CN203398977U - Non-contact power generation equipment - Google Patents

Abstract

The utility model provides non-contact power generation equipment which at least comprises one magnetic rotor. The magnetic rotor is arranged near to a movable metal element, wherein the magnetic rotor is close to the movable metal element but does not make contact with the movable metal element; and thus, the magnetic rotor can rotate continuously due to magnetic force and relative displacement between the magnetic rotor and the metal element. The magnetic rotor rotates to cut magnetic lines of a preset coil to generate applicable inductive power, thereby widening the application range of such power generation equipment.

Description

Contactless generating equipment

Technical field

The utility model, about a kind of contactless generating equipment, sees through cordless and is installed in any external device (ED) with lasting rotational power, to produce required induction power, and can strengthen the range of application of this type of generating equipment.

Background technology

According to Fleming's left hand rule (Fleming ' s left hand rule), the thumb of left hand, forefinger are stretched with middle finger and mutually vertical, if represent that with forefinger magnetic field is by the direction of the N best S utmost point, middle finger represents sense of current, the direction of thumb indication is exactly the stressed direction of conductor, and Fleming's left hand rule is called again motor rule conventionally.

Appended Fig. 1 shows the main fabric element of the conventional electric machine equipment 10 that utilizes Fleming's left hand rule, the N utmost point and the S utmost point of two relative magnetic elements 11,12 are oppositely arranged, and be provided with betwixt one and driven control and the coil part 13 that rotates, make the coil part 13 cutting two N utmost points of relative magnetic element 11,12 and the magnetic line of force of the S utmost point in rotating produce an induced electromotive force.According to Fleming's left hand rule, forefinger represents that magnetic field M is by the direction of the N best S utmost point, and middle finger represents the direction of electric current I, and the direction of thumb indication is exactly the direction of the stressed F of conductor.Wherein, electric current I can flow along the direction of arrow a and b.

Existing this type of motor apparatus must make described coil part 13 rotate in the mode of " directly contact ", comprise and see through toe joint element, and the associated components such as refining bar or blade carry out interlock coil part 13, could obtain desired induced current.That is this type of conventional electric machine equipment 10 must carry out the mode interlock of " directly contacting " with power source, be subject to this condition restriction, and this type of motor apparatus is severely limited in practical application.

Utility model content

The purpose of this utility model is to provide a kind of contactless generating equipment, and it is simple in structure, easy to operate, can see through cordless and produce required induction power, and can strengthen the range of application of this type of generating equipment.

For reaching above object, the utility model discloses a kind of contactless generating equipment, it is characterized in that comprising:

At least one hardware, described hardware carries out continuation via at least one external device (ED) driving and moves or rotate a wherein opposed member that is used as relative displacement campaign;

At least one magnetic rotor, described magnetic rotor is to form wherein another opposed member of relative displacement campaign with described hardware, and described magnetic rotor closely to connect but the not mode of contact is located at the close position of described hardware and described magnetic rotor and described hardware and rotates because of relative displacement campaign generation continuation; And the coil that is provided with to produce cutting magnetic line in described magnetic rotor periphery.

Wherein, described external device (ED) is the vehicles.

Wherein, the dynamically relative hardware that described hardware is the vehicles.

Wherein, the metal wheel frame that described hardware is the vehicles.

Wherein, the relative supporting member of static state that described hardware is the vehicles.

Wherein, the static supporting member of the described vehicles is rail.

Wherein, the static supporting member of the described vehicles is guy wire.

Wherein, described magnetic rotor is by a plurality of flat thin magnets institute and close and form, and forms in described a plurality of flat thin magnets center the action axle center that a pivot joint is used.

Wherein, described coil increases voltage to organize the mode of serial connection more.

Wherein, described coil increases electric current with many groups and the mode that connects.

Wherein, described magnetic rotor and periphery coil thereof are connected to one with wire and drive the circuit board of controlling a power consumption equipment.

Wherein, described circuit board via connect a stable and drive circuit again input power drive the described power consumption equipment of control.

Wherein, described circuit board is located in a box body and via a default fixed mount assembling and is positioned described external device (ED).

Wherein, described external device (ED) is in order to drive the hydraulic set of described hardware.

