CN200973054Y - Power generating device - Google Patents
Power generating device Download PDFInfo
- Publication number
- CN200973054Y CN200973054Y CN 200620138860 CN200620138860U CN200973054Y CN 200973054 Y CN200973054 Y CN 200973054Y CN 200620138860 CN200620138860 CN 200620138860 CN 200620138860 U CN200620138860 U CN 200620138860U CN 200973054 Y CN200973054 Y CN 200973054Y
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- Prior art keywords
- driving element
- magnetic poles
- external magnetic
- housing
- power generation
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Abstract
The utility model provides a driving device, which comprises a casing extending along the long direction, two external magnetic poles respectively arranged on the two ends of the casing, two power supply ports arranged in the internal peripheral surface of the casing along the long direction and a driving element arranged in the casing and can move along the long direction. The driving element comprises two internal magnetic poles respectively facing the external magnetic poles and the electric conduction ports that can follow the movement of the driving element and connected in succession to the power supply port. The electric conduction port enables the adjacent internal magnetic pole and the external magnetic pole to produce the expelling thrust due to the same polarity. One end of the casing produces the expelling thrust that can push the driving element to move towards the other end of the casing. Through continuous change of the polarity of the internal magnetic pole, the driving element can continuously produce the dynamic power between the two ends of the casing. The utility model simplifies the motor and reduces the cost to use a plurality of windings as well as the volume and weight.
Description
Technical field
The utility model relates to a kind of power generation arrangement, particularly relates to a kind of electric energy that uses to produce the power generation arrangement of kinetic energy.
Background technology
Main power source has two kinds at present, a kind of engine that is to use fossil fuel, the motor that another kind is to use electric energy to drive, wherein engine is to adopt the mode of fuel blast to promote cylinder, and the reciprocating type mobile generation power that passes through cylinder is exported, motor then is by the changes of magnetic field generation rotation of rotor with respect to stator, and produces power output by the rotation of rotor.
General motor has been applied on general electronic vapour, the locomotive, and along with petering out of fossil fuel transferred to rise with price the trend that gradually grows up is arranged, yet along with electronic vapour, locomotive increase the requirement of horsepower and torsion, general motor often has the shortcoming that volume is more and more huger and weight increases the weight of, simultaneously also allow cost significantly increase, cause exploitation on the motor vehicle the obstruction that must overcome, so could be with motor vehicle universalness more preferably.
The utility model content
The purpose of this utility model is to be to provide a kind of electric energy that can use to produce kinetic energy, and can the general motor lighter also power generation arrangement of miniaturization more.
This power generation arrangement described in the utility model comprises a housing, two external magnetic poles, two power supply ports, and a driving element.
This housing is to extend along a length direction.
Described external magnetic poles is the two ends that are arranged at this housing respectively.
Described power supply port is the inner peripheral surface that is arranged at this housing along this length direction, and respectively adjacent to different described external magnetic poles, the current opposite in direction that described power supply port is provided.
This driving element is to be arranged in this housing also can move along this length direction, this driving element comprises two respectively towards the interior permanent magnet of described external magnetic poles, reach an energy is connected in described power supply port in regular turn along with moving of this driving element conduction port, the sense of current on this conduction port changes the reversing that can impel described interior permanent magnet.
Wherein, can make the identical repulsion thrust that produces of polarity of two adjacent interior permanent magnets and external magnetic poles by this conduction port magnetic field of being produced of stream that powers on, the repulsion thrust that this housing one end is produced can make this driving element shift to the other end of this housing, and can connect described power supply port in regular turn when mobile, therefore the polarity by described interior permanent magnet constantly changes, and this driving element can continue to produce the kinetic energy of shift reciprocately between these housing two ends.
Power generation arrangement described in the utility model, described external magnetic poles are two permanent magnets of identical polarity being faced mutually setting.
