CN106505830B - Power cycles system and method - Google Patents

Abstract

The present invention provides a kind of power cycles system and methods, are related to power field.The system includes electric energy collection device, voltage regulator and battery group, the electric energy collection device includes electrical energy conversion device and Magnetomotive device, Magnetomotive device includes shaft, multiple poles N magnetic sheet and multiple poles S magnetic sheet, the shaft includes first end and the second end, multiple poles N magnetic sheet is looped around first end in step helix formula, and extend to the second end, multiple poles S magnetic sheet is looped around the second end in step helix formula, and extend to first end, the pole the N magnetic sheet and the pole S magnetic sheet form magnetic induction line, the electrical energy conversion device is for converting instrument energy and cutting magnetic induction line.The power cycles system and method that the invention provides can convert electric energy for mechanical energy and magnetic energy, provide electric energy to load and generate mechanical energy, while mechanical energy is supplied to power cycles system to realize power cycles, energy saving.

Description

Power cycles system and method

Technical field

The present invention relates to power fields, in particular to a kind of power cycles system and method.

Background technique

With the progress in epoch and the offer of people's living standard and the rapid development of industry, demand of the people to the energy Measure it is higher and higher, it is also increasingly severe for the consumption of the energy, century energy crisis, global shortage of electric power, more areas have a power failure It is more and more common, great inconvenience is caused to life, and various utensils are more extensive, for example, lathe, electric fan, electric vehicle And electric car etc., and various utensils are both needed to drive by electric power at work or be driven by other fuel, By fuel come driving implement, not only data consumption is rapid, but also can cause greatly to pollute to environment, causes seriously to ecology Threat.

Now, coal, how energy saving the traditional energy prices of petroleum etc. are continuous surging, reduce pollution with And reducing cost is present inevitable development trend and our urgent problems.

Summary of the invention

The purpose of the present invention is to provide a kind of power cycles system and methods, can convert mechanical energy and magnetic energy to Electric energy provides electric energy to loaded work piece and generates mechanical energy, while mechanical energy is supplied to power cycles system, realizes that electric energy follows Ring promotes the utilization rate of energy, reduces pollution, energy saving.

The embodiment of the present invention is achieved in that

In a first aspect, the embodiment of the invention provides a kind of power cycles systems comprising electric energy collection device, voltage tune Section device and battery group, the voltage regulator are electrically connected with the electric energy collection device and the battery group respectively, institute State battery group for connect load, to it is described load be powered；Wherein, the electric energy collection device includes electric energy conversion dress It sets and Magnetomotive device, the Magnetomotive device includes shaft, multiple poles N magnetic sheet and multiple poles S magnetic sheet, the shaft includes first End and the second end, the multiple pole N magnetic sheets are looped around the first end in step helix formula, and to the second end Extend, the multiple pole S magnetic sheets are looped around the second end in step helix formula, and extend to the first end, the N Pole magnetic sheet and the pole S magnetic sheet form magnetic induction line, and the electrical energy conversion device is for converting mechanical energy and the cutting magnetic strength Line.

In preferred embodiments of the present invention, above system includes going back magnet charger, the magnet charger and the battery group Electrical connection, the battery group are used for the electric current that magnetizes to magnet charger transmission, fill the magnet charger in the electric energy acquisition It sets region and forms magnetic field, magnetize to the multiple pole N magnetic sheets and the multiple pole S magnetic sheets.

In preferred embodiments of the present invention, above-mentioned battery group includes the first battery group and the second battery group, institute Voltage regulator is stated to be electrically connected with the first battery group and the second battery group respectively.

In preferred embodiments of the present invention, above system further includes controller, the controller respectively with the voltage Adjuster, the first battery group and the second battery group electrical connection, the controller are used to store when described first When battery pack is electrically connected with the voltage regulator, the connection of the second battery group disconnection and the voltage regulator is controlled To the load supplying, when the second battery group is electrically connected with the voltage regulator, first battery is controlled Group disconnects the connection with the voltage regulator to the load supplying.

In preferred embodiments of the present invention, above system further includes charging manager, the charging manager respectively with The electric energy collection device and voltage regulator electrical connection, for controlling the electric energy collection device to the battery group Charging.

