CN1696502A - Power generating apparatus and method - Google Patents

Abstract

The present relates to a power-making equipment. Said equipment includes a power-making mechanism and an energy-collecting device. It is characterized by that said power-making mechanism includes a steel frame body on which are set two groups of levers, two ends of every lever are movably combined with a slide block box respectively and can retain the balance of lever, the interior of every slide block box is equipped with slide block, and its exterior is movably pivoted on the frame body, so that when the internal slide blocks in two slide block boxes are leftwards and rightwards reciprocated towards same direction, said slide block boxes can be balance-moved onto said frame body from the curved slide groove, and said lever can continuously implement 360 deg. permanent circulation so as to produce energy source, and can effectively convert and transfer said energy source to said energy-collecting device.

Description

Power generation arrangement and method thereof

Technical field

The present invention is relevant a kind of power generation arrangement and method thereof, it is to utilize the lever principle move left and right, cooperate the lively energy of potential energy (weight) displacement movable property, and then produce steady and effective energy, its mechanism produces power by the running of pouring weight Horizontal displacement and regulating device, and the kinetic energy of its generation is changed and is transferred to energy collector effectively and makes energy storage effectively.

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.

Yet 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.

Summary of the invention

Main purpose of the present invention is to generate energy in view of the existing natural force that utilizes, be subject to the shortcoming that the area can be implemented, thereby constantly progress greatly the research and development improvement, and provide a kind of mechanical power generation arrangement and method thereof, specifically provide a kind of lever principle move left and right of utilizing, cooperate the lively energy of potential energy (weight) displacement movable property, and then produce steady and effective energy, its mechanism is by the power generation arrangement and the method thereof of the running of pouring weight Horizontal displacement and regulating device.

The objective of the invention is to realize by following technical proposals, power generation arrangement provided by the present invention comprises a power generating mechanism and an energy collector, it is characterized in that this power generating mechanism comprises: a rigidity support body, which is provided with a main shaft and this main shaft and be provided with two groups of levers, these two groups of its neutral position of lever are provided with output main gear, this master gear is connected with energy collector, be combined with a gliding block box and keep lever balance in each each activity of lever two ends, but this gliding block box inside has slide block and the slide rail of corresponding cooperation and the sledge motor that is used for driving sliding block of left and right displacement, outside then activity is articulated on the support body, described rigidity support body two outer edge sides are provided with two arc chutes side by side, and gliding block box is that activity is hubbed on the lever by adjusting cable wire and the telescopic adjustment pulley of plural groups, and adjusting pulley is incorporated on the arc chute, the slide block of gliding block box inside is in a direction left and right sides shift reciprocately like this, its gliding block box is according to the circular radian of arc chute and longitudinal balance is displaced on its support body, and this telescopic adjustment pulley can be done flexible the adjustment according to the radian of arc chute, to keep the level of gliding block box, such two groups of levers are sustainable to be made axial rotation and drives master gear and rotate and make it to produce kinetic energy, and its energy collector is changed and be sent to master gear effectively.

The output gear that is pivoted in the described support body, its gear matched is rotated in output main gear, and makes the energy be sent to this energy collector.

The two groups of circular arc type chutes that are pivoted in the described power generating mechanism make gliding block box make the 360 permanent loops systemic effects of spending in this arc chute by flexible pulley.

Be combined with fine-tuning adjustment motor between described slip case and support body in addition, to keep the gliding block box level.

Described energy collector is that several pitch wheels, ratchet, flywheel, belt and two energy collectors are formed, and makes the energy that this power generating mechanism produces through this gear, ratchet, flywheel, belt and conduct to energy collector.

The method that is used for the power generation of the present invention comprises a power generating mechanism and an energy collector, and wherein power generating mechanism comprises: a rigidity support body, and which is provided with a main shaft and this main shaft and be provided with two groups of levers, the implementation step that its power produces is:

A. make wherein one group of lever is a level, another group then is a plumbness;

B. and order be hubbed at level and one group of gliding block box device is established at each two ends of plumbness lever, the corresponding corresponding position that is positioned in the casing of two slide blocks in every gliding block box;

C. activate-be located at upright lever group upper end sledge motor, with the slide block that drives this gliding block box inside towards right-hand displacement;

D. activate-be located at upright lever group lower end sledge motor, with the slide block that drives this gliding block box inside towards the left displacement;

E. at sledge motor running while two levels and upright lever, be that axle is done the inverse clock rotation with the main shaft;

