CN101267173A - A magnetic dynamic device - Google Patents
A magnetic dynamic device Download PDFInfo
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- CN101267173A CN101267173A CNA2008100137757A CN200810013775A CN101267173A CN 101267173 A CN101267173 A CN 101267173A CN A2008100137757 A CNA2008100137757 A CN A2008100137757A CN 200810013775 A CN200810013775 A CN 200810013775A CN 101267173 A CN101267173 A CN 101267173A
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- iron block
- magnet roller
- control lever
- magnet
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Abstract
A magnetic power device comprises a power input part and a power output part. The invention is characterized in that a reinforcement magnetic power source is provided between the power input part and the power output part. The magnetic power source comprises the following components: four same control levers which are parallelly arranged; a first magnetic roller and a second magnetic roller which have axes of the supporting shafts parallel with each other and are arranged among the control levers; and a first iron block and a second iron block which are distantly arranged from the first magnetic roller and the second magnetic roller. The magnetic force line of the magnet is radial, in rotation, only 1/5-1/10 of the parallel pulling force (suction) is required, therefore, the input power required for transversely cutting the magnetic force line between the iron block and the magnetic roller is smaller, and the spring reactive thrust which is generated by the attraction force between the iron block and the magnetic roller is larger. The invention is same to the lever principle, therefore the purpose of force saving is obtained and the energy saving effect is remarkable. The power device of the invention can be used for energy generation, vehicles, engineering machinery or other places.
Description
Technical field
The present invention relates to a kind of power set, especially a kind of magnetic dynamic device based on magnet.
Background technology
Engine divides and can be divided into fuel at present: gasoline engine, diesel engine and gas engine etc., and these fuel all are based on the fossil fuel energy, and along with the minimizing gradually of fossil fuel, energy crisis is more and more serious, and seeking new alternative energy source is to go.In Chinese patent ZL00260655.0, disclose a kind of magnetic energy and passed through motivation, the likeness in form conventional engine, permanent magnet is equipped with in piston upper end in working cylinder, on the inner top surface of working cylinder spring is housed, it is corresponding with the piston upper end to connect the magnet that is surrounded by shelter under the spring, use storage battery A to do the electricity starting, utilize the magnetic energy characteristic that the piston linear reciprocating motion is transformed into rotatablely moving of bent axle, so as to transferring power, on the output work driving-chain, connect the machine driving work done, be inconjunction with DC generator simultaneously to storage battery B charging, in order to storage battery A, B switches use mutually.This magnetic energy passes through motivation and seems rationally, overcomes the repulsion between permanent magnet and the magnet and the elastic force of spring when storage battery A does the electricity starting in fact, and this need consume bigger energy, just in working stroke, again this energy is discharged, so poor practicability.
Summary of the invention
Technical assignment of the present invention is to provide a kind of magnetic dynamic device at above-mentioned deficiency of the prior art, and this device has the effect of multiplication power, just as the principle of lever, applies a less power, and it is capable to obtain an increase.
The technical solution adopted for the present invention to solve the technical problems is: a kind of magnetic dynamic device, comprise power importation and power output, and it is characterized in that, between described power importation and power output, be provided with reinforcement magnetomotive source;
Described magnetomotive source comprises, four identical and control levers that be arranged in parallel; Back shaft parallel axes and the first magnet roller between control lever and the second magnet roller; First iron block, second iron block and the first magnet roller and the second magnet roller are provided with at interval;
The described first magnet roller has identical structure and identical setting angle with the second magnet roller, and its cylinder is divided into two along axis, and half is the kicker magnet of radial magnetic force line, and second half is the irony body; Be provided with synchronous drive device at the first magnet roller and second magnet roller back shaft the same side separately, described synchronous drive device connects the power importation;
First iron block and four angles of second iron block are provided with the control lever hole of concentric accordingly, and described control lever is nested with on first iron block and second iron block slidably by the control lever hole; Be provided with the deep-slotted chip breaker of parallel axes in the magnet roller at first iron block and second iron block near on the side of described magnet, described deep-slotted chip breaker and magnet roller match; Be provided with the iron block sliding limitation structure between the first magnet roller and first iron block and on the control lever between the second magnet roller and second iron block;
Described control lever is spacing by the fixed head footpath in tape guide hole; Insert in the spring base of the inner fixed-site that is equipped with spring one end of control lever, and second iron block of control lever the other end is provided with link pin, and a connecting rod is connected between link pin and the bent axle by bearing; Described bent axle connects the power output.
In aforementioned magnetic dynamic device, described synchronous drive device is, one power input shaft by bearings, the axle head of this power input shaft is provided with a bevel gear wheel, respectively be provided with a bevel pinion at the first magnet roller and second magnet roller back shaft the same side separately, bevel gear wheel is meshed with two bevel pinions.
