CN205666747U - Double dynamical reciprocating type magnetic energy power generation facility - Google Patents
Double dynamical reciprocating type magnetic energy power generation facility Download PDFInfo
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- CN205666747U CN205666747U CN201620554087.1U CN201620554087U CN205666747U CN 205666747 U CN205666747 U CN 205666747U CN 201620554087 U CN201620554087 U CN 201620554087U CN 205666747 U CN205666747 U CN 205666747U
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- sleeve pipe
- double dynamical
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- 238000010248 power generation Methods 0.000 title abstract 3
- 230000007246 mechanism Effects 0.000 claims abstract description 23
- 230000005611 electricity Effects 0.000 claims description 13
- 238000006243 chemical reaction Methods 0.000 claims description 12
- 230000006698 induction Effects 0.000 claims description 10
- 230000008878 coupling Effects 0.000 claims description 5
- 238000010168 coupling process Methods 0.000 claims description 5
- 238000005859 coupling reaction Methods 0.000 claims description 5
- 238000006073 displacement reaction Methods 0.000 abstract description 6
- 230000006872 improvement Effects 0.000 abstract description 2
- 238000009434 installation Methods 0.000 abstract description 2
- 238000005516 engineering process Methods 0.000 description 3
- 230000035515 penetration Effects 0.000 description 3
- 238000010586 diagram Methods 0.000 description 2
- 230000001771 impaired effect Effects 0.000 description 2
- 239000007787 solid Substances 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 230000008030 elimination Effects 0.000 description 1
- 238000003379 elimination reaction Methods 0.000 description 1
- 230000000750 progressive effect Effects 0.000 description 1
- 230000009466 transformation Effects 0.000 description 1
- 230000007704 transition Effects 0.000 description 1
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Abstract
The utility model relates to a double dynamical reciprocating type magnetic energy power generation facility for the solution turns into linear displacement kinetic energy and the same power generation facility of the equal accessible of swing offset kinetic energy the technical problem of electric energy. It includes sharp power shifter, rotary power shifter, electric energy response mechanism and casing, straight line power shifter includes atress board, reset spring and base, is equipped with the case on the base, installation in the case reset spring, electric energy response mechanism includes stator and active cell, and the lower extreme at the atress board is fixed to the upper end of stator, the fixed sleeve pipe that is equipped with of lower extreme of stator, and the stator passes through last sleeve pipe slidable suit and is in in the case, the rotary power shifter includes runner, connecting rod and pull rod, and one side of runner is equipped with eccentric terminal, the lower extreme and the eccentric terminal hinge of connecting rod, the upper end of connecting rod and the lower extreme hinge of pull rod. Improvement that it is showing is to the utilization of the multiple power in outside.
Description
Technical field
This utility model relates to TRT technical field, and a kind of double dynamical reciprocating magnetic energy electricity generation fills
Put.
Background technology
TRT has obtained continuous improvement as a kind of energy transition equipment, the most progressive along with technology.Existing skill
TRT in art, generally uses stator to fix, and the mode that mover or rotor move in stator field or rotate cuts magnetic
Sense line produces electric energy.Generating equipment of the prior art, a kind of mode only with rotational kinetic energy or mobile kinetic energy carries out sending out
Electricity, and in practical situations both, same environment often exists rotational kinetic energy and moves linearly two kinds of energy mode of kinetic energy, therefore,
Need to provide a kind of device can be all obtained by by two kinds of energy, to put forward high-octane conversion efficiency.
Utility model content
The purpose of this utility model is to provide a kind of double dynamical reciprocating magnetic energy electricity generating device, for solving straight line position
Mobile energy and swing offset kinetic energy all can be converted into the technical problem of electric energy by same TRT.
