CN116545204A - Electromagnetic vibration power generation device of magnet - Google Patents

Abstract

The invention relates to an electromagnetic vibration power generation device of a magnet, which belongs to the technical field of power generation and comprises a power generation device body, wherein the power generation device body comprises a vertical vibration device, the vertical vibration device comprises a first shell, a plurality of first mounting grooves are formed in the first shell, the vertical vibration device and four multidirectional vibration devices are arranged, the conversion of multidirectional vibration force is convenient, the single vertical power conversion is avoided, and a permanent magnet spring formed by two annular permanent magnets magnetized in the axial direction is formed by arranging a first permanent magnet, a second permanent magnet, magnetic beads and magnetic blocks at two ends, and the working characteristic of the permanent magnet spring is close to that of an actual spring, and the fatigue resistance is far higher than that of a mechanical spring. Compared with mechanical springs, the permanent magnet spring has the advantages of large elasticity, no friction, no heat generation, no noise, stable performance and long service life, and the moving permanent magnet can avoid mechanical stretching and collision in the moving process.

Description

Electromagnetic vibration power generation device of magnet

Technical Field

The invention relates to the technical field of power generation, in particular to an electromagnetic vibration power generation device of a magnet.

Background

The vibration power generation, also called vibration energy harvesting, is to design an energy conversion device to collect the vibration energy of the environment and use it for power generation by researching the vibration source and vibration mechanism of the environment, the research of the vibration power generation can be traced back to the 90 th century, and the students of california university utilize the characteristic that the electret permanent pole body material can permanently keep charges, and combine with the micro electromechanical process (MEMS), a miniature spring bar supported variable capacitor device is developed, the electret permanent pole body material is coated on the electrode of the capacitor, the area of the capacitor is transformed along with the vibration of the external environment, and thus the current is excited on the loop. The generated current is then collected and used to power other devices, and today low-power supplies are widely used in the fields of bridge condition detection, environmental monitoring, healthcare, and automotive manufacturing. The fatal disadvantages of batteries as low-power sources are high cost, limited life, and serious environmental pollution caused by improper disposal of waste batteries.

The application number of citation CN200820211002.5 discloses a vibration generator which is characterized by comprising an upper bracket, a lower bracket, a swinging rod bracket for connecting the upper bracket and the lower bracket, a spring and winding frameworks which are arranged on two sides and are connected with the upper bracket and the lower bracket; the swing rod support is provided with a guide rod for guiding the swing rod and positioning a spring, the swing rod is sleeved on the guide rod, and the springs are respectively sleeved on the guide rod in an upper and a lower mode; the swing rod can move up and down along the guide rod; two ends of the swing rod are respectively provided with 2 magnets; the winding framework is of a hollow structure, the winding is wound on the periphery of the winding framework, and when the swing rod moves up and down, the magnets at the two ends of the swing rod move up and down in the cavity in the middle of the winding framework, so that the winding cuts magnetic force lines. The local oscillation generator has compact structure and high efficiency of converting kinetic energy into electric energy.

The prior art has poor performance stability and short service life, and can only convert vibration force in a single direction.

The existing magneto-electric generator generates induction current by changing the magnetic flux of an induction coil through the vibration of an inertial body according to a specific type of rule. However, in reality, the vibration of the inertial body is irregular in some vibration occasions, and there is currently a lack of a micro-generator device capable of converting vibration energy in the environment into electric energy and continuously supplying the electric energy. In addition, in some practical situations, a miniature power supply device needs to be installed to supply power to a miniature device, for example, when a tire pressure of a vehicle tire is detected, a miniature wireless sensor needs to be installed, and the wireless sensor wires generally need to be supplied with power by a button cell. But button cell power supply time is shorter, needs frequent change, has increased vehicle maintenance cost, brings inconvenience for the user.

Disclosure of Invention

The invention aims to provide an electromagnetic vibration power generation device of a magnet, which aims to solve the problems that in the prior art, the performance stability is poor, the service life is short, only vibration force in a single direction can be converted, and in some existing practical occasions, miniature power supply equipment is required to be installed to supply power to small-sized equipment, for example, a small-sized wireless sensor is required to be installed when tire pressure detection is carried out on a vehicle tire, and button batteries are generally required to supply power to the wireless sensor wires. But button cell power supply time is shorter, needs frequent change, has increased vehicle maintenance cost, brings inconvenient problem for the user.

The technical scheme of the invention is as follows: including the power generation facility body, the power generation facility body is including vertical vibrating device, vertical vibrating device is including first casing, a plurality of first mounting groove has been seted up on the first casing, a plurality of the inside of first mounting groove is twined respectively and is had first outer magnetic induction coil, the outside intermediate fixed connection installation cover of first casing, the both sides and the front and back end of installation cover are provided with multi-direction vibrating device respectively, four multi-direction vibrating device with be provided with the installation part between the installation cover respectively, first holding tank has been seted up to the inside of first casing, be provided with the magnetic bead in the middle of the inside of first holding tank, the upper and lower both sides of first holding tank are fixedly connected with first permanent magnet respectively, two first permanent magnet all with the magnetic bead all has the repulsion nature.