Power generation arrangement described in the utility model, described power supply port respectively comprises one first electrode and one second electrode, first electrode of one of them of described power supply port is high potential with respect to its second electrode, and first electrode of another of described power supply port is electronegative potential with respect to its second electrode.
Power generation arrangement described in the utility model, this driving element also comprises an iron core that extends along this length direction, and one section coiling that is wound on this iron core, described interior permanent magnet is to be formed at this iron core two ends, this conduction port is to be electrically connected on this coiling two ends.
Power generation arrangement described in the utility model also comprises a drive rod, and this drive rod is to be connected in this driving element and concurrently-acting and kinetic energy is passed to outside this housing.
The utility model provides a kind of power generation arrangement in addition, and this power generation arrangement comprises a housing, two external magnetic poles, and a driving element; This housing is to extend along a length direction; Described external magnetic poles is the two ends that are arranged at this housing respectively; And this driving element is to be arranged in this housing also can move along this length direction, this driving element comprises two respectively towards the interior permanent magnet of described external magnetic poles, and the polarity of two adjacent interior permanent magnets and external magnetic poles is identical and have repulsion thrust, the repulsion thrust that this housing one end is produced can make this driving element shift to the other end of this housing, and pushing back this housing one end once more by repelling thrust, this driving element can continue to produce the kinetic energy of shift reciprocately between these housing two ends whereby.
Power generation arrangement described in the utility model, described external magnetic poles are two electromagnet.
Power generation arrangement described in the utility model, the interior permanent magnet of this driving element is a permanent magnet.
Power generation arrangement described in the utility model, also comprise a magnetic force induction element, this magnetic force induction element is to be arranged at this enclosure interior, and between described external magnetic poles, the magnetic force change that described external magnetic poles can cooperate this magnetic force induction element to be responded to changes its polarity and adjusts the magnetic force size, when this driving element when this length direction moves, described interior permanent magnet can make this magnetic force induction element senses magnetic force change.
Effect of the present utility model is: general motor needs a plurality of windings to form a plurality of electromagnetic fields, and the utility model cooperates to produce the mode of reciprocating type kinetic energy by one group of inside and outside magnetic pole, can simplify cost, volume and the weight of using a plurality of windings, whereby so that the utility model more helps the exploitation of motor vehicle.
Description of drawings
Fig. 1 is a three-dimensional exploded view, and first preferred embodiment of the utility model power generation arrangement is described;
Fig. 2 is a schematic diagram, illustrates in above-mentioned this first preferred embodiment, and each forms the configuration scenario and use situation of member;
Fig. 3 is a schematic diagram, and the power output situation of above-mentioned this first preferred embodiment is described;
Fig. 4 is a three-dimensional exploded view, and second preferred embodiment of the utility model power generation arrangement is described; And
Fig. 5 is a schematic diagram, and the 3rd preferred embodiment of the utility model power generation arrangement is described.
Embodiment
Below in conjunction with drawings and Examples the utility model is elaborated.
Before the utility model is described in detail, be noted that in the following description content that similar elements is to represent with identical numbering.
As shown in Figure 1, 2, first preferred embodiment of the utility model power generation arrangement comprises a housing 10, two external magnetic poles 20, two power supply ports 30, a driving element 40, and a drive rod 50.
This housing 10 is to extend along a length direction Z.
Described external magnetic poles 20 is the two ends that are arranged at this housing 10 respectively, external magnetic poles 20 described in this first preferred embodiment be two will identical polarity mutually in the face of the permanent magnet of setting, in fact also can adopt electromagnet.
Described power supply port 30 is the inner peripheral surfaces that are arranged at this housing 10 along this length direction Z, and respectively near described external magnetic poles 20, described power supply port 30 respectively comprises one first electrode 31 and one second electrode 32, first electrode 31 of one of them of described power supply port 30 is high potential with respect to its second electrode 32, first electrode 31 of another power supply port is electronegative potential with respect to its second electrode 32, in this first preferred embodiment, first of described power supply port 30, two electrodes 31, the 32nd, connect two voltage sources 301 respectively, therefore two current opposite in direction that power supply port 30 is provided.