F. after the upright lever lower end moves to vertical limit inferior position, then activate the sledge motor antiport in the gliding block box of lever lower end, with the slide block that drives this gliding block box inside towards the one direction displacement of gliding block box trunnion shaft, when moving to place, gliding block box inner slide case trunnion shaft axle center, the beginning stops the running of this sledge motor;

G. after the upright lever upper end moves to vertical limes superiors position, then activate the sledge motor antiport in the gliding block box of lever upper end, with the slide block that drives this gliding block box inside towards the displacement of gliding block box trunnion shaft other direction, when moving to the place, axle center of gliding block box inner slide case trunnion shaft, the beginning stops the running of this sledge motor;

H. when the slide block of the gliding block box inside of upright lever upper and lower end towards the displacement of gliding block box trunnion shaft direction, upright lever and horizontal lever then are that the inverse clock rotation is done in the axle center to the right with the main shaft simultaneously;

When treating that i. slide block among the step h moves in the gliding block box place, axle center away from lever, stop this sledge motor running, and this lever right-hand because of centre-of gravity shift to lower swing, and this gliding block box also because of arc chute to moving down, the gliding block box of lever left end is then because of the arc chute slippage that makes progress;

J. the output main gear that drives simultaneously in the support body in the step I rotation is done axially rotation;

Step b is to step j repeatedly, and by master gear the energy that produces is sent to energy collector.

For ease of to the present invention more deep understanding being arranged, given embodiment is described in detail the present invention below in conjunction with accompanying drawing.

Description of drawings

Fig. 1 is the preceding schematic perspective view of preferred embodiment of the present invention;

Fig. 2 A is the preceding schematic perspective view of preferred embodiment of the present invention, and Fig. 2 B is a partial schematic diagram;

Fig. 3 is the front elevation of preferred embodiment of the present invention;

Fig. 4 is the preferred embodiment first operating state schematic representation of the present invention;

Fig. 5 is the preferred embodiment second operating state schematic representation of the present invention;

Fig. 6 is preferred embodiment the 3rd an operating state schematic representation of the present invention;

Fig. 7 is preferred embodiment the 4th an operating state schematic representation of the present invention;

Fig. 8 is the output and the input mechanism schematic representation of preferred embodiment of the present invention;

Fig. 9 is the pouring weight unit state schematic representation of preferred embodiment of the present invention;

Figure 10 is the principle schematic diagram of preferred embodiment of the present invention;

Figure 11 is the principle schematic diagram of preferred embodiment of the present invention;

Figure 12 is the principle schematic diagram of preferred embodiment of the present invention;

Figure 13 is the principle schematic diagram of preferred embodiment of the present invention;

Figure 14 is the principle schematic diagram of preferred embodiment of the present invention;

Figure 15 is the principle schematic diagram of preferred embodiment of the present invention;

Figure 16 is the principle schematic diagram of preferred embodiment of the present invention;

Figure 17 is the principle schematic diagram of preferred embodiment of the present invention.

Part name:

111 support bodys; 121 lever A; 122 lever B; 131 main shafts; 141 gliding block box trunnion shaft A; 142 gliding block box trunnion shaft B; 143 gliding block box trunnion shaft C; 144 gliding block box trunnion shaft D; 151 arc chute A; 152 arc chute B; 153 arc chute C; 154 arc chute D; 211 gliding block box A; 212 gliding block box B; 213 gliding block box C; 214 gliding block box D; 221 slip toothrow A; 222 slip toothrow B; 223 slip toothrow C; 224 slip toothrow D; 225 slip toothrow E; 226 slip toothrow F; 227 slip toothrow G; 228 slip toothrow H; 231 sledge motor A; 232 sledge motor B; 233 sledge motor C; 234 sledge motor D; 235 sledge motor E; 236 sledge motor F; 237 sledge motor G; 238 sledge motor H; 241 slide block A; 242 slide block B; 243 slide block C; 244 slide block D; 245 slide block E; 246 slide block F; 247 slide block G; 248 slide block H; 251 slide rail A; 252 slide rail B; 253 slide rail C; 254 slide rail D; 255 slide rail E; 256 slide rail F; 257 slide rail G; 258 slide rail H; 261 damping spring A; 262 damping spring B; 263 damping spring C; 264 damping spring D; 265 damping spring E; 266 damping spring F; 267 damping spring G; 268 damping spring H; 311 adjust cable wire A; 312 adjust cable wire B; 313 adjust cable wire C; 314 adjust cable wire D; 331 adjust motor; 332 adjust gear; 333 adjust chain; 41 output main gears; 42 output gear wheel carriers; 431 output gear A; 432 output gear B; 433 output gear C; 434 output gear D; 441 adjustment type flywheels; 442 flywheels; 451 belt A; 452 belt B; 51 energy collectors.

