CN202076834U - Power generator device - Google Patents

Abstract

The utility model relates to a power generator device which enables a magnet to reciprocatingly pass through a coil to generate electrical energy under the actions of gravity and reaction force and stores the electrical energy in a storage battery. The power generator device comprises a power generation module, a circuit board and a storage battery, wherein the power generation module comprises a hollow cylinder, an induction coil, at least one magnet, a shaft rod, an outer elastic member and an inner elastic member; the induction coil is wound around the hollow cylinder; the magnet is accommodated inside the hollow cylinder; the shaft rod passes through the hollow cylinder and passes through the magnet; one top part of the shaft rod is arranged above the hollow cylinder; the outer elastic member is arranged between the hollow cylinder and the top part of the shaft rod; the inner elastic member is arranged between the magnet and the hollow cylinder; and the circuit board is electrically connected with the induction coil and the storage battery.

Description

Rotor machine

Technical field

The utility model relates to a kind of rotor machine, particularly relevant for a kind of gravity of magnet and elastic force of elastic component of utilizing, makes that magnet can be toward covering by coil, to produce electric energy and to be stored in the rotor machine of storage battery.

Background technology

Existing known rotor machine utilizes the mode of hand rotation, please join and look into the novel patent of TaiWan, China M318070 number " manual type Blast Furnace Top Gas Recovery Turbine Unit (TRT) ", it rotates with rocking handle driven gear transmission mechanism, the generating motor that is driven by gear drive is to produce electric energy again, above-mentioned manual type Blast Furnace Top Gas Recovery Turbine Unit (TRT) must be by the user with hand moving, it uses goes up and inconvenience, therefore the user uses wish not high, and should " manual type Blast Furnace Top Gas Recovery Turbine Unit (TRT) " can't apply in the daily life, gear drive designs comparatively not easy-maintaining of complexity in addition.

This shows that above-mentioned existing rotor machine obviously still has inconvenience and defective, and demands urgently further being improved in structure and use.Therefore how to found a kind of rotor machine with high-effect generating and new structure easy to use, real one of the current important research and development problem that belongs to, also becoming the current industry utmost point needs improved target.

Summary of the invention

The purpose of this utility model is, overcome the defective that existing rotor machine exists, and provide a kind of rotor machine of new structure, technical problem to be solved is to make it overcome prior art because of mechanism design complexity easy-maintaining not, and need make the user use the not high problem of wish, and the utility model can use uncared-for kinetic energy in the daily life with hand moving, produce electric energy and be stored in storage battery, thereby be suitable for practicality more.

The purpose of this utility model and to solve its technical problem be to adopt following technical scheme to realize.According to a kind of rotor machine that the utility model proposes, it comprises: an electricity generation module, it has a hollow cylinder, one induction coil, at least one magnet, one axostylus axostyle, elastic component in the one outer elastic component and, this hollow cylinder includes a sidewall, one top board, one base plate and one first accommodation space, this induction coil is set around this sidewall of this hollow cylinder, this magnet is placed in this first accommodation space of this hollow cylinder, this axostylus axostyle comprises this top that a body of rod and connects this body of rod, this body of rod is arranged in this hollow cylinder versatilely and runs through this magnet, the top of this hollow cylinder is located at this top, should outer elastic component be arranged between this top of this top board of this hollow cylinder and this axostylus axostyle, this interior elastic component is arranged between this base plate of this magnet and this hollow cylinder; One circuit board, this induction coil of itself and this electricity generation module electrically connects; One storage battery, it electrically connects this circuit board; And a housing, it has one second accommodation space, and this electricity generation module, this circuit board and this storage battery are placed in this second accommodation space.

The purpose of this utility model and solve its technical problem and can also be further achieved by the following technical measures.

Aforesaid rotor machine, this top board of wherein said this hollow cylinder are provided with one first perforation, and this base plate of this hollow cylinder is provided with one second perforation, and this body of rod is arranged in this first perforation and this second perforation versatilely.

Aforesaid rotor machine, wherein said this electricity generation module has a shaft-cup in addition, this shaft-cup is incorporated into this base plate of this hollow cylinder, and this shaft-cup has one the 3rd accommodation space, and the 3rd accommodation space is communicated with this second perforation and this first accommodation space of this base plate.