In aforementioned magnetic dynamic device, described iron block sliding limitation structure is, at the shaft shoulder that is provided with on the control lever that reaches between the first magnet roller and first iron block between the second magnet roller and second iron block.
In aforementioned magnetic dynamic device, described power output comprises the gearbox that connects crankshaft output end.
The operation principle of this magnetic dynamic device is, at the kicker magnet of the initial position first magnet roller and the second magnet roller away from first iron block and second iron block, that is to say between magnet roller and the corresponding iron block irony body portion shielding by the magnet roller, kicker magnet does not have sucking action substantially to iron block, and control lever makes bent axle be positioned at far point under the effect of spring; Along with power input shaft rotation, the kicker magnet of the first magnet roller and the second magnet roller moves closer to first iron block and second iron block, that is to say between magnet roller and the corresponding iron block that the shield effectiveness that the irony body by the magnet roller causes removes gradually, kicker magnet begins to attract to iron block, iron block is up along control lever, because the shaft shoulder that control lever is provided with, thereby iron block is up limited at control lever, it is up that thereby iron block drives control lever integral body, the spring pressurized, behind the kicker magnet Rotate 180 degree, control lever is positioned at topmost, and bent axle is positioned near point.Along with power input shaft rotation, the kicker magnet of the first magnet roller and the second magnet roller is gradually away from first iron block and second iron block, that is to say between magnet roller and the corresponding iron block that the shield effectiveness that the irony body by the magnet roller causes strengthens, kicker magnet is to the reduced gravity of iron block, at this moment, control lever is under the reaction force of spring, and is descending rapidly, promotes crankshaft rotating by connecting rod.Owing to adopt kicker magnet, make spring have bigger reaction force, so move in circles.The magnet roller takes two turns like this, and connecting rod is done merit one time, is similar to four-stroke engine.
The invention has the beneficial effects as follows: since because of the magnet magnetic line of force for radially, during rotation, it only is 1/5 ~ 1/10 of parallel pulling force (suction), thereby, the needed input power of the transverse cuts magnetic line of force is less between iron block and the magnet roller, and the spring recoil strength that produces because of gravitation between iron block and the magnet roller is bigger, as lever principle, thereby and reach the labour-saving purpose, energy savings, this energy are that magnetic pull produces, and be pollution-free, have only 1/10 ~ 1/5 of required drive, and energy savings 90% and 80%.These power set can be used for generating, vehicular traffic, engineering machinery or other place.
Description of drawings
Fig. 1 is an overall structure schematic diagram of the present invention;
Fig. 2 is the A-A profile of Fig. 1 of the present invention.
Description of reference numerals: 1 power input shaft, 2 control levers, 3 spring bases, 4 springs, 5 fixed heads, 6 first magnet rollers, 7 first iron blocks, 8 second magnet rollers, 9 second iron blocks, 10 link pins, 11 connecting rods, 12 bent axles, 13 gearboxes, 14 bevel gear wheels, 71 deep-slotted chip breakers, 61 kicker magnets, 62 irony bodies, 63 back shafts.
Embodiment
As shown in Figure 1.
A kind of magnetic dynamic device comprises power importation and power output, is provided with reinforcement magnetomotive source between described power importation and power output.
The magnetomotive source comprises: four identical and control levers 2 that be arranged in parallel; Back shaft parallel axes and the first magnet roller 6 between control lever and the second magnet roller 8; First iron block 7, second iron block 9 and the first magnet roller 6 and the second magnet roller 8 are provided with at interval.
The first magnet roller 6 has identical structure and identical setting angle with the second magnet roller 8.As Fig. 2, its cylinder is divided into two along axis, and half is the kicker magnet 61 of radial magnetic force line, and second half is an irony body 62; Back shaft 63 is positioned at the axle center.Be provided with the synchronous drive device that is connected the power importation at the first magnet roller 6 with the second magnet roller 8 back shaft the same side separately.Described synchronous drive device is, one power input shaft 1 by bearings, the axle head of this power input shaft 1 is provided with a bevel gear wheel 14, respectively is provided with a bevel pinion at the first magnet roller and second magnet roller back shaft the same side separately, and bevel gear wheel 14 is meshed with two bevel pinions.
Described control lever 2 is radially spacing by the fixed head 5 in tape guide hole, and the position of fixed head 5 also can be placed on the lower end of control lever 2.Insert in the spring base 3 of the inner fixed-site that is equipped with spring 4 one end of control lever 2, and second iron block 9 of control lever 2 the other end is provided with link pin 10, one connecting rods 11 and is connected between link pin and the bent axle 12 by bearing; Described bent axle connects the power output.The reciprocating motion of iron block becomes rotatablely moving of bent axle.For reducing control lever 2 upstroke resistances, the pore that is interlinked to the outside in can considering on spring base 3, to be provided with.