The technical scheme in the invention for solving the technical problem is: a kind of double dynamical reciprocating magnetic energy electricity generation dress
Put and include straight line power conversion mechanism, rotary power shifter, electric energy induction mechanism and casing;
Described straight line power conversion mechanism includes that stressed plate, back-moving spring and base, described stressed plate use and lead boots
Slidably being connected in described casing, described base is fixed in described casing, and described base is provided with traps
Pipe, the back-moving spring described in the interior installation of described setting of casing;
Described electric energy induction mechanism includes stator and mover, and described stator uses permanent magnet, and described mover is provided with sense
Answering coil, the upper end of described stator to be fixed on the lower end of institute's stressed plate, the lower end of described stator is fixed with sleeve pipe, described fixed
Son is slidably sleeved in described setting of casing by upper sleeve pipe;Described setting of casing and and upper sleeve pipe be correspondingly arranged fixing hole;
Described rotary power shifter includes that runner, connecting rod and pull bar, the axial direction of described runner are provided with rotation
Power input shaft, described rotary power power shaft is fixed in described casing by bearing, and the side of described runner is provided with
Eccentric terminal, the lower end of described connecting rod and eccentric terminal hinge, the upper end of connecting rod and the lower end hinge of pull bar;Described pull bar upper
Hold be connected fixing with described mover, described pull bar and casing are correspondingly arranged fixing hole;The both sides of described pull bar are slidably
It is connected in described casing;Described mover is positioned at the space inside described stator.
The upper surface of described stressed plate is provided with Rubber shock-absorbing pad.
Described stressed plate include the first stressed plate and the second stressed plate, the first described stressed plate and the second stressed plate it
Between connected by force application board, the top of described force application board is provided with coupling.
The outboard end of described stressed plate is provided with leads boots, and described internal side of shell face is provided with guide rail, and described stressed plate passes through
Lead boots to be slidably sleeved in described guide rail.
The lower end of described upper sleeve pipe is fixed with bottom.
Described stator includes that the first permanent magnet and the second permanent magnet, the first described permanent magnet and the second permanent magnet use
Opposite polarity is mounted opposite.
The beneficial effects of the utility model are:
1, this utility model passes through straight line power conversion mechanism and rotary power shifter, it is possible to outer linear is reciprocal
Displacement power and rotary power are converted to electric energy, significantly improve the utilization to outside multiple power;This device may be installed
At linear reciprocation displacement power or rotary power, or have at two kinds of power, be widely used.
2, straight line power conversion mechanism of the present utility model uses two sets to be symmetrically installed, and enhances the magnetic field intensity of stator;
Connected by force application board between the stressed plate of two set straight line power conversion mechanisms, external impetus is applied on force application board, can protect
Demonstrate,prove two pieces of stressed plate stress equalizations.
Accompanying drawing explanation
Fig. 1 is the overall structure schematic diagram of removal front housing of the present utility model;
Fig. 2 is the front view of Fig. 1;
Fig. 3 is the top view of Fig. 1;
Fig. 4 is that in Fig. 1, sleeve pipe and the first setting of casing connect sectional view schematic diagram on first;
In figure: 1. casing;2. the first stressed plate;3. the first back-moving spring;4. the first base plate;5. the first setting of casing;6.
One fixing hole;7. the second stressed plate;8. coupling;9. the second base plate;10. the second setting of casing;11. first permanent magnets;12. second
Permanent magnet;13. runners;14. connecting rods;15. force application boards;16. pull bars;17. rotary power power shafts;18. movers;On 19. first
Sleeve pipe;Sleeve pipe on 20. second;21. first bottoms;22. lower fixed holes;23. second fixing holes.