Aforesaid rotor machine, wherein said this electricity generation module has one first supporter in addition, and this first supporter is arranged at this first perforation, to support this body of rod of this axostylus axostyle.

Aforesaid rotor machine, wherein said this electricity generation module has one second supporter in addition, and this second supporter is arranged at this second perforation, to support this body of rod of this axostylus axostyle.

Aforesaid rotor machine, wherein said this magnet is integral in conjunction with this axostylus axostyle.

The purpose of this utility model and solve its technical problem and also realize by the following technical solutions.According to a kind of rotor machine that the utility model proposes, it comprises: an electricity generation module, it has a hollow cylinder, one induction coil, at least one magnet, one axostylus axostyle and an outer elastic component, this hollow cylinder includes a sidewall, one top board, one base plate and one first accommodation space, this induction coil is set around this sidewall of this hollow cylinder, this magnet is placed in this first accommodation space of this hollow cylinder, this axostylus axostyle comprises this top that a body of rod and connects this body of rod, this body of rod is arranged in this hollow cylinder versatilely and runs through this magnet, the top of this hollow cylinder is located at this top, and this outer elastic component is arranged between this top of this top board of this hollow cylinder and this axostylus axostyle; One circuit board, this induction coil of itself and this electricity generation module electrically connects; One storage battery, it electrically connects this circuit board; And a housing, it has one second accommodation space, and this electricity generation module, this circuit board and this storage battery are placed in this second accommodation space.

The purpose of this utility model and solve its technical problem and can also be further achieved by the following technical measures.

Aforesaid rotor machine, this top board of wherein said this hollow cylinder are provided with one first perforation, and this base plate of this hollow cylinder is provided with one second perforation, and this body of rod is arranged in this first perforation and this second perforation versatilely.

Aforesaid rotor machine, wherein said this electricity generation module has a shaft-cup in addition, this shaft-cup is incorporated into this base plate of this hollow cylinder, and this shaft-cup has one the 3rd accommodation space, and the 3rd accommodation space is communicated with this second perforation and this first accommodation space of this base plate.

Aforesaid rotor machine, wherein said this electricity generation module has one first supporter in addition, and this first supporter is arranged at this first perforation, to support this body of rod of this axostylus axostyle.

Aforesaid rotor machine, wherein said this electricity generation module has one second supporter in addition, and this second supporter is arranged at this second perforation, to support this body of rod of this axostylus axostyle.

Aforesaid rotor machine, wherein said this magnet is integral in conjunction with this axostylus axostyle.

The purpose of this utility model and solve its technical problem and also adopt in addition following technical scheme to realize.According to a kind of rotor machine that the utility model proposes, it comprises: an electricity generation module, it has a hollow cylinder, one induction coil, at least one magnet, elastic component in one axostylus axostyle and, this hollow cylinder includes a sidewall, one top board, one base plate and one first accommodation space, this induction coil is set around this sidewall of this hollow cylinder, this magnet is placed in this first accommodation space of this hollow cylinder, this axostylus axostyle comprises a body of rod, this body of rod is arranged in this hollow cylinder and runs through this magnet, and elastic component is arranged between this base plate of this magnet and this hollow cylinder in this; One circuit board, this induction coil of itself and this electricity generation module electrically connects; One storage battery, it electrically connects this circuit board; And a housing, it has one second accommodation space, and this electricity generation module, this circuit board and this storage battery are placed in this second accommodation space.

The purpose of this utility model and solve its technical problem and can also be further achieved by the following technical measures.

Aforesaid rotor machine, this top board of wherein said this hollow cylinder is provided with one first perforation, this base plate of this hollow cylinder is provided with one second perforation, this body of rod has a first end and a second end, this first end is fixed in this first perforation, and this second end is fixed in this second perforation.

Aforesaid rotor machine, wherein said this electricity generation module has one first supporter in addition, and this first supporter is arranged at this first perforation, to support this body of rod of this axostylus axostyle.