Embodiment

Principle sketch 10 to 17 at first according to the present invention is described the principle of the method for power generation of the present invention, and the implementation step that its power produces is:

A. making slide block A1, slide block A2 in this two gliding block box is the limit on the right-right-hand limit place that is positioned center in the casing;

B. making slide block B 1, slide block B 2 in this two gliding block box is the places, axle center that are positioned center in the casing;

C. making slide block C1, slide block C2 in this two gliding block box is the place, axle center that is positioned center in the casing;

D. making slide block D1, slide block D2 in this two gliding block box is the place, axle center that is positioned center in the casing;

E. activate a sledge motor of being located on lever one end (as the B1.B2) gliding block box, with the slide block that drives this gliding block box inside towards right-hand displacement (L);

When treating that f. slide block among the step b moves in the gliding block box place, axle center away from lever, stop this sledge motor running, and should circle mechanism group right-hand because of centre-of gravity shift to the right inverse clock rotate, and this gliding block box also because of arc chute to the lower edge slippage, the gliding block box of lever A left end is then because of the arc chute slippage that makes progress;

G. when rotating to left end, lever A moves to the limes superiors position simultaneously, then activate the sledge motor antiport in the gliding block box of lever B lower end simultaneously, with the slide block that drives this gliding block box inside towards the left displacement, during away from the place, axle center of lever B, the beginning stops the running of this sledge motor in moving to gliding block box;

H. when carrying out step g, sledge motor on the lever A left end gliding block box also activates simultaneously, with the slide block that drives this gliding block box inside towards the left displacement, to gliding block box during away from the place, axle center of lever, stop the running of this sledge motor, and make this slide block location, and the left that makes this lever because of centre-of gravity shift to lower swing, and the also slippage downwards according to arc chute of this gliding block box, the gliding block box of lever right-hand member are then because of the arc chute slippage that makes progress;

I. step b and is sent to energy collector with the energy that produces to step h repeatedly.

See also Fig. 1 to 4, diagramatic content is power generation arrangement three-dimensional view of the present invention and action schematic representation, and it comprises a power generating mechanism and an energy collector.

This power generating mechanism, system comprises a rigidity support body 111, it is to which is provided with two groups of levers: lever A promptly 121, lever B promptly 122, these two groups of each activities of lever two ends are combined with one group of gliding block box 211～214, and maintenance lever A is 121 levels, lever B is promptly 122 then vertical, and these two groups of its neutral position of lever are connected with this energy collector 51 by output main gear 41 in addition, make this lever A promptly 121, lever B is promptly 122 when inverse clock is done the arc swing to the right, can drive this output main gear 41, and make the energy be sent to this energy collector 51.These four groups of gliding block box the 211,212,213, the 214th, activity is articulated on the support body 111, and its inside respectively has slide block 241～248 and slide rail 251～258, and the outside then is provided with sledge motor 231～238.

When just beginning to activate, 41 of the output main gears that input device drives input gear (all not shown) this mechanism of entry into service impel mechanism to come into operation.

Begin to activate, can drive slide block 243,244 after this sledge motor 233,234 and move on slide rail 253,253, and make this sledge motor 233,234 treat to shut down immediately behind slide block 243, the 244 smooth sliding location.111 liang of outer rim side-lines of this rigidity support body are provided with two side by side arc chutes 151～154, activity is hubbed at lever B promptly 122 with the telescopic adjustment pulley of plural groups and these four groups of gliding block box 211～214 are by adjusting cable wire 312, and make this adjustment pulley be incorporated on the arc chute, the slide block 241～248 that makes gliding block box 211～214 inside is during towards a direction left and right sides shift reciprocately, this gliding block box 211～214 can longitudinal balance be displaced on this support body 111 according to the circular radian of this arc chute 151～154, and this telescopic adjustment pulley can be done flexible the adjustment according to the radian of arc chute 151～154, to keep gliding block box 211～214 levels.

In addition, 111 of this gliding block box 211～214 and support bodys are combined with fine-tuning adjustment motor 331 in addition, to keep gliding block box 211～214 levels.

This energy collector 51 is that output gear A431, output gear B432, output gear C433, output gear D432, flywheel A441, belt A 451, flywheel B442 and the energy collector 51 that several mutual Nie close formed, and makes the energy that this power generating mechanism produces successively through this output gear A431, output gear B432, output gear C433, output gear D432, flywheel A441, belt A 451, flywheel B442 and conduct to energy collector energy collector 51.