Detailed description of the invention
As shown in Figures 1 to 4, a kind of double dynamical reciprocating magnetic energy electricity generating device includes straight line power conversion mechanism, rotates and move
Power shifter, electric energy induction mechanism and casing 1;
Described straight line power conversion mechanism includes the first straight line shifter and the second straight line shifter, described
One straight line transformation mechanism and the second straight line shifter are symmetrically installed;The first described straight line shifter includes the first stressed plate
2, the first back-moving spring 3 and the first base, the first described stressed plate 2 uses rectangular configuration, the upper end of described first stressed plate 2
Face is provided with Rubber shock-absorbing pad, can prevent due to the external force impact to the first stressed plate 2, and cause the first stressed plate 2 impaired, described
The outboard end of the first stressed plate 2 is provided with leads boots, and described casing 1 medial surface correspondence is led boots and is provided with guide rail, described lead boots and can slide
Dynamic is sleeved in described guide rail;First stressed plate 2 employing is led boots and is slidably connected in described casing 1, can make
The degree of freedom of the first stressed plate 2 is restricted, and makes the first stressed plate 2 move along a straight line along the direction of described guide rail;
The first described base includes the first base plate 4 and the first setting of casing 5, and the first described base plate 4 uses rectangle
Structure, the outside of described first base plate 4 is fixed in described casing 1;The first described setting of casing 5 uses cylinder ghost to tie
Structure, the first described setting of casing 5 is vertically fixed on the upper end of the first described base plate 4, and the top of described first setting of casing 5 is provided with
Screw, the tube wall of the first setting of casing 5 described in described screw lateral penetration;The first described back-moving spring 3 is sleeved on described
In first setting of casing 5;
The second described straight line shifter includes the second stressed plate the 7, second back-moving spring and the second base, described
Two stressed plates 7 use rectangular configuration, the upper surface of described second stressed plate 7 to be provided with rubber shock-absorbing device, can prevent due to external force
Impact to the second stressed plate 7, and cause the second stressed plate 7 impaired, the outboard end of described second stressed plate 7 is provided with leads boots, institute
The casing 1 medial surface correspondence stated is led boots and is provided with guide rail, and described boots of leading slidably are sleeved in described guide rail;Second stress
Plate 7 uses and leads boots and be slidably connected in described casing 1, and the degree of freedom of the second stressed plate 7 can be made to be restricted, and makes the
Two stressed plates 7 move along a straight line along the direction of described guide rail;
The second described base includes the second base plate 9 and the second setting of casing 10, and the second described base plate 9 uses rectangle
Structure, the outside of described second base plate 9 is fixed in described casing 1;The second described setting of casing 10 uses cylinder ghost
Structure, the second described setting of casing 10 is vertically fixed on the upper end of the second described base plate 9, the top of described second setting of casing 10
It is provided with screw, the tube wall of the second setting of casing 10 described in described screw lateral penetration;The second described back-moving spring is sleeved on institute
In the second setting of casing 10 stated;
The top of described first stressed plate 2 and the second stressed plate 7 connects by force application board 15 is fixing, described first stressed plate
2 and second leave gap between stressed plate 7, and described force application board 15 uses c-type structure, and the two ends of described force application board 15 are solid respectively
Being scheduled on the first described stressed plate 2 and the second stressed plate 7, described first stressed plate 2 and the second stressed plate 7 are by described executing
Power plate 15 uniformly exerts a force, it is ensured that the first straight line shifter and the second straight line shifter stress equalization, the i.e. first stressed plate 2
With the second stressed plate 7 stress equalization;The top of described loading plate is provided with coupling 8, and described coupling 8 is used for and external impetus
Mechanism connects.
Described electric energy induction mechanism includes stator and mover 18, and described stator includes the first permanent magnet 11 and second forever
Magnet 12;The upper end of the first described permanent magnet 11 is fixed on the lower end of described first stressed plate 2, described first permanent magnet 11
Lower end is fixed with sleeve pipe 19 on first, and on described first, the lower end of sleeve pipe 19 is fixed with the first bottom 21, and described first
The diameter of bottom 21 is more than the diameter of sleeve pipe 19 on described first and is less than the diameter of described first setting of casing 5, on described first
The bottom of sleeve pipe 19 is provided with screw, and on described first, the screw of sleeve pipe 19 is correspondingly arranged group with the screw of described first setting of casing 5
Become the first fixing hole 6;In on described first, sleeve pipe 19 is slidably sleeved on the first described setting of casing 5, and described first
End cap top is pressed on the first described back-moving spring 3;
The upper end of the second described permanent magnet 12 is fixed on the lower end of described second stressed plate 7, described second permanent magnet 12
Lower end be fixed with sleeve pipe 20 on second, on described second, the lower end of sleeve pipe 20 is fixed with the second bottom, described second
The diameter of bottom is more than the diameter of sleeve pipe 20 on described second and is less than the diameter of described second setting of casing 10, overlaps on described second
The bottom of pipe 20 is provided with screw, and on described second, the screw of sleeve pipe 20 is correspondingly arranged composition with the screw of described second setting of casing 10
Second fixing hole;In on described second, sleeve pipe 20 is slidably sleeved on the second described setting of casing 10, and the second described end
Caping is pressed on the second described back-moving spring;The first described permanent magnet 11 is relative with the second described permanent magnet opposite polarity
Install.