Aforesaid rotor machine, wherein said this electricity generation module has one second supporter in addition, and this second supporter is arranged at this second perforation, to support this body of rod of this axostylus axostyle.

Aforesaid rotor machine, an internal diameter of wherein said this magnet is greater than an external diameter of this body of rod.

The purpose of this utility model and solve its technical problem and adopt in addition following technical scheme to realize again.According to a kind of rotor machine that the utility model proposes, it comprises: an electricity generation module, it has a hollow cylinder, one induction coil, at least one magnet, one axostylus axostyle, elastic component in the one outer elastic component and, this hollow cylinder includes a sidewall, one top board, one base plate and one first accommodation space, this induction coil is set around this sidewall of this hollow cylinder, this magnet is placed in this first accommodation space of this hollow cylinder, this axostylus axostyle comprises this top that a body of rod and connects this body of rod, this body of rod is arranged in this hollow cylinder versatilely and runs through this magnet, the top of this hollow cylinder is located at this top, should outer elastic component be arranged between this top of this top board of this hollow cylinder and this axostylus axostyle, this interior elastic component is arranged between this base plate of this magnet and this hollow cylinder; And a housing, it has one second accommodation space, and this electricity generation module is placed in this second accommodation space.

The purpose of this utility model and solve its technical problem and adopt in addition following technical scheme to realize again.According to a kind of rotor machine that the utility model proposes, it comprises: an electricity generation module, it has a hollow cylinder, one induction coil, at least one magnet, one axostylus axostyle and an outer elastic component, this hollow cylinder includes a sidewall, one top board, one base plate and one first accommodation space, this induction coil is set around this sidewall of this hollow cylinder, this magnet is placed in this first accommodation space of this hollow cylinder, this axostylus axostyle comprises this top that a body of rod and connects this body of rod, this body of rod is arranged in this hollow cylinder versatilely and runs through this magnet, the top of this hollow cylinder is located at this top, and this outer elastic component is arranged between this top of this top board of this hollow cylinder and this axostylus axostyle; And a housing, it has one second accommodation space, and this electricity generation module is placed in this second accommodation space.

The purpose of this utility model and solve its technical problem and adopt in addition following technical scheme to realize again.According to a kind of rotor machine that the utility model proposes, it comprises: an electricity generation module, it has a hollow cylinder, one induction coil, at least one magnet, elastic component in one axostylus axostyle and, this hollow cylinder includes a sidewall, one top board, one base plate and one first accommodation space, this induction coil is set around this sidewall of this hollow cylinder, this magnet is placed in this first accommodation space of this hollow cylinder, this axostylus axostyle comprises a body of rod, this body of rod is arranged in this hollow cylinder and runs through this magnet, and elastic component is arranged between this base plate of this magnet and this hollow cylinder in this; And a housing, it has one second accommodation space, and this electricity generation module is placed in this second accommodation space.

The utility model compared with prior art has tangible advantage and beneficial effect.By technique scheme, the utility model comprises: an electricity generation module, one circuit board and a storage battery, this electricity generation module has a hollow cylinder, one induction coil, at least one magnet, one axostylus axostyle, elastic component in the one outer elastic component and, this hollow cylinder includes a sidewall, one top board, one base plate and one first accommodation space, this induction coil is set around this sidewall of this hollow cylinder, this magnet is placed in this first accommodation space of this hollow cylinder, this axostylus axostyle comprises this top that a body of rod and connects this body of rod, this body of rod is arranged in this hollow cylinder versatilely and runs through this magnet, the top of this hollow cylinder is located at this top, should outer elastic component be arranged between this top of this top board of this hollow cylinder and this axostylus axostyle, should be arranged between this base plate of this magnet and this hollow cylinder by interior elastic component, this circuit board electrically connects this induction coil and this storage battery of this electricity generation module, this housing, it has one second accommodation space, this electricity generation module, this circuit board and this storage battery, be placed in this second accommodation space, can press in this elastic component and should outer elastic component generation reaction force by this magnet by this top compression, make this magnet in this first accommodation space of this hollow cylinder, to bounce, and back and forth by this induction coil to produce electric energy and to be stored in this storage battery.Can reach suitable technological progress and practicality, and has an extensive value on the industry, it has following advantage at least: when utilizing this rotor machine to be subjected to the external force vibrations, this magnet is subjected to gravitating and this outer elastic component, elastic component suffers oppression and produced in this reaction force, make this magnet in this first accommodation space of this hollow cylinder, to bounce, and back and forth by this induction coil to produce electric energy and to be stored in this storage battery, it can utilize, and uncared-for kinetic energy produces electric energy in the life, and overcomes the existing awkward problem of known rotor machine.