In preferred embodiments of the present invention, above system further includes charging interface, the charging interface and the charging Manager electrical connection when not enough power supply for providing when the electric energy collection device, is promptly charged to the battery group.

In preferred embodiments of the present invention, above system further includes the first over-discharge electric controller and the second over-discharge electric control Device, the first over-discharge electric controller are electrically connected with the first battery group, the second over-discharge electric controller and described the The electrical connection of two battery groups.

In preferred embodiments of the present invention, above system further includes the first over-discharge electric alarms based on pattern recognition and the second over-discharge electric alarm Device, the first over-discharge electric alarms based on pattern recognition are electrically connected with the first over-discharge electric controller, the second over-discharge electric alarms based on pattern recognition and institute State the electrical connection of the second over-discharge electric controller.

In preferred embodiments of the present invention, above system display, the display is electrically connected with the charging manager It connects, for showing the charging situation of the battery group.

Second aspect, the embodiment of the present invention also provide a kind of power cycles method, are applied to power cycles system, the electricity Can the circulatory system include electric energy collection device, voltage regulator and battery group, the voltage regulator respectively with the electricity Energy acquisition device and battery group electrical connection, the electric energy collection device includes electrical energy conversion device and Magnetomotive device, institute Stating Magnetomotive device includes shaft, multiple poles N magnetic sheet and multiple poles S magnetic sheet, and the shaft includes first end and the second end, The multiple pole N magnetic sheets are looped around the first end in step helix formula, and extend to the second end, multiple S Pole magnetic sheet is looped around the second end in step helix formula, and extends to the first end, which comprises the N Pole magnetic sheet and the pole S magnetic sheet form magnetic induction line；The electrical energy conversion device cuts the magnetic induction line, generates induced current, passes The defeated induced current gives the voltage regulator；The voltage regulator receives the induced current, by the induced current The battery group is transferred to after being rectified；The battery group receives the induced current, stores the induced current；Institute It states battery group and discharges the induced current, for being load supplying, so that load generation mechanical energy, while by the machine Tool can be supplied to the power cycles system.

Power cycles system and method provided by the invention includes electric energy collection device, voltage regulator and battery Group.Wherein, voltage regulator is electrically connected with electric energy collection device and battery group respectively, and battery group is right for connecting load Load is powered, which includes electrical energy conversion device and Magnetomotive device, and Magnetomotive device includes shaft, multiple N Pole magnetic sheet and multiple poles S magnetic sheet, the shaft include first end and the second end, and multiple poles N magnetic sheet is in step helix formula ring It is wound on first end, and extends to the second end, multiple poles S magnetic sheet is looped around the second end in step helix formula, and to first End extends.The pole the N magnetic sheet and the pole S magnetic sheet form magnetic induction line, and the electrical energy conversion device is for converting mechanical energy and cutting magnetic Feel line and generate induced current, then the induced current is transferred to Charge Management to battery charging.The electric energy that the invention provides The circulatory system and method can convert electric energy for mechanical energy and magnetic energy, provide electric energy to loaded work piece and generate mechanical energy, simultaneously Mechanical energy is supplied to power cycles system, realizes power cycles, promotes the utilization rate of energy, reduces pollution, it is energy saving.

Other features and advantages of the present invention will be illustrated in subsequent specification, also, partly be become from specification It is clear that being understood by implementing the embodiment of the present invention.The objectives and other advantages of the invention can be by written Specifically noted structure is achieved and obtained in specification, claims and attached drawing.

Detailed description of the invention

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below will be to needed in the embodiment attached Figure is briefly described, it should be understood that the following drawings illustrates only certain embodiments of the present invention, therefore is not construed as pair The restriction of range for those of ordinary skill in the art without creative efforts, can also be according to this A little attached drawings obtain other relevant attached drawings.By the way that shown in attached drawing, above and other purpose of the invention, feature and advantage will more Clearly.Identical appended drawing reference indicates identical part in all the attached drawings.Do not drawn by actual size equal proportion scaling deliberately Attached drawing processed, it is preferred that emphasis is show the gist of the present invention.