Described rotary power shifter includes runner 13, connecting rod 14 and pull bar 16, the axial direction of described runner 13
Being provided with rotary power power shaft 17, external impetus provides to rotary power shifter by described rotary power power shaft 17
Power, described rotary power power shaft 17 by bearing be fixed on casing 1 on;The side of described runner 13 is provided with bias
Terminal, the lower end of described connecting rod 14 and described eccentric terminal hinge, the upper end of described connecting rod 14 and described pull bar 16 times
End hinge;Described pull bar 16 uses rectangular shaft, and the upper end of described pull bar 16 is fixing with described mover 18 to be connected;Described pull bar
The outboard end of 16 is provided with leads boots, and in described casing 1, the boots of leading of corresponding described pull bar 16 outboard end are provided with guide rail, described pull bar 16
Slidably it is sleeved on described guide rail by described boots of leading;The bottom of described pull bar 16 is provided with screw, described screw
Using the through hole of lateral penetration pull bar 16 wall, in described casing 1, the screw of corresponding described pull bar 16 bottom arranges screw, described machine
Screw on shell 1 penetrates described casing 1, and the screw in described casing 1 is lower fixing with the screw composition of described pull bar 16 bottom
Hole 22;Described mover 18 uses cylindrical structure, and the axial direction of described mover 18 and described pull bar 16 are at same straight line
On direction, in described mover 18 space being arranged in described first permanent magnet 11 and the second permanent magnet moving up and down;
Being wound around coil on described mover 18, the line terminals of described coil electrically connects with external circuit.
The electricity generating principle of this device is, when this device is by linear reciprocation displacement power, uses bolt to insert lower solid
Determine, in hole 22, to be fixed by revolving power mechanism;Linear reciprocation displacement power is applied on described force application board 15, described
Force application board 15 press the first described stressed plate 2 and the second stressed plate 7, and then the first permanent magnet 11 and second described in driving
Permanent magnet moves downward, and then on first described in driving, loop bar 20 compresses the first back-moving spring 3 and the on loop bar 19 and second
Two back-moving springs, during being somebody's turn to do, the coil cutting magnetic induction line on mover 18 produces electric energy;When described linear reciprocation displacement power
After elimination, the first described back-moving spring 3 and the second back-moving spring are under the effect of reseting elasticity, by loop bar 19 He on first
On second, sleeve pipe 20 drives the first permanent magnet 11 and the second permanent magnet 12 to move upward, and during being somebody's turn to do, the coil on mover 18 is cut
Cut magnetic induction line and produce electric energy.When this device is by rotary power, it is respectively adopted bolt and inserts the first fixing hole 6 and second and fix
In hole 23, straight line power conversion mechanism is fixed;Rotary power is applied on the rotary power power shaft 17 of described runner 13,
Runner 13 rotates and then drives mover 18 to move up and down by connecting rod 14 and pull bar 16, and during being somebody's turn to do, stator is fixing, mover
Coil cutting magnetic induction line on 18 produces electric energy.
This utility model passes through straight line power conversion mechanism and rotary power shifter, it is possible to by outer linear toward resetting
Locomotivity and rotary power are converted to electric energy, significantly improve the utilization to outside multiple power.This device may be installed directly
At line shift reciprocately power or rotary power, or have at two kinds of power, be widely used.
In addition to the technical characteristic described in description, it is the known technology of those skilled in the art.
Although detailed description of the invention of the present utility model is described by the above-mentioned accompanying drawing that combines, but not new to this practicality
The restriction of type protection domain, on the basis of technical solutions of the utility model, those skilled in the art need not pay creativeness
The various amendments that can make of work or deformation still in protection domain of the present utility model.