This driving element 40 is to be arranged in this housing 10 also can move along this length direction Z, this driving element 40 comprises an iron core 41 that extends along this length direction Z, one section coiling 42 that is wound on this iron core 41, two are formed at these iron core 41 two ends respectively and towards the interior permanent magnet 43 of described external magnetic poles 20, reach an energy is connected in described power supply port 30 in regular turn along with moving of this driving element 40 conduction port 44, this conduction port 44 is to be electrically connected on this 42 two ends that wind the line, the sense of current on this conduction port 44 changes the reversing that can impel described interior permanent magnet 43, and this iron core 41 is to form an electromagnet with this coiling 42.
When the conduction port 44 of this driving element 40 and a power supply port 30 are done when being connected, by this first, two electrodes 31,32 can make that with the electric current of this coiling 42 two adjacent interior permanent magnets 43 are identical with the polarity of external magnetic poles 20, and then thrust is repelled in generation, the repulsion thrust that this moment, these housing 10 1 ends were produced can make this driving element 40 shift to the other end of this housing 10, and can connect described power supply port 30 in regular turn when mobile, because two current opposite in direction that power supply port 30 is provided, the polarity of described interior permanent magnet 43 also constantly changes and repels with adjacent external magnetic poles 20, so this driving element 40 can continue to produce the kinetic energy of shift reciprocately between the two ends of this housing 10.
Cooperate shown in Figure 3, what deserves to be mentioned is, can use this drive rod 50 to be connected in this driving element 40, and making this housing 10 comprise a long perforation 11 of extending and can supply this drive rod 50 to stretch out along this length direction Z, this drive rod 50 can move with this driving element 40 and kinetic energy is passed to outside this housing 10 simultaneously.
Whereby, the user just can obtain power source by the utility model power generation arrangement, and provide the power demand of device such as vehicle, facility with this power source, because general motor needs a plurality of windings to turn round to form a plurality of electromagnetic fields, and the utility model only need cooperate by one group of inside and outside magnetic pole 43,20, just can produce shuttle kinetic energy output, therefore can simplify cost, volume and the weight that motor uses a plurality of windings, so that the utility model more helps the exploitation of motor vehicle, significantly promote the competitiveness in market whereby.
As shown in Figure 4, below will illustrate further second preferred embodiment of the present utility model, this second preferred embodiment and above-mentioned this first preferred embodiment are roughly the same, and its difference is in and can connects two drive rods 50 respectively in this driving element 40 and kinetic energy is passed to outside this housing 10.
As shown in Figure 5, below will illustrate further the 3rd preferred embodiment of the present utility model, the 3rd preferred embodiment and above-mentioned this first preferred embodiment are roughly the same, it is two electromagnet that its difference is in described external magnetic poles 20, the interior permanent magnet 43 of this driving element 40 is permanent magnets, the utility model power generation arrangement also comprises a magnetic force induction element 60, this magnetic force induction element 60 is to be arranged at this housing 10 inside, and between described external magnetic poles 20, this magnetic force induction element 60 can adopt Hall sensor (Hall sensor) or induction coil when reality is made, the magnetic force change that described external magnetic poles 20 can cooperate this magnetic force induction element 60 to be responded to changes its polarity and adjusts the magnetic force size, when this driving element 40 when this length direction Z moves, described interior permanent magnet 43 near with away from making this magnetic force induction element 60 induce magnetic force change, thereby impel the polarity of described external magnetic poles 20 and magnetism intensity to change, make this driving element 40 to move back and forth constantly, and satisfy instructions for use of the present utility model and purpose.