Further, the upper and lower both ends of magnetic bead are fixedly connected with deflector respectively, two the deflector is kept away from each other one side both ends are fixedly connected with first spring respectively, two liang the other end of first spring respectively with upper and lower extreme both sides fixed connection of first holding tank.

Further, the side wall of the first accommodating groove is sleeved with an inner magnetic induction coil.

Further, the plurality of first outer magnetic induction coils are communicated with two power supply ends.

Further, the four multidirectional vibrating devices comprise second shells, second mounting grooves are formed in the second shells, and second outer magnetic induction coils are sleeved in the second mounting grooves.

Further, the second holding groove has been seted up to the inside of second casing, the both sides of second holding groove are fixedly connected with guide block respectively, and two the guide groove has been seted up respectively to one side that the guide block is close to each other, be provided with the magnetic path in the middle of the inside of second holding groove, the both sides of magnetic path are fixedly connected with slider respectively, two the slider respectively with two guide groove sliding connection.

Further, the two sides of the inside of the second accommodating groove are fixedly connected with second permanent magnets respectively, and the two second permanent magnets and the magnetic blocks have repulsion.

Further, four the installation component including with the front and back of installation cover and the equal fixedly connected with mounting panel of left and right sides, four the second casing is close to four respectively the one side both ends fixedly connected with inserted block of mounting panel, four the mounting panel is close to four respectively the slot has been seted up at one side both ends of second casing, two liang the inserted block respectively with two liang the slot grafting.

Further, the two-by-two plug blocks are respectively provided with a first communication hole, the four mounting plates are respectively provided with a second communication hole, and the two-by-two first communication holes are respectively communicated with the four second communication holes.

Further, four one sides of mounting panel are provided with the dead lever respectively, four the dead lever passes four respectively the second intercommunicating pore and two liang first communication hole is worn out from the opposite side, four the dead lever both sides respectively threaded connection have the fastening cover, two liang the fastening cover is located four the both sides of mounting panel respectively.

The invention provides an electromagnetic vibration power generation device of a magnet through improvement, which has the following improvement and advantages compared with the prior art:

the invention is convenient to convert the vibration force from multiple directions by arranging the vertical vibration device and the four vibration devices in multiple directions, avoids single vertical power conversion, and forms the permanent magnet spring formed by two annular permanent magnets magnetized in the axial direction by arranging the first permanent magnet, the second permanent magnet, the magnetic beads and the magnetic blocks at two ends, and the working characteristic of the permanent magnet spring is close to that of an actual spring, and the fatigue resistance is far higher than that of a mechanical spring. Compared with a mechanical spring, the permanent magnet spring has the advantages of large elasticity, no friction, no heat generation, no noise, stable performance and long service life, so that the moving permanent magnet is prevented from mechanical stretching and collision in the moving process, when vibration is generated, the magnetic beads and the magnetic blocks are close to the first permanent magnet and the second permanent magnet on one side, and due to repulsion, the first permanent magnet and the second permanent magnet repel each other when the magnetic beads and the magnetic blocks are close to each other, so that the magnetic beads and the magnetic blocks move to the other side, vibration is generated, a magnetic field is generated, the magnetic flux of the induction coil is changed, induction current is induced, and induction voltage is output through a power end.

Drawings

The invention is further explained below with reference to the drawings and examples:

FIG. 1 is a schematic diagram showing the structure of a vertical vibration device in an electromagnetic vibration power generation device of a magnet according to the present invention;

FIG. 2 is a schematic diagram of the internal structure of the vertical vibration device of the present invention in front view;

FIG. 3 is a schematic view of the structure of the vertical vibration device of the present invention after the device is horizontally placed and the multidirectional vibration device is installed;

FIG. 4 is a schematic cross-sectional view of the vertical vibration device of the present invention after the device is laterally placed and the multidirectional vibration device is installed;

FIG. 5 is an enlarged schematic view of the structure of FIG. 2A according to the present invention;

FIG. 6 is an enlarged schematic view of the structure of FIG. 4B according to the present invention;

FIG. 7 is a schematic view of the structure of FIG. 4 at C in accordance with the present invention;

fig. 8 is a schematic top view of a multidirectional vibration apparatus according to the present invention.

Reference numerals illustrate: 1. a power generation device body; 2. a first housing; 3. a first mounting groove; 4. a first outer magnetic induction coil; 5. a mounting sleeve; 6. a first accommodation groove; 7. magnetic beads; 8. a guide plate; 9. a first spring; 10. an inner magnetic induction coil; 11. a first permanent magnet; 13. a power supply terminal; 14. a multidirectional vibration device; 15. a mounting member; 16. a second housing; 17. a second outer magnetic induction coil; 18. a second accommodation groove; 19. a guide block; 20. a guide groove; 21. a second permanent magnet; 22. a magnetic block; 