Fig. 1 shows a kind of structural block diagram of power cycles system provided in an embodiment of the present invention；

Fig. 2 shows the structural schematic diagrams of Magnetomotive device provided in an embodiment of the present invention；

Fig. 3 shows the structural schematic diagram at the first visual angle of Magnetomotive device provided in an embodiment of the present invention；

Fig. 4 shows the structural block diagram of another power cycles system provided in an embodiment of the present invention；

Fig. 5 shows the flow diagram of power cycles method provided in an embodiment of the present invention.

Icon: 100- power cycles system；10- electric energy collection device；12- electrical energy conversion device；14- Magnetomotive device； 142- shaft；The pole 144-N magnetic sheet；The pole 146-S magnetic sheet；20- voltage regulator；30- battery group；32- the first battery group； 34- the second battery group；322- the first over-discharge electric controller；342- the second over-discharge electric controller；324- the first over-discharge electric alarm Device；344- the second over-discharge electric alarms based on pattern recognition；40- magnet charger；50- controller；60- charging manager；70- display；80- charging Mouthful.

Specific embodiment

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention In attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is A part of the embodiment of the present invention, instead of all the embodiments.The present invention being usually described and illustrated herein in the accompanying drawings is implemented The component of example can be arranged and be designed with a variety of different configurations.

Therefore, the detailed description of the embodiment of the present invention provided in the accompanying drawings is not intended to limit below claimed The scope of the present invention, but be merely representative of selected embodiment of the invention.Based on the embodiments of the present invention, this field is common Technical staff's every other embodiment obtained without creative efforts belongs to the model that the present invention protects It encloses.

It should also be noted that similar label and letter indicate similar terms in following attached drawing, therefore, once a certain Xiang Yi It is defined in a attached drawing, does not then need that it is further defined and explained in subsequent attached drawing.

In the description of the present invention, it should be noted that term " center ", "upper", "lower", "left", "right", "vertical", The orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, or be somebody's turn to do Invention product using when the orientation or positional relationship usually put, be merely for convenience of description of the present invention and simplification of the description, without It is that the device of indication or suggestion meaning or element must have a particular orientation, be constructed and operated in a specific orientation, therefore not It can be interpreted as limitation of the present invention.In addition, term " first ", " second ", " third " etc. are only used for distinguishing description, and cannot manage Solution is indication or suggestion relative importance.

In addition, the terms such as term "horizontal", "vertical", " pendency " are not offered as requiring component abswolute level or pendency, and It is that can be slightly tilted.It is not to indicate the structure if "horizontal" only refers to that its direction is more horizontal with respect to for "vertical" It has to fully horizontally, but can be slightly tilted.

In the description of the present invention, it is also necessary to which explanation is unless specifically defined or limited otherwise, term " setting ", " installation ", " connected ", " connection " shall be understood in a broad sense, for example, it may be fixedly connected, may be a detachable connection or one Connect to body；It can be mechanical connection, be also possible to be electrically connected；It can be directly connected, it can also be indirect by intermediary It is connected, can be the connection inside two elements.For the ordinary skill in the art, on being understood with concrete condition State the concrete meaning of term in the present invention.

First embodiment

Fig. 1 is please referred to, the present embodiment provides a kind of power cycles systems 100 comprising electric energy collection device 10, voltage tune Save device 20 and battery group 30, wherein the voltage regulator 20 respectively with the electric energy collection device 10 and the electric power storage Pond group 30 is electrically connected, and the battery group 30 is powered for connecting load, the load that is negative.

Referring to figure 2. and Fig. 3, as an implementation, the electric energy collection device 10 includes electrical energy conversion device 12 And Magnetomotive device 14, the electrical energy conversion device 12 are electrically connected with voltage regulator 20, for the electric energy of conversion to be transferred to electricity Press adjuster 20, wherein the Magnetomotive device 14 includes shaft 142, multiple poles N magnetic sheet 144 and multiple poles S magnetic sheet 146.At this In embodiment, the shaft 142 includes first end and the second end, wherein the multiple pole N magnetic sheets 144 are in step helix Formula is looped around the first end, and extends to the second end, and the multiple pole S magnetic sheets 146 are surround in step helix formula Extending in the second end, and to the first end, the pole N magnetic sheet 144 and the pole S magnetic sheet 146 form magnetic induction line, The electrical energy conversion device 12 is for cutting the magnetic induction line.