In view of the above, slide block 243, the 244 right in the same direction displacements of top slide block case B212 inside simultaneously, slide block 247,248 left dislocations in the same direction of bottom slide block case D214 inside, this gliding block box 212,214 balance up and down is displaced on this support body 111, and this lever A121 and lever B122 be sustainable to be made axial rotation and produces the energy, and changes and be sent to this energy collector 51 effectively.

During enforcement, two gliding block box 211 on the rigidity support body 111, the 213rd, in horizontal position, slide block 241 in the gliding block box 211,242 are fixed in gliding block box 211 outermost axial rotary positions, slide block 245 in the gliding block box 213,246 are fixed in gliding block box 213 gliding block box trunnion shafves 143 positions, two gliding block box 211, the 213rd, in horizontal position, slide block 243 in the gliding block box 212,244 are fixed in gliding block box 212 gliding block box trunnion shafves 142 positions, slide block 247 in the gliding block box 214,248 are fixed in gliding block box 211 outermost axial rotary positions, this state when not moving as yet.

See also Fig. 8, when this power input device entry into service, at first 41 of the output main gears of this mechanism of input device drive input gear entry into service impel mechanism to come into operation.

See also Fig. 1 to 3 and 5, when this power generation arrangement entry into service, these sledge motor 233,234 entrys into service, and drive slide block 243,244 in this gliding block box B212 to parallel this gliding block box B212 the other end limit place that moves to, lever 122 right sides by the sledge motor 233,234 in the running.In the same manner; These sledge motor 237,238 entrys into service, and drive slide block 247,248 in this gliding block box D214 to parallel this gliding block box B212 the other end limit place that moves to of trunnion shaft D144 center axis by the sledge motor 237,238 in the running.

Because of being offset, center of gravity make this mechanism do the inverse clock rotation to the right to the right at above-mentioned steps running while lever B and lever A.

After treating that this slide block 243,244,247,248 is by slide rail 253,254,257,258 smooth sliding location, this sledge motor 233,234,237,238 shuts down immediately, and this slide block 243,244,247,248 is completely fixed.When treating that this slide block 243,244,247,248 is fixedly finished, the lever A121 of rigidity support body 111 is in the heavier state of right-hand end at this moment.Therefore, cause the lever principle effect, make fast and reposefully with the gliding block box 211～214 of lever A121 outboard end, can be according to the radian of arc chute 151～154 to lower slider, and slide simultaneously at the radian of gliding block box 211～214 according to arc chute 151～154, this telescopic adjustment pulley is then done flexible the adjustment according to the radian of arc chute 151～154, makes the gliding block box 211～214 can be in level (shown in Fig. 5 to 8).

Like this, utilize leverage, cause this mechanism centre-of gravity shift to a certain end, output gear 41 is to right rotation (as shown in Figure 8), the energy that this device is produced reposefully, by this output gear 41 in addition end output gear A431, output gear B432, output gear C433, output gear D432, flywheel A441, belt A 451, flywheel B442 and change and be sent to energy collector 51 effectively, and do effective power generating mechanism.

In addition, can do trimming movement reposefully owing to adjust motor 331, so this device is in each any action, gliding block box 211～214 can be under complete horizontal state, each action can be with under the minimum kinetic energy, do the Horizontal displacement action, and produce great upper and lower displacement action, and then produce greatly effectively kinetic energy.

Therefore, by on can learn that the present invention is used for the method for generating power implementation step and is:

A. make this gliding block box interior slide block 231, slide block 232 be positioned the limit on the right-right-hand limit place at center in the casing; Making slide block 233, slide block 234 in this gliding block box is the place, axle center that is positioned center in the casing; Making slide block 235, slide block 236 in this gliding block box is the place, axle center that is positioned center in the casing; Making slide block 237, slide block 238 in this gliding block box is the place, axle center that is positioned center in the casing;

B. activate one be located at sledge motor 233 on the lever B one end gliding block box B212,, 234 with the slide block 233 that drives this gliding block box inside, slide block 234 towards right-hand displacement;

When treating that c. slide block 233, slide block 234 among the step b moves in the case B212 place, axle center away from lever, stop this sledge motor running, and should circle mechanism group right-hand because of centre-of gravity shift to the right inverse clock rotate, and this gliding block box also because of arc chute to the lower edge slippage, the gliding block box of lever A left end is then because of the arc chute slippage that makes progress;

D. when rotating to right-hand member, lever A121 moves to the limes superiors position simultaneously, then activate sledge motor 237,238 antiports in the lever B122 lower end gliding block box 214 simultaneously, with the slide block 237,238 that drives these gliding block box 214 inside towards the left displacement, in moving to gliding block box 214, when the axle center of lever B was located, the beginning stopped the running of this sledge motor;