Pass through said structure, the mutual movement that the utility model sees through portable hardware and magnetic rotor carrys out the circumgyration incision coil magnetic line of force, to produce the induction power that can be applicable to other equipment, whole generating equipment can be installed on various equipment easily with the way of contact not, make this Blast Furnace Top Gas Recovery Turbine Unit (TRT) can be applied to widely place miscellaneous, for applying for not having on front market and publication, there is value in industry highly.

Accompanying drawing explanation

Fig. 1: show and utilize the motor apparatus primary structure of Fleming's left hand rule and make flowing mode.

Fig. 2: show the utility model one possible embodiments structural representation.

Fig. 3: the section that shows Fig. 2 is analysed and observe and moved schematic diagram.

Fig. 4: show that the utility model is applied to the structural representation on the vehicles.

Fig. 5: the action flow chart that shows Fig. 4.

Embodiment

The utility model novelty and other features will be tending towards clear in coordinating the following drawings preferred embodiment to describe in detail.

As shown in Figures 2 and 3, in diagram preferred embodiment, the utility model is at least provided with one can produce the hardware 20 of relative displacement campaign, the external force that described hardware 20 can produce via external device (ED) drives and carries out the continuation of direction as shown by arrows and move or rotate, for example, as the metal wheel frame of the vehicles (comprising transportation equipment as operating in train, automobile, locomotive or bicycle and so on) in motion can produce the dynamic metal element 20 of relative displacement campaign as this.Meanwhile, in possible embodiments, this hardware 20 also can be supporting member as static in guy wire of the rail of train or cable car and so on, in order to produce magnetic effect and as the wherein opposed member of relative displacement campaign.

One as 30 of the magnetic rotors of another opposed member of relative displacement campaign closely to connect but not the mode of contact be located at the close position of described hardware 20, the articulated section that makes described magnetic rotor 30Neng Yiru center produces continuation rotation for action axle center; And in described magnetic rotor 30 peripheries, be provided with to produce the coil 40 of the magnetic line of force.Described coil 40 can be selected to place as the permeability magnetic material of iron plate, silicon steel sheet and iron core powder and so on, to increase the voltage of induction.

As shown in Figure 3, in diagram preferred embodiment, described magnetic rotor 30 is by 31 of a plurality of flat thin magnets and closes and form, and these flat thin magnets 31 are preferably permanent strong magnets, and in this embodiment, described a plurality of flat thin magnets 31 are made as fan-shaped section configuration.

Please join again Fig. 3, the magnetic rotor 30 of above-mentioned indication closely to connect but contact is located at hardware 20 close positions of described movable type, refer to that magnetic rotor 30 and portable hardware 20 will be close with minimum spacing c as far as possible each other, make can produce maximum magnetic flux suction between magnetic rotor 30 and hardware 20, and institute can, with maximum rotational speed, obtain the induction power of higher value.

In illustrated embodiment, described magnetic rotor 30 center activity pivot joint, make whole magnetic rotor 30 can take this central point as moving axle center rotation freely, but this is only with illustrating for convenience, is not in a limitative way.

The utility model is according in above-mentioned embodiments possible, at described hardware 20, constantly rotate in the process of (as the vehicles are continuing transport condition), magnetic rotor 30 is due to the continuation magnetic attraction that closely connects portable hardware 20 and produce, make the rotation of magnetic rotor 30 thereby stressed generation continuation, to default coil 40 cutting magnetic lines of its periphery, use generation induction power.Certainly, the utility model also can be installed in the vehicles (as train or cable car and so on transit equipment) in travelling by described magnetic rotor and periphery coil thereof, can produce electric power because of relative displacement campaign with static supporting member (as rail or guy wire).

The utility model is according to above-mentioned start method, in the size of magnetic rotor 30 voltages that cutting magnetic line produces and electric current, relevant with the following key element, comprising:

1. the polarity length of the magnetic attraction of magnetic rotor 30 powerful permanent magnet materials size, and the N of magnet, the S utmost point.

2. the length that coil 40 is wound around, can determine the size of electromotive force (voltage), and therefore, the modes that can see through many group coils 40 serial connections increase voltage.

3. the quantity of a sectioned coil 40 magnetic lines of force, can determine faradic size, therefore, can increase electric current in the mode of organizing coil 40 and connect more.