Wherein, as an implementation, the electric energy collection device 10 is installed in load, when loaded work piece, is produced Mechanical energy acquisition is converted electric energy by raw mechanical energy, the electrical energy conversion device 12, is transferred to battery group 30, then by the electricity It can be supplied to load, so that load continuous works and generates mechanical energy, realize the recycling of electric energy, it is possible to understand that, this is negative Load can be lathe, electric fan, electric vehicle etc..

Referring to figure 4., in an embodiment of the present embodiment, which further includes inverter, wherein the inverter Be electrically connected with battery group 30, the effect of the inverter be converting direct-current power into alternating-current power is provided to load it is different grades of Voltage.According to the actual needs and load power consumption, come determine to load provide voltage size, such as output 220V or The alternating current of the different voltages such as person 110V, in the present embodiment, preferably inverter converts the voltage to load offer as 220V's Alternating current.

Wherein, the pole the pole N magnetic sheet 144 and S magnetic sheet 146 is made of magnetic material, as a kind of mode, the pole N magnetic sheet 144 Magnetism can directly or indirectly can be generated by permanent-magnet material or iron, cobalt, nickel and its alloy etc. with the pole S magnetic sheet 146 Substance is made, and the pole N magnetic sheet 144 and the pole S magnetic sheet 146 are made generally in chip shape, so that the electric energy collection device 10 better effect.

The power cycles system 100 further includes magnet charger 40, which is a kind of for magnetic insufficient magnet filling Magnetic instrument, its essence is an electromagnet with super magnetic, electromagnet and additional iron block form closed circuit, In, the magnet charger 40 is electrically connected with the battery group 30, and as a kind of mode, the battery group 30 gives the magnet charger 40 transmit the electric current that magnetizes, and the magnet charger 40 is made to form magnetic field in 10 region of electric energy collection device, give the multiple pole N magnetic Piece 144 magnetizes with the multiple pole S magnetic sheets 146.

Wherein, the pole N magnetic sheet 144 and the pole S magnetic sheet 146 in use, it is possible that magnetic insufficient or demagnetization Situation, therefore, it is necessary to magnet chargers 40 to magnetize for the pole N magnetic sheet 144 with the pole S magnetic sheet 146, ensures power cycles system 100 continue working.As a kind of mode, the battery group 30 provides the electric current that magnetizes, and magnetic field is generated, by the pole N magnetic sheet 144 are put into the magnetic field with the pole S magnetic sheet 146, can complete moment to magnetize.

In an embodiment of the present embodiment, the battery group 30 includes the first battery group 32 and the second electric power storage Pond group 34, correspondingly, the voltage regulator 20 is electric with the first battery group 32 and the second battery group 34 respectively Connection, for providing induced current, first battery to the first battery group 32 and the second battery group 34 The induced current is released to load supplying by group 32 and the second battery group 34 storage induced current.Wherein, institute The effect for stating battery group 30 is to play power storage extra provided by the electric energy collection device 10 when having electric energy conversion Come, released again to when needs, the first battery group 32 and the second battery group 34 are embodied as load exchange power supply.

Wherein, which further includes controller 50, and the effect of the controller 50 is the first battery of control Group 32 and second battery group 34 switching charging, as a kind of mode, the controller 50 respectively with the voltage regulator 20, the first battery group 32 and the second battery group 34 electrical connection, for controlling to the first battery group 32 and the second battery group 34 charging, in the present embodiment, when the first battery group 32 and the voltage are adjusted When device 20 is electrically connected, the controller 50 controls the connection that the first battery group 32 is disconnected with loaded, and controls the second battery group 34 disconnect the connection powering load with voltage regulator 20, wherein when 34 powering load of the second battery group, electric energy When being discharged into minimum, the controller 50 controls the second battery group 34 and is electrically connected with voltage regulator 20, and disconnects and load Connection, control the first battery group 32 and disconnect connection powering load with voltage regulator 20, so recycle, improve The utilization rate of energy also guarantees that the first battery group 32 stores electric energy with the second battery group 34.

