will be stirred towards stop block 14A side this moment, and make first adjutage, 23 sides of this motion bar 20 together with first balancing weight 25, with second movable pivot axis 12 is axle center and towards stop block 14A beat, to form clockwise rotation, and can make simultaneously motion bar 20 prop up stop block 14A to drive initiatively that fluted disc 10 is the clockwise direction rotation, and then drive the second generating gear train 40 to drive 41 generatings of second generator, so return multiple start, reach the effect that produces electric energy effectively.

Second embodiment of the invention, extremely shown in Figure 14 as Figure 12, its main intention spirit is identical with above-mentioned first embodiment substantially, what they were different is, this is the card back side of fluted disc 10 initiatively, be positioned at a side of this motion bar 20 relatively, be provided with one again and be parallel slide rail 15 during with this motion bar 20 location, as shown in figure 12, the sliding weight 16 of establishing a tool setting weight on this slide rail 15, and make two extreme end of this slide rail 15, respectively being provided with one can make this weight 16 be positioned on the slide rail 15 first positioning device 150 that slides and second positioning device 151 (wherein positioning device can cooperate be embodied as a kind of electronic latch or trip), and make carry out clockwise rotation at active fluted disc 10 and open the beginning during state, this weight 16 is subjected to the blocking of first positioning device 150 and is positioned the primary importance (top) of slide rail 15, and open the beginning during state when fluted disc 10 initiatively carries out anticlockwise rotation, this weight 16 is subjected to the blocking of second positioning device 151 and is positioned the second place (below) of slide rail 15, constitutes second preferred embodiment of the present invention with this.

By this, when the second embodiment of the present invention during in start (as shown in figure 12), need not any external force fully and get involved start, the pivot that can make first movable pivot axis 11 discharge itself and first axis hole 21 when being subjected to electromagnetic activation closes relation, touch synchronously first positioning device, 150 starts on the slide rail 15 and weight 16 discharged, make this weight 16 be subjected to the effect of gravity, and landing is in the other end of slide rail 15, and be subjected to the blocking of second positioning device 151 and be positioned the other end of slide rail 15, and the impact power that drops with this weight 16 produces a moment (shown in the arrow R4 of Figure 14) of counterclockwise changeing pendulum on driving gear 10, and then drive initiatively as first balancing weight 25 that can order about motion bar 20 as described in the above-mentioned embodiment that fluted discs 10 form an anticlockwise rotating force distance, ensuing action is then identical with last embodiment, so no longer giving unnecessary details more; And treat that motion bar 20 drives when initiatively fluted disc 10 turns to opposite side, then the weight 16 on the slide rail 15 is driven the top that is positioned at slide rail 15 relatively again again, the gravity that falls that then utilizes this moment weight 16 to discharge again, make motion bar 20 drive the initiatively clockwise rotation of fluted disc 10 formation and drive, make 41 generatings of second generator to drive the second generating gear train 40, thereby make second embodiment of the invention, and can be by the means of this slide rail 15 with weight 16, reach and need not the also drivable effect of external force.

In sum, mechanical power generation device of the present invention, utilize one group can change and outstanding first and second balancing weight of establishing angle and wheelbase in ground, and driving gear is formed running torque, and then can under unpowered state, make driving gear drive generator with simple harmonic motion deflection to produce electric energy, have really and can effectively produce power, the enhancement of effects such as convenient various areas and place enforcement, really be a quite excellent invention, file an application patent of invention in accordance with the law.

Claims

1. mechanical power generation device, it is characterized in that, mainly can be hubbed on to rotate on the support and freely and on the active fluted disc of tool wheel action a motion bar is set one, this motion bar has one group and can alternately change and the outstanding balancing weight of establishing angle and wheelbase in ground, utilize the outstanding moment of establishing angle and wheelbase of this assembly pouring weight can change and the means of changing, cooperate the outstanding action of gravity of establishing angle of one of this assembly pouring weight again, and this active fluted disc is produced a bigger running torque, drive this driving gear rotation and produce power, to reach the kind purpose of implementing to produce power with effective energy on the spot.

2. mechanical power generation device according to claim 1 is characterized in that, comprises that further one can be hubbed on the support rotation freely and the discoid active fluted disc of tool wheel action, and this is below at least one generator of engagement driving then of fluted disc initiatively;

3. mechanical power generation device according to claim 1, it is characterized in that, the another side of the card of this active fluted disc is positioned at a side of motion bar relatively, further set firmly one and be parallel slide rail during with this motion bar location, the then sliding weight of establishing a tool setting weight on this slide rail, and making two extreme end of this slide rail, setting can be located first positioning device and second positioning device that this weight slides on slide rail.

4. mechanical power generation device according to claim 1 is characterized in that, two free ends of this motion bar set firmly a balancing weight respectively.

5. according to claim 1 a described mechanical power generation device, it is characterized in that these motion bar two free ends further comprise first adjutage and second adjutage that autonomous active toothed disk pivot side substantially horizontal is extended.

6. mechanical power generation device according to claim 1 is characterized in that, this motion bar is a direct rod shape.

7. mechanical power generation device according to claim 1 is characterized in that, this motion bar is the U-shaped arm.

8. mechanical power generation device according to claim 1, it is characterized in that this initiatively frame bottom of fluted disc that is pivoted, both sides, below with respect to driving gear, respectively be pivoted with the one group of first generating gear train and its first generator and second generating gear train and its second generator that can form engagement driving respectively with the driving tooth dish, when this first generating gear train is rotated counterclockwise in the active fluted disc is capable, can make first generator for electricity generation, and make the second generating gear train form idle running; When the capable clockwise direction of active fluted disc rotates, the first generating gear train will form idle running, and this second generating gear train then can make second generator for electricity generation.