In aforementioned magnetic dynamic device, described power output comprises the gearbox 13 that connects crankshaft output end.Can be from the power that gearbox 13 comes out directly as the walking of drive power source wheel, drive electric power generation etc.
The operation principle of this magnetic dynamic device is, at the kicker magnet of the initial position first magnet roller and the second magnet roller away from first iron block and second iron block, that is to say between magnet roller and the corresponding iron block irony body portion shielding by the magnet roller, kicker magnet does not have sucking action substantially to iron block, and control lever makes bent axle be positioned at far point under the effect of spring; Along with power input shaft rotation, the kicker magnet of the first magnet roller and the second magnet roller moves closer to first iron block and second iron block, that is to say between magnet roller and the corresponding iron block that the shield effectiveness that the irony body by the magnet roller causes removes gradually, kicker magnet begins to attract to iron block, iron block is up along control lever, because the shaft shoulder that control lever is provided with, thereby iron block is up limited at control lever, it is up that thereby iron block drives control lever integral body, the spring pressurized, behind the kicker magnet Rotate 180 degree, control lever is positioned at topmost, and bent axle is positioned near point.Along with power input shaft rotation, the kicker magnet of the first magnet roller and the second magnet roller is gradually away from first iron block and second iron block, that is to say between magnet roller and the corresponding iron block that the shield effectiveness that the irony body by the magnet roller causes strengthens, kicker magnet is to the reduced gravity of iron block, at this moment, control lever is under the reaction force of spring, and is descending rapidly, promotes crankshaft rotating by connecting rod.Owing to adopt kicker magnet, make spring have bigger reaction force, so move in circles.The magnet roller takes two turns like this, and connecting rod is done merit one time, is similar to four-stroke engine.
Except that the described technical characterictic of specification, be the known technology of those skilled in the art.
Claims (4)
1, a kind of magnetic dynamic device comprises power importation and power output, it is characterized in that, is provided with reinforcement magnetomotive source between described power importation and power output;
Described magnetomotive source comprises, four identical and control levers that be arranged in parallel; Back shaft parallel axes and the first magnet roller between control lever and the second magnet roller; First iron block, second iron block and the first magnet roller and the second magnet roller are provided with at interval;
The described first magnet roller has identical structure and identical setting angle with the second magnet roller, and its cylinder is divided into two along axis, and half is the kicker magnet of radial magnetic force line, and second half is the irony body; Be provided with synchronous drive device at the first magnet roller and second magnet roller back shaft the same side separately, described synchronous drive device connects the power importation;
First iron block and four angles of second iron block are provided with the control lever hole of concentric accordingly, and described control lever is nested with on first iron block and second iron block slidably by the control lever hole; Be provided with the deep-slotted chip breaker of parallel axes in the magnet roller at first iron block and second iron block near on the side of described magnet, described deep-slotted chip breaker and magnet roller match; Be provided with the iron block sliding limitation structure between the first magnet roller and first iron block and on the control lever between the second magnet roller and second iron block;
Described control lever is spacing by the fixed head footpath in tape guide hole; Insert in the spring base of the inner fixed-site that is equipped with spring one end of control lever, and second iron block of control lever the other end is provided with link pin, and a connecting rod is connected between link pin and the bent axle by bearing; Described bent axle connects the power output.
2, magnetic dynamic device according to claim 1, it is characterized in that, described synchronous drive device is, one power input shaft by bearings, the axle head of this power input shaft is provided with a bevel gear wheel, respectively be provided with a bevel pinion at the first magnet roller and second magnet roller back shaft the same side separately, bevel gear wheel is meshed with two bevel pinions.
3, magnetic dynamic device according to claim 1 is characterized in that, described iron block sliding limitation structure is, at the shaft shoulder that is provided with on the control lever that reaches between the first magnet roller and first iron block between the second magnet roller and second iron block.
4, magnetic dynamic device according to claim 1 is characterized in that, described power output comprises the gearbox that connects crankshaft output end.
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CNA2008100137757A CN101267173A (en) | 2008-01-15 | 2008-01-15 | A magnetic dynamic device |
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CNA2008100137757A CN101267173A (en) | 2008-01-15 | 2008-01-15 | A magnetic dynamic device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109939479A (en) * | 2019-03-29 | 2019-06-28 | 太原理工大学 | A kind of strainer cleaning plant for the decentralization of filling mining slurry |
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2008
- 2008-01-15 CN CNA2008100137757A patent/CN101267173A/en active Pending
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109939479A (en) * | 2019-03-29 | 2019-06-28 | 太原理工大学 | A kind of strainer cleaning plant for the decentralization of filling mining slurry |
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Open date: 20080917 |