Claims (6)
1. a double dynamical reciprocating magnetic energy electricity generating device, it is characterised in that include that straight line power conversion mechanism, rotary power turn
Converting mechanism, electric energy induction mechanism and casing;
Described straight line power conversion mechanism includes that stressed plate, back-moving spring and base, described stressed plate employing are led boots and can be slided
Dynamic is connected in described casing, and described base is fixed in described casing, and described base is provided with setting of casing, institute
Back-moving spring described in installing in stating setting of casing;
Described electric energy induction mechanism includes stator and mover, and described stator uses permanent magnet, and described mover is provided with the line of induction
Circle, the upper end of described stator is fixed on the lower end of institute's stressed plate, and the lower end of described stator is fixed with sleeve pipe, and described stator leads to
Cross sleeve pipe to be slidably sleeved in described setting of casing;Described setting of casing and and upper sleeve pipe be correspondingly arranged fixing hole;
Described rotary power shifter includes that runner, connecting rod and pull bar, the axial direction of described runner are provided with rotary power
Power shaft, described rotary power power shaft is fixed in described casing by bearing, and the side of described runner is provided with bias
Terminal, the lower end of described connecting rod and eccentric terminal hinge, the upper end of connecting rod and the lower end hinge of pull bar;The upper end of described pull bar with
Described mover is fixing to be connected, and described pull bar and casing are correspondingly arranged fixing hole;The both sides of described pull bar slidably connect
In described casing;Described mover is positioned at the space inside described stator.
The double dynamical reciprocating magnetic energy electricity generating device of one the most according to claim 1, is characterized in that, described stressed plate upper
End face is provided with Rubber shock-absorbing pad.
The double dynamical reciprocating magnetic energy electricity generating device of one the most according to claim 1, is characterized in that, described stressed plate bag
Include the first stressed plate and the second stressed plate, connected by force application board between the first described stressed plate and the second stressed plate, described
The top of force application board is provided with coupling.
The double dynamical reciprocating magnetic energy electricity generating device of one the most according to claim 3, is characterized in that, outside described stressed plate
Side is provided with leads boots, and described internal side of shell face is provided with guide rail, and described stressed plate is slidably sleeved on described by leading boots
Guide rail in.
The double dynamical reciprocating magnetic energy electricity generating device of one the most according to claim 1, is characterized in that, under described upper sleeve pipe
End is fixed with bottom.
The double dynamical reciprocating magnetic energy electricity generating device of one the most according to claim 1, is characterized in that, described stator includes
First permanent magnet and the second permanent magnet, the first described permanent magnet and the second permanent magnet use opposite polarity to be mounted opposite.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620554087.1U CN205666747U (en) | 2016-06-08 | 2016-06-08 | Double dynamical reciprocating type magnetic energy power generation facility |
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CN201620554087.1U CN205666747U (en) | 2016-06-08 | 2016-06-08 | Double dynamical reciprocating type magnetic energy power generation facility |
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CN205666747U true CN205666747U (en) | 2016-10-26 |
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CN201620554087.1U Active CN205666747U (en) | 2016-06-08 | 2016-06-08 | Double dynamical reciprocating type magnetic energy power generation facility |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112144973A (en) * | 2020-09-08 | 2020-12-29 | 章国相 | Standby self-charging device of face recognition intelligent door lock |
CN113729322A (en) * | 2021-09-07 | 2021-12-03 | 苟明 | Clothes with power generation function |
CN113909971A (en) * | 2021-10-26 | 2022-01-11 | 湖北宜昌精森机械有限公司 | Metal product processing device |
-
2016
- 2016-06-08 CN CN201620554087.1U patent/CN205666747U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112144973A (en) * | 2020-09-08 | 2020-12-29 | 章国相 | Standby self-charging device of face recognition intelligent door lock |
CN113729322A (en) * | 2021-09-07 | 2021-12-03 | 苟明 | Clothes with power generation function |
CN113909971A (en) * | 2021-10-26 | 2022-01-11 | 湖北宜昌精森机械有限公司 | Metal product processing device |
CN113909971B (en) * | 2021-10-26 | 2023-12-12 | 湖北宜昌精森机械有限公司 | Metal product processingequipment |
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