E. when carrying out steps d, and make this lever right-hand because of centre-of gravity shift to the lower right swing, and also slippage downwards of this gliding block box according to arc chute, the gliding block box of lever left end is then because of the arc chute slippage that makes progress;

F. step b and is sent to energy collector 51 with the energy that produces to step h repeatedly.

Claims (6)

1, a kind of power generation arrangement, it comprises a power generating mechanism and an energy collector, it is characterized in that this power generating mechanism comprises: a rigidity support body, which is provided with a main shaft and this main shaft and be provided with two groups of levers, these two groups of its neutral position of lever are provided with output main gear, this master gear is connected with energy collector, be combined with a gliding block box and keep lever balance in each each activity of lever two ends, but this gliding block box inside has slide block and the slide rail of corresponding cooperation and the sledge motor that is used for driving sliding block of left and right displacement, outside then activity is articulated on the support body, described rigidity support body two outer edge sides are provided with two arc chutes side by side, and gliding block box is that activity is hubbed on the lever by adjusting cable wire and the telescopic adjustment pulley of plural groups, and adjusting pulley is incorporated on the arc chute, the slide block of gliding block box inside is in a direction left and right sides shift reciprocately like this, its gliding block box is according to the circular radian of arc chute and longitudinal balance is displaced on its support body, and this telescopic adjustment pulley can be done flexible the adjustment according to the radian of arc chute, to keep the level of gliding block box, such two groups of levers are sustainable to be made axial rotation and drives master gear and rotate and make it to produce kinetic energy, and its energy collector is changed and be sent to master gear effectively.

2, power generation arrangement according to claim 1 is characterized in that the output gear that is pivoted in the described support body, and its gear matched is rotated in output main gear, and makes the energy be sent to this energy collector.

3, power generation arrangement according to claim 1 is characterized in that the two groups of circular arc type chutes that are pivoted in the described power generating mechanism, makes gliding block box can make the permanent loops systemic effect of 360 degree by flexible pulley in this arc chute.

4, power generation arrangement according to claim 1 is characterized in that being combined with in addition between described slip case and support body fine-tuning adjustment motor.

5, power generation arrangement according to claim 1, it is characterized in that described energy collector is that several pitch wheels, ratchet, flywheel, belt and two energy collectors are formed, make the energy that this power generating mechanism produces through this gear, ratchet, flywheel, belt and conduct to energy collector.

6, be used for the method that power produces, it comprises a power generating mechanism and an energy collector, wherein power generating mechanism comprises: a rigidity support body, and which is provided with a main shaft and this main shaft and be provided with two groups of levers, it is characterized in that the implementation step that power produces is:

A. make wherein one group of lever is a level, another group then is a plumbness;

B. and order be hubbed at level and one group of gliding block box device is established at each two ends of plumbness lever, the corresponding corresponding position that is positioned in the casing of two slide blocks in every gliding block box;

C. activate-be located at upright lever group upper end sledge motor, with the slide block that drives this gliding block box inside towards right-hand displacement;

D. activate-be located at upright lever group lower end sledge motor, with the slide block that drives this gliding block box inside towards the left displacement;

E. at sledge motor running while two levels and upright lever, be that axle is done the inverse clock rotation with the main shaft;

F. after the upright lever lower end moves to vertical limit inferior position, then activate the sledge motor antiport in the gliding block box of lever lower end, with the slide block that drives this gliding block box inside towards the one direction displacement of gliding block box trunnion shaft, when moving to place, gliding block box inner slide case trunnion shaft axle center, the beginning stops the running of this sledge motor;

G. after the upright lever upper end moves to vertical limes superiors position, then activate the sledge motor antiport in the gliding block box of lever upper end, with the slide block that drives this gliding block box inside towards the displacement of gliding block box trunnion shaft other direction, when moving to the place, axle center of gliding block box inner slide case trunnion shaft, the beginning stops the running of this sledge motor;

H. when the slide block of the gliding block box inside of upright lever upper and lower end towards the displacement of gliding block box trunnion shaft direction, upright lever and horizontal lever then are that the inverse clock rotation is done in the axle center to the right with the main shaft simultaneously;

When treating that i. slide block among the step h moves in the gliding block box place, axle center away from lever, stop this sledge motor running, and this lever right-hand because of centre-of gravity shift to lower swing, and this gliding block box also because of arc chute to moving down, the gliding block box of lever left end is then because of the arc chute slippage that makes progress;

J. the output main gear that drives simultaneously in the support body in the step I rotation is done axially rotation;

Step b is to step j repeatedly, and by master gear the energy that produces is sent to energy collector.

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