Wherein, the power cycles system further includes the first over-discharge electric controller 322 and the second over-discharge electric controller 342, wherein the first over-discharge electric controller 322 is electrically connected with the first battery group 32, the second over-discharge electric control Device 342 is electrically connected with the second battery group 34, and as a kind of mode, the first over-discharge electric controller 322 is to described One battery group 32 plays over, if electric energy collection device 10 will not after 32 deep discharge of the first battery group Because of the first battery group 32 needs charging, multiple electricity, shortens so as to cause 32 service life of the first battery group, likewise, institute It states the second over-discharge electric controller 342 and over is risen to the second battery group 34, if the second battery group 34 After deep discharge, electric energy collection device 10 will not need to charge due to multiple electricity because of the second battery group 34, so as to cause the 34 service life of two battery groups shortens.

As an implementation, the power cycles system 100 further includes the first over-discharge electric alarms based on pattern recognition 324 and the second mistake Discharge alarm 344, wherein the first over-discharge electric alarms based on pattern recognition 324 is electrically connected with the first over-discharge electric controller 322, institute It states the second over-discharge electric alarms based on pattern recognition 344 to be electrically connected with the second over-discharge electric controller 342, when 32 over-discharge of the first battery group When electric, the first over-discharge electric alarms based on pattern recognition 324 issues warning note, which can be flashing alarm lamp, be also possible to Alarm sound etc. is issued, when the second battery 34 overdischarge of group, the second over-discharge electric alarms based on pattern recognition 344 issues alarm and mentions Show, which can be flashing alarm lamp, be also possible to issue alarm sound etc..

In the present embodiment, the power cycles system 100 further includes charging manager 60, wherein the charging manager 60 are electrically connected with the electric energy collection device 10 and the voltage regulator 20 respectively, for controlling the electric energy collection device 10 It charges to the battery group 30.

As an implementation, the power cycles system 100 further includes display 70, wherein the display 70 with The charging manager 60 is electrically connected, for showing the charging situation of the battery group 30, wherein the display 70 is conducive to People observe and understand in real time the charge condition of the battery group 30, timely cope with so that the case where not enough power supply is made.

In the present embodiment, which further includes charging interface 80, wherein the charging interface 80 and institute The electrical connection of charging manager 60 is stated, when not enough power supply for providing when the electric energy collection device 10, to the battery group 30 chargings, wherein the charging interface 80 can be USB interface, or com interface etc..

The working principle of power cycles system 100 is: the power cycles system 100 includes electric energy collection device 10, voltage Adjuster 20 and battery group 30.Wherein, voltage regulator 20 is electrically connected with electric energy collection device 10 and battery group 30 respectively It connects, battery group 30 is powered load, which includes 12 He of electrical energy conversion device for connecting load Magnetomotive device 14, Magnetomotive device 14 include shaft 142, multiple poles N magnetic sheet 144 and multiple poles S magnetic sheet 146, the shaft 142 packet First end and the second end are included, multiple poles N magnetic sheet 144 is looped around first end in step helix formula, and prolongs to the second end It stretches, multiple poles S magnetic sheet 146 is looped around the second end in step helix formula, and extends to first end, the pole the N magnetic sheet 144 and S Pole magnetic sheet 146 forms magnetic induction line, which generates induced current for converting mechanical energy and cutting magnetic induction line, The induced current is transferred to Charge Management again to charge to battery group 30, so that loaded work piece generates mechanical energy, while by machine Tool can be supplied to power cycles system 100.The power cycles system and method that the invention provides can turn mechanical energy and magnetic energy Electric energy is turned to, electric energy is provided to loaded work piece and generates mechanical energy, while mechanical energy is supplied to power cycles system 100, realize Power cycles promote the utilization rate of energy, reduce pollution, energy saving.

Second embodiment

Referring to figure 5., Fig. 5 shows the flow diagram of power cycles method provided in an embodiment of the present invention, below will It is explained in detail for process shown in fig. 5, the method is applied to power cycles system 100, the power cycles system System 100 include electric energy collection device 10, voltage regulator 20 and battery group 30, the voltage regulator 20 respectively with it is described Electric energy collection device 10 and the battery group 30 electrical connection, the electric energy collection device 10 include electrical energy conversion device 12 and magnetic Dynamic device 14, the Magnetomotive device 14 include shaft 142, multiple poles N magnetic sheet 144 and multiple poles S magnetic sheet 146, the shaft 142 include first end and the second end, and the multiple pole N magnetic sheets 144 are looped around the first end in step helix formula, and Extend to the second end, the multiple pole S magnetic sheets 146 are looped around the second end in step helix formula, and to described First end extends, which comprises

Step S110: the pole N magnetic sheet 144 and the pole S magnetic sheet 146 form magnetic induction line.