Above-mentioned explanation only is the general introduction of technical solutions of the utility model, for can clearer understanding technological means of the present utility model, and can be implemented according to the content of specification, and for above-mentioned and other purpose, feature and advantage of the present utility model can be become apparent, below especially exemplified by preferred embodiment, and conjunction with figs., be described in detail as follows.

Description of drawings

Fig. 1 is according to one first embodiment of the present utility model, a kind of cutaway view of rotor machine.

Fig. 2 is according to this first embodiment of the present utility model, the action schematic diagram of this rotor machine.

Fig. 3 is that this rotor machine is installed in the schematic diagram of bicycle according to this first embodiment of the present utility model.

Fig. 4 is that this rotor machine is installed in the schematic diagram of buoyancy aid according to this first embodiment of the present utility model.

Fig. 5 is according to second embodiment of the present utility model, a kind of cutaway view of rotor machine.

Fig. 6 is according to this second embodiment of the present utility model, the action schematic diagram of this rotor machine.

Fig. 7 is according to one the 3rd embodiment of the present utility model, a kind of cutaway view of rotor machine.

Fig. 8 is according to one the 4th embodiment of the present utility model, a kind of cutaway view of rotor machine.

100: rotor machine

110: electricity generation module

111: hollow cylinder 111a: sidewall

111b: top board 111c: base plate

111d: the first accommodation space 111e: outer surface

111f: the first perforation 111g: second perforation

112: induction coil

113: magnet 113a: internal diameter

114: axostylus axostyle 114a: the body of rod

114b: top 114c: first end

114d: the second end 114e: external diameter

115: outer elastic component 116: interior elastic component

118: the second supporters of 117: the first supporters

120: circuit board 130: storage battery

140: housing 140a: second accommodation space

150: shaft-cup 150a: the 3rd accommodation space

200: bicycle 210: car body

300: buoyancy aid

Embodiment

For further setting forth the utility model is to reach technological means and the effect that predetermined goal of the invention is taked, below in conjunction with accompanying drawing and preferred embodiment, to according to its embodiment of rotor machine, structure, feature and the effect thereof that the utility model proposes, describe in detail as after.

See also Fig. 1, it is first embodiment of the present utility model, a kind of rotor machine 100, it comprises an electricity generation module 110, one circuit board 120, one storage battery 130 and a housing 140, this electricity generation module 110, has a hollow cylinder 111, one induction coil 112, at least one magnet 113, one axostylus axostyle 114, elastic component 116 in the one outer elastic component 115 and, this hollow cylinder includes a sidewall 111a, one top board 111b, one base plate 111c and one first accommodation space 111d, this induction coil 112 is set around this sidewall 111a of this hollow cylinder 111, this induction coil 112 is set around the outer surface 111e of this sidewall 111a in the present embodiment, this magnet 113 is placed in this first accommodation space 111d of this hollow cylinder 111, this axostylus axostyle 114 comprises the top 114b that a body of rod 114a and connects this body of rod 114a, this body of rod 114a is arranged in this hollow cylinder 111 versatilely and runs through this magnet 113, in the present embodiment, this top board 111b of this hollow cylinder 111 is provided with one first perforation 111f, this base plate 111c of this hollow cylinder 111 is provided with one second perforation 111g, this body of rod 114a is arranged in this first perforation 111f and this second perforation 111g versatilely, preferably, this electricity generation module 110 has one first supporter 117 and one second supporter 118 in addition, this first supporter 117 is arranged at this first perforation 111f, this second supporter 118 is arranged at this second perforation 111g, to support this body of rod 114a of this axostylus axostyle 114, this first supporter 117 and this second supporter 118 can be bearing, packing ring etc., this top 114b of this axostylus axostyle 114 is located at the top of this hollow cylinder 111, should outer elastic component 115 be arranged between this top 114b of this top board 111b of this hollow cylinder 111 and this axostylus axostyle 114, should be arranged between this base plate 111c of this magnet 113 and this hollow cylinder 111 by interior elastic component 116, being somebody's turn to do outer elastic component 115 and being somebody's turn to do interior elastic component 116 be spring, the flexible plastics of shell fragment or tool, in the present embodiment, this magnet 113 is integral in conjunction with this axostylus axostyle 114, this magnet 113 is incorporated into this body of rod 114a of this axostylus axostyle 114, but so this magnet 113 and these axostylus axostyle 114 synchronization actions, this circuit board 120 electrically connects with this induction coil 112 of this electricity generation module 110, this storage battery 130 electrically connects this circuit board 120, this housing 140 has one second accommodation space 140a, this electricity generation module 110, this circuit board 120 and this storage battery 130 are placed in this second accommodation space 140a.