Specifically as shown in Figure 5, driving element is in uphill process, the magnetic pole of below can repel mutually with driving element and make driving element rise to peak, and the magnetic pole of top can form the polarity of repelling mutually with driving element rapidly simultaneously, whereby so that driving element falls.When driving element will fall, the polarity of below will be transformed into rapidly with driving element from repelling each other inhales mutually, and when driving element was fallen minimum point, the magnetic pole of below just can repel each other from inhaling to be transformed into rapidly mutually again, and the magnetic pole of top is transformed into suction mutually simultaneously rapidly, carries out so repeatedly.Fig. 5 just is meant that driving element is pushed to peak by the below magnetic pole, and driving element is prepared to fall, and the top magnetic pole is transformed into the state that repels each other rapidly.
Claims (9)
1. a power generation arrangement is characterized in that,
This power generation arrangement comprises a housing, two external magnetic poles, two power supply ports, and a driving element;
This housing is to extend along a length direction;
Described external magnetic poles is the two ends that are arranged at this housing respectively;
Described power supply port is the inner peripheral surface that is arranged at this housing along this length direction, and respectively adjacent to different described external magnetic poles, the current opposite in direction that described power supply port is provided; And
This driving element is to be arranged in this housing also can move along this length direction, this driving element comprises two respectively towards the interior permanent magnet of described external magnetic poles, reaches an energy is connected in described power supply port in regular turn along with moving of this driving element conduction port.
2. power generation arrangement according to claim 1 is characterized in that, described external magnetic poles is two permanent magnets of identical polarity being faced mutually setting.
3. power generation arrangement according to claim 1, it is characterized in that, described power supply port respectively comprises one first electrode and one second electrode, first electrode of one of them of described power supply port is high potential with respect to its second electrode, and first electrode of another of described power supply port is electronegative potential with respect to its second electrode.
4. power generation arrangement according to claim 1, it is characterized in that this driving element also comprises an iron core that extends along this length direction, and one section coiling that is wound on this iron core, described interior permanent magnet is to be formed at this iron core two ends, and this conduction port is to be electrically connected on this coiling two ends.
5. power generation arrangement according to claim 1 is characterized in that, also comprises a drive rod, and this drive rod is to be connected in this driving element and concurrently-acting and kinetic energy is passed to outside this housing.
6. a power generation arrangement is characterized in that,
This power generation arrangement comprises a housing, two external magnetic poles, and a driving element;
This housing is to extend along a length direction;
Described external magnetic poles is the two ends that are arranged at this housing respectively; And
This driving element is to be arranged in this housing and can to move along this length direction, and this driving element comprises two respectively towards the interior permanent magnet of described external magnetic poles, and two adjacent interior permanent magnets are identical with the polarity of external magnetic poles.
7. power generation arrangement according to claim 6 is characterized in that, described external magnetic poles is two electromagnet.
8. power generation arrangement according to claim 6 is characterized in that the interior permanent magnet of this driving element is a permanent magnet.
9. power generation arrangement according to claim 6 is characterized in that, also comprises a magnetic force induction element, and this magnetic force induction element is to be arranged at this enclosure interior, and between described external magnetic poles.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 200620138860 CN200973054Y (en) | 2006-09-28 | 2006-09-28 | Power generating device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 200620138860 CN200973054Y (en) | 2006-09-28 | 2006-09-28 | Power generating device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN200973054Y true CN200973054Y (en) | 2007-11-07 |
Family
ID=38884305
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN 200620138860 Expired - Fee Related CN200973054Y (en) | 2006-09-28 | 2006-09-28 | Power generating device |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN200973054Y (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN108809044A (en) * | 2018-07-19 | 2018-11-13 | 胡俊 | A kind of linear motor |
-
2006
- 2006-09-28 CN CN 200620138860 patent/CN200973054Y/en not_active Expired - Fee Related
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN108809044A (en) * | 2018-07-19 | 2018-11-13 | 胡俊 | A kind of linear motor |
| CN108809044B (en) * | 2018-07-19 | 2021-01-12 | 深圳市凯士特科技有限公司 | Linear motor |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| C17 | Cessation of patent right | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20071107 Termination date: 20110928 |