Wherein, the multiple pole N magnetic sheets 144 are looped around the first end in step helix formula, and to the second end Portion extends, and the multiple pole S magnetic sheets 146 are looped around the second end in step helix formula, and extend to the first end, The pole N magnetic sheet 144 and the pole S magnetic sheet 146 form magnetic induction line.

Step S120: the electrical energy conversion device 12 cuts the magnetic induction line, generates induced current, transmits the induced electricity It flows to the voltage regulator 20.

As a kind of mode, electrical energy conversion device 12 cuts the magnetic induction line that the pole N magnetic sheet 144 and the pole S magnetic sheet 146 are formed, Induced current is formed in closed circuit, which is transferred to the voltage regulator 20 by the electric energy collection device 10.

Step S130: the voltage regulator 20 receives the induced current, passes after the induced current is rectified It is defeated by the battery group 30.

In an embodiment of the present embodiment, voltage regulator 20 receives the induced electricity that electric energy collection device 10 transmits Stream, electric energy collection device 10 are carried out to electrical equipment or are charged to battery group 30, require its voltage stabilization, so in order to So that voltage is remained at a certain numerical value, need that output voltage is adjusted, i.e., the described voltage regulator 20 is by the induction Electric current is transferred to the battery group 30 after being rectified.

Step S140: the battery group 30 receives the induced current, stores the induced current.

Wherein, battery group 30 receives the induced current after the voltage regulator 20 rectification, the battery group 30 The induced current received is stored, to powering load again when needs.

Step S150: the battery group 30 discharges the induced current, for being load supplying, so that the load produces Raw mechanical energy, while the mechanical energy is supplied to the power cycles system 100.

As an implementation, the battery group 30 is for connecting load, and the induced current of storage is transferred to Load, be load supplying, make loaded work piece generate mechanical energy, improve the utilization rate of energy, wherein the load can for lathe, Electric fan and electric vehicle etc..

Power cycles system 100 provided by the invention passes through the pole N magnetic sheet 144 and the formation of the pole S magnetic sheet 146 first Magnetic induction line, then the electrical energy conversion device 12 cuts the magnetic induction line, generates induced current, transmits the induced current to institute Voltage regulator 20 is stated, the voltage regulator 20 receives the induced current, transmits after the induced current is rectified To the battery group 30, the battery group 30 receives the induced current, stores the induced current, the last electric power storage Pond group 30 discharges the induced current, for being load supplying, so that load generates mechanical energy, while mechanical energy is supplied to electricity It can the circulatory system 100.To convert electric energy for mechanical energy and magnetic energy, electric energy is provided to loaded work piece and generates mechanical energy, simultaneously Mechanical energy is supplied to power cycles system 100, realizes power cycles, improves the utilization rate of energy, reduces pollution, saves energy Source.

In conclusion power cycles system and method provided by the invention includes electric energy collection device 10, voltage regulator 20 and battery group 30.Wherein, voltage regulator 20 is electrically connected with electric energy collection device 10 and battery group 30 respectively, electric power storage Pond group 30 is powered load, which includes electrical energy conversion device 12 and the dynamic dress of magnetic for connecting load 14 are set, Magnetomotive device 14 includes shaft 142, multiple poles N magnetic sheet 144 and multiple poles S magnetic sheet 146, which includes first End and the second end, multiple poles N magnetic sheet 144 is looped around first end in step helix formula, and extends to the second end, multiple The pole S magnetic sheet 146 is looped around the second end in step helix formula, and extends to first end, the pole the N magnetic sheet 144 and the pole S magnetic sheet 146 form magnetic induction line, which generates induced current for converting mechanical energy and cutting magnetic induction line, then should Induced current is transferred to Charge Management and charges to battery group 30, so that loaded work piece generates mechanical energy, while mechanical energy being mentioned The supply of electrical energy circulatory system 100.The power cycles system and method that the invention provides can convert electricity for mechanical energy and magnetic energy Can, electric energy is provided to loaded work piece and generates mechanical energy, while mechanical energy is supplied to power cycles system 100, realizes that electric energy follows Ring promotes the utilization rate of energy, reduces pollution, energy saving.