See also Fig. 1, when this rotor machine 100 is not subjected to the external force vibrations, this electricity generation module 110 remains static, owing to should outer elastic component 115 be arranged between this top 114b of this top board 111b of this hollow cylinder 111 and this axostylus axostyle 114, therefore this top 114b that is somebody's turn to do outer this axostylus axostyle 114 of elastic component 115 pushing tows makes progress, and because this axostylus axostyle 114 is combined into one with this magnet 113, therefore this axostylus axostyle 114 makes this magnet 113 hang in this hollow cylinder 111, see also Fig. 2, when this rotor machine 100 is subjected to the external force vibrations, this magnet 113 is subjected to gravitating and moves downward, at this moment, this magnet 113 can drive this axostylus axostyle 114 and move downward, and this magnet 113 is by this induction coil 112, right owing to should be arranged between this top board 111b and this top 114b by outer elastic component 115, therefore when these magnet 113 these axostylus axostyles 114 of drive move downward, should can be compressed by this top 114b by outer elastic component 115, and make this outer elastic component 115 produce reaction force, should utilize this top of reaction force pushing tow 114b to move upward again by outer elastic component 115, relatively, this axostylus axostyle 114 also drives simultaneously that this magnet 113 moves upward and by this induction coil 112, in addition, in the present embodiment, owing to should be arranged between this magnet 113 and this base plate 111c by interior elastic component 116, therefore when this magnet 113 moves downward, this magnet 113 can press elastic component 116 in this, elastic component 116 produces reaction force in this and make, should utilize this magnet 113 of reaction force pushing tow to move upward again by interior elastic component 116, the utility model can utilize this magnet 113 to press this interior elastic component 116 and should be produced reaction forces by outer elastic component 115 by this top 114b compression, make this magnet 113 in this first accommodation space 111d of this hollow cylinder 111, to bounce, and back and forth by this induction coil 112 to produce electric energy and to be stored in this storage battery 130.

See also Fig. 3, this rotor machine 100 of the present utility model can be installed in the facility of easy generation vertical tremor, on the vehicles, with Fig. 3 is example, this rotor machine 100 is installed on the car body 210 of a bicycle 200, when this bicycle 200 is walked on the road surface, this bicycle 200 can produce vertical tremor because of Uneven road, therefore be installed in this rotor machine 100 of this car body 210, also vertical tremor thereupon, this magnet 113 of this electricity generation module 110 can be along with bouncing in this first accommodation space 111d of this hollow cylinder 111, and back and forth by this induction coil 112 to produce electric energy and to be stored in this storage battery 130.

Please consult Fig. 1 and Fig. 2 again, in the present embodiment, this electricity generation module 110 has a shaft-cup 150 in addition, this shaft-cup 150 is incorporated into this base plate 111c of this hollow cylinder 111, this shaft-cup 150 has one the 3rd accommodation space 150a, the 3rd accommodation space 150a is communicated with this second perforation 111g and this first accommodation space 111d of this base plate 111c, see also Fig. 2, when this body of rod 114a of this axostylus axostyle 114 is down moved by these magnet 113 drives, the end of this body of rod 114a stretches among the 3rd accommodation space 150a, clashes into this circuit board 120 or this battery 130 to avoid this body of rod 114a.