Fig. 4 and Fig. 5 show by the utility model be applied to the vehicles rotate in wheel 50 metal wheel frame 51(as described in the hardware 20 of movable type) state diagram, this metal wheel frame 51 is provided with in periphery the tire 52 that lands, and contiguous associated carriage 53.The setting that is close each other under contactless state with minimum spacing as far as possible of 40 of described magnetic rotor 30 and periphery coils thereof and portable hardware 20.In this Application Example, 40 energy of magnetic rotor 30 and periphery coil thereof are connected to a circuit board 55 with wire 54 by the induced current being produced, for driving control one power consumption equipment (as the light source 56 of LED and so on), in this embodiment, this light source 56 can be located at lens 57 rears, meanwhile, whole generating equipment described above and related accessory thereof can be located in a box body, and are positioned vehicle frame 53 via default fixed mount 58 assemblings.

According in above-mentioned practical application embodiment, as shown in Figure 5, when metal wheel frame 51 continues to rotate because of the continuous wheel rotating of the middle vehicles that travel, make magnetic rotor 30 start rotation the magnetic effect because of between metal and magnet, to coil 40 cutting magnetic lines, and produce induced current, this induced current input application apparatus (as described in light source 56) front, can first connect a stable and drive circuit, then input power drive as described in LED.

Illustrate for convenience, the above indication vehicles only for the utility model is wherein a kind of can be in order to produce to each other wherein a kind of feasible external device (ED) of magnetic effect and relative displacement campaign, other power that produce such as hydraulic set certainly also can be used as and order about the power resources that the utility model hardware 20 moves or rotates.

The utility model is because whole generating equipment can be installed on various equipment easily with the way of contact not, make this Blast Furnace Top Gas Recovery Turbine Unit (TRT) can be applied to widely place miscellaneous, for applying for not having on front market and publication, there is value in industry highly.

Above embodiment only, with illustrating for convenience the utility model, is not in a limitative way, and for haveing the knack of this skill personage, complies with various Simple transformeds and the modification that this embodiment can do, and all must include in following claim.

Claims (14)

1. a contactless generating equipment, is characterized in that comprising:

At least one hardware, described hardware carries out continuation via at least one external device (ED) driving and moves or rotate a wherein opposed member that is used as relative displacement campaign;

At least one magnetic rotor, described magnetic rotor is to form wherein another opposed member of relative displacement campaign with described hardware, and described magnetic rotor closely to connect but the not mode of contact is located at the close position of described hardware and described magnetic rotor and described hardware and rotates because of relative displacement campaign generation continuation; And the coil that is provided with to produce cutting magnetic line in described magnetic rotor periphery.

2. contactless generating equipment as claimed in claim 1, is characterized in that, described external device (ED) is the vehicles.

3. contactless generating equipment as claimed in claim 2, is characterized in that, the dynamically relative hardware that described hardware is the vehicles.

4. contactless generating equipment as claimed in claim 3, is characterized in that, the metal wheel frame that described hardware is the vehicles.

5. contactless generating equipment as claimed in claim 2, is characterized in that, the relative supporting member of static state that described hardware is the vehicles.

6. contactless generating equipment as claimed in claim 5, is characterized in that, the static supporting member of the described vehicles is rail.

7. contactless generating equipment as claimed in claim 5, is characterized in that, the static supporting member of the described vehicles is guy wire.

8. contactless generating equipment as claimed in claim 1, is characterized in that, described magnetic rotor is by a plurality of flat thin magnets institute and close and form, and forms in described a plurality of flat thin magnets center the action axle center that a pivot joint is used.

9. contactless generating equipment as claimed in claim 1, is characterized in that, described coil increases voltage to organize the mode of serial connection more.

10. contactless generating equipment as claimed in claim 1, is characterized in that, described coil increases electric current with many groups and the mode that connects.

11. contactless generating equipments as claimed in claim 1, is characterized in that, described magnetic rotor and periphery coil thereof are connected to one with wire and drive the circuit board of controlling a power consumption equipment.

12. contactless generating equipments as claimed in claim 11, is characterized in that, described circuit board via connect a stable and drive circuit again input power drive the described power consumption equipment of control.

13. contactless generating equipments as claimed in claim 11, is characterized in that, described circuit board is located in a box body and via a default fixed mount assembling and is positioned described external device (ED).

14. contactless generating equipments as claimed in claim 1, is characterized in that, described external device (ED) is in order to drive the hydraulic set of described hardware.

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