The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made any to repair Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (8)

1. a kind of power cycles system, which is characterized in that including electric energy collection device, voltage regulator, magnet charger, Charge Management Device and battery group, the voltage regulator is electrically connected with the electric energy collection device and the battery group respectively, described Battery group is powered the load for connecting load；

The charging manager is electrically connected with the electric energy collection device and the voltage regulator respectively, for controlling the electricity Energy acquisition device is to the battery charging；

The electric energy collection device includes electrical energy conversion device and Magnetomotive device, and the Magnetomotive device includes shaft, multiple poles N magnetic Piece and multiple poles S magnetic sheet, the shaft include first end and the second end, and the multiple pole N magnetic sheets are in step helix formula It is looped around the first end, and is extended to the second end, the multiple pole S magnetic sheets are looped around described in step helix formula The second end, and extend to the first end, the pole N magnetic sheet and the pole S magnetic sheet form magnetic induction line, the electric energy conversion Device is for converting mechanical energy and the cutting magnetic induction line；

The magnet charger is electrically connected with the battery group, and the battery group is used for the electric current that magnetizes to magnet charger transmission, The magnet charger is set to form magnetic field in the electric energy collection device region, to the multiple pole N magnetic sheets and the multiple pole S magnetic sheets It magnetizes.

2. power cycles system according to claim 1, which is characterized in that the battery group includes the first battery group With the second battery group, the voltage regulator is electrically connected with the first battery group and the second battery group respectively.

3. power cycles system according to claim 2, which is characterized in that the system also includes controller, the control Device processed is electrically connected with the voltage regulator, the first battery group and the second battery group respectively, the control Device is used for when the first battery group is electrically connected with the voltage regulator, controls the second battery group disconnection and institute The connection of voltage regulator is stated to the load supplying, when the second battery group is electrically connected with the voltage regulator, Connection of the first battery group disconnection with the voltage regulator is controlled to the load supplying.

4. power cycles system according to claim 1, which is characterized in that the system also includes charging interfaces, described Charging interface is electrically connected with the charging manager, when not enough power supply for providing when the electric energy collection device, to described Battery group promptly charges.

5. power cycles system according to claim 2, which is characterized in that the system also includes the first over-discharge electric control Device and the second over-discharge electric controller, the first over-discharge electric controller are electrically connected with the first battery group, second mistake Discharge controller is electrically connected with the second battery group.

6. power cycles system according to claim 5, which is characterized in that the system also includes the first over-discharge electric alarms Device and the second over-discharge electric alarms based on pattern recognition, the first over-discharge electric alarms based on pattern recognition are electrically connected with the first over-discharge electric controller, and described Two over-discharge electric alarms based on pattern recognition are electrically connected with the second over-discharge electric controller.

7. power cycles system according to claim 1, which is characterized in that described aobvious the system also includes display Show that device is electrically connected with the charging manager, for showing the charging situation of the battery group.

8. a kind of power cycles method, which is characterized in that be applied to power cycles system, the power cycles system includes electric energy Acquisition device, voltage regulator and battery group, the voltage regulator respectively with the electric energy collection device and the storage Battery pack electrical connection, the electric energy collection device includes electrical energy conversion device and Magnetomotive device, the Magnetomotive device include shaft, Multiple poles N magnetic sheet and multiple poles S magnetic sheet, the shaft include first end and the second end, and the multiple pole N magnetic sheets are in rank Ladder shell is rotating to be looped around the first end, and extends to the second end, and the multiple pole S magnetic sheets are in step helix formula ring It is wound on the second end, and is extended to the first end, which comprises

The pole N magnetic sheet and the pole S magnetic sheet form magnetic induction line；

The electrical energy conversion device cuts the magnetic induction line, generates induced current, transmits the induced current to the voltage tune Save device；

The voltage regulator receives the induced current, and the battery is transferred to after the induced current is rectified Group；

The battery group receives the induced current, stores the induced current；

The battery group discharges the induced current, for being load supplying, so that the load generates mechanical energy, simultaneously will The mechanical energy is supplied to the power cycles system.