See also Fig. 4, this rotor machine 100 of the present utility model can be installed in a buoyancy aid 300, when this buoyancy aid 300 is placed on the sea, this buoyancy aid 300 can produce vertical tremor because of wave, therefore be installed in this rotor machine 100 of this buoyancy aid 300, can be thereupon vertical tremor, this magnet 113 of this electricity generation module 110 can be along with bouncing in this first accommodation space 111d of this hollow cylinder 111, and back and forth by this induction coil 112 to produce electric energy and to be stored in this storage battery 130.

See also Fig. 5, it is second embodiment of the present utility model, this rotor machine 100, it comprises this electricity generation module 110, this circuit board 120, this storage battery 130 and this housing 140, this electricity generation module 110, has this hollow cylinder 111, this induction coil 112, this magnet 113, elastic component 116 in this axostylus axostyle 114 reaches and is somebody's turn to do, second embodiment and the first embodiment difference are in this body of rod 114a of this axostylus axostyle 114 and have a first end 114c and a second end 114d, this first end 114c is fixed in this first perforation 111f, this the second end 114d is fixed in this second perforation 111g, and an internal diameter 113a of this magnet 113 is greater than the external diameter 114e of this body of rod 114a, see also Fig. 5, when this rotor machine 100 is not subjected to the external force vibrations, this electricity generation module 110 remains static, because this inner spring 116 is arranged between this magnet 113 and this base plate 113, therefore this magnet 113 is arranged in this hollow cylinder 111 by these inner spring 116 supports, see also Fig. 6, when this rotor machine 100 is subjected to the external force vibrations, this magnet 113 is subjected to gravitating and moves downward, this moment, this magnet 113 can press elastic component 116 in this, elastic component 116 produces reaction force in this and make, this interior elastic component 116 utilizes this magnet 113 of reaction force pushing tow to move upward and passes through this induction coil 112, this magnet 113 is subjected to gravitating again and moves downward and by this induction coil 112 afterwards, the utility model can utilize this magnet 113 to press elastic component 116 generation reaction forces in this, make this magnet 113 in this first accommodation space 111d of this hollow cylinder 111, to bounce, and back and forth by this induction coil 112 to produce electric energy and to be stored in this storage battery 130.

See also Fig. 7, it is the 3rd embodiment of the present utility model, this rotor machine 100, it comprises this electricity generation module 110, this circuit board 120, this storage battery 130 and this housing 140, this electricity generation module 110, have this hollow cylinder 111, this induction coil 112, this magnet 113, this axostylus axostyle 114 and this interior elastic component 116, the three embodiment and the first embodiment difference and be in elastic component 116 in this electricity generation module 110 is not provided with this.

See also Fig. 8, it is the 4th embodiment of the present utility model, this rotor machine 100, it comprises this electricity generation module 110, this circuit board 120, this storage battery 130 and this housing 140, this electricity generation module 110, have this hollow cylinder 111, a plurality of induction coil 112, a plurality of magnet 113, this axostylus axostyle 114 and be somebody's turn to do interior elastic component 116, the 4th embodiment and the first embodiment difference are in this electricity generation module 110 and are provided with those induction coils 112 and those magnet 113, and this magnet 113 is integral in conjunction with this axostylus axostyle 114.

When the utility model utilizes this rotor machine 100 to be subjected to the external force vibrations, this magnet 113 is subjected to gravitating and this outer elastic component 115, elastic component 116 suffers oppression and produced in this reaction force, make this magnet 113 in this first accommodation space 111d of this hollow cylinder 111, to bounce, and back and forth by this induction coil 112 to produce electric energy and to be stored in this storage battery 130, it can utilize, and uncared-for kinetic energy produces electric energy in the life, and overcomes the existing awkward problem of known rotor machine.

The above, it only is preferred embodiment of the present utility model, be not that the utility model is done any pro forma restriction, though the utility model discloses as above with preferred embodiment, yet be not in order to limit the utility model, any those skilled in the art, in not breaking away from the technical solutions of the utility model scope, when the technology contents that can utilize above-mentioned announcement is made a little change or is modified to the equivalent embodiment of equivalent variations, in every case be the content that does not break away from technical solutions of the utility model, according to technical spirit of the present utility model to any simple modification that above embodiment did, equivalent variations and modification all still belong in the scope of technical solutions of the utility model.

Claims (20)

1. rotor machine is characterized in that comprising:

One electricity generation module, it has a hollow cylinder, one induction coil, at least one magnet, one axostylus axostyle, elastic component in the one outer elastic component and, this hollow cylinder includes a sidewall, one top board, one base plate and one first accommodation space, this induction coil is set around this sidewall of this hollow cylinder, this magnet is placed in this first accommodation space of this hollow cylinder, this axostylus axostyle comprises this top that a body of rod and connects this body of rod, this body of rod is arranged in this hollow cylinder versatilely and runs through this magnet, the top of this hollow cylinder is located at this top, should outer elastic component be arranged between this top of this top board of this hollow cylinder and this axostylus axostyle, this interior elastic component is arranged between this base plate of this magnet and this hollow cylinder;

One circuit board, this induction coil of itself and this electricity generation module electrically connects;

One storage battery, it is to electrically connect this circuit board; And

One housing, it has one second accommodation space, and this electricity generation module, this circuit board and this storage battery are placed in this second accommodation space.

2. rotor machine as claimed in claim 1 is characterized in that this top board of this hollow cylinder is provided with one first perforation, and this base plate of this hollow cylinder is provided with one second perforation, and this body of rod is arranged in this first perforation and this second perforation versatilely.

3. rotor machine as claimed in claim 2, it is characterized in that this electricity generation module has a shaft-cup in addition, this shaft-cup is incorporated into this base plate of this hollow cylinder, and this shaft-cup has one the 3rd accommodation space, and the 3rd accommodation space is communicated with this second perforation and this first accommodation space of this base plate.

4. rotor machine as claimed in claim 2 is characterized in that this electricity generation module has one first supporter in addition, and this first supporter is arranged at this first perforation, to support this body of rod of this axostylus axostyle.

5. rotor machine as claimed in claim 2 is characterized in that this electricity generation module has one second supporter in addition, and this second supporter is arranged at this second perforation, to support this body of rod of this axostylus axostyle.

6. rotor machine as claimed in claim 1 is characterized in that this magnet is integral in conjunction with this axostylus axostyle.

7. rotor machine is characterized in that comprising:

One electricity generation module, it has a hollow cylinder, one induction coil, at least one magnet, one axostylus axostyle and an outer elastic component, this hollow cylinder includes a sidewall, one top board, one base plate and one first accommodation space, this induction coil is set around this sidewall of this hollow cylinder, this magnet is placed in this first accommodation space of this hollow cylinder, this axostylus axostyle comprises this top that a body of rod and connects this body of rod, this body of rod is arranged in this hollow cylinder versatilely and runs through this magnet, the top of this hollow cylinder is located at this top, and this outer elastic component is arranged between this top of this top board of this hollow cylinder and this axostylus axostyle;

One circuit board, this induction coil of itself and this electricity generation module electrically connects;

One storage battery, it electrically connects this circuit board; And

One housing, it has one second accommodation space, and this electricity generation module, this circuit board and this storage battery are placed in this second accommodation space.

8. rotor machine as claimed in claim 7 is characterized in that this top board of this hollow cylinder is provided with one first perforation, and this base plate of this hollow cylinder is provided with one second perforation, and this body of rod is arranged in this first perforation and this second perforation versatilely.

9. rotor machine as claimed in claim 8, it is characterized in that this electricity generation module has a shaft-cup in addition, this shaft-cup is incorporated into this base plate of this hollow cylinder, and this shaft-cup has one the 3rd accommodation space, and the 3rd accommodation space is communicated with this second perforation and this first accommodation space of this base plate.

10. rotor machine as claimed in claim 8 is characterized in that this electricity generation module has one first supporter in addition, and this first supporter is arranged at this first perforation, to support this body of rod of this axostylus axostyle.

11. rotor machine as claimed in claim 8 is characterized in that this electricity generation module has one second supporter in addition, this second supporter is arranged at this second perforation, to support this body of rod of this axostylus axostyle.

12. rotor machine as claimed in claim 8 is characterized in that this magnet is integral in conjunction with this axostylus axostyle.

13. a rotor machine is characterized in that comprising:

One electricity generation module, it has elastic component in a hollow cylinder, an induction coil, at least one magnet, the axostylus axostyle and, this hollow cylinder includes a sidewall, a top board, a base plate and one first accommodation space, this induction coil is set around this sidewall of this hollow cylinder, this magnet is placed in this first accommodation space of this hollow cylinder, this axostylus axostyle comprises a body of rod, this body of rod is arranged in this hollow cylinder and runs through this magnet, and elastic component is arranged between this base plate of this magnet and this hollow cylinder in this;

One circuit board, this induction coil of itself and this electricity generation module electrically connects;

One storage battery, it electrically connects this circuit board; And

One housing, it has one second accommodation space, and this electricity generation module, this circuit board and this storage battery are placed in this second accommodation space.

14. rotor machine as claimed in claim 13, this top board that it is characterized in that this hollow cylinder is provided with one first perforation, this base plate of this hollow cylinder is provided with one second perforation, this body of rod has a first end and a second end, this first end is fixed in this first perforation, and this second end is fixed in this second perforation.

15. rotor machine as claimed in claim 14 is characterized in that this electricity generation module has one first supporter in addition, this first supporter is arranged at this first perforation, to support this body of rod of this axostylus axostyle.

16. rotor machine as claimed in claim 14 is characterized in that this electricity generation module has one second supporter in addition, this second supporter is arranged at this second perforation, to support this body of rod of this axostylus axostyle.

17. rotor machine as claimed in claim 13 is characterized in that the external diameter of an internal diameter of this magnet greater than this body of rod.

18. a rotor machine is characterized in that comprising:

One electricity generation module, it has a hollow cylinder, one induction coil, at least one magnet, one axostylus axostyle, elastic component in the one outer elastic component and, this hollow cylinder includes a sidewall, one top board, one base plate and one first accommodation space, this induction coil is set around this sidewall of this hollow cylinder, this magnet is placed in this first accommodation space of this hollow cylinder, this axostylus axostyle comprises this top that a body of rod and connects this body of rod, this body of rod is arranged in this hollow cylinder versatilely and runs through this magnet, the top of this hollow cylinder is located at this top, should outer elastic component be arranged between this top of this top board of this hollow cylinder and this axostylus axostyle, this interior elastic component is arranged between this base plate of this magnet and this hollow cylinder; And

One housing, it has one second accommodation space, and this electricity generation module is placed in this second accommodation space.

19. a rotor machine is characterized in that comprising:

One electricity generation module, it has a hollow cylinder, one induction coil, at least one magnet, one axostylus axostyle and an outer elastic component, this hollow cylinder includes a sidewall, one top board, one base plate and one first accommodation space, this induction coil is set around this sidewall of this hollow cylinder, this magnet is placed in this first accommodation space of this hollow cylinder, this axostylus axostyle comprises this top that a body of rod and connects this body of rod, this body of rod is arranged in this hollow cylinder versatilely and runs through this magnet, the top of this hollow cylinder is located at this top, and this outer elastic component is arranged between this top of this top board of this hollow cylinder and this axostylus axostyle; And

One housing, it has one second accommodation space, and this electricity generation module is placed in this second accommodation space.

20. a rotor machine is characterized in that comprising:

One electricity generation module, it has elastic component in a hollow cylinder, an induction coil, at least one magnet, the axostylus axostyle and, this hollow cylinder includes a sidewall, a top board, a base plate and one first accommodation space, this induction coil is set around this sidewall of this hollow cylinder, this magnet is placed in this first accommodation space of this hollow cylinder, this axostylus axostyle comprises a body of rod, this body of rod is arranged in this hollow cylinder and runs through this magnet, and elastic component is arranged between this base plate of this magnet and this hollow cylinder in this; And

One housing, it has one second accommodation space, and this electricity generation module is placed in this second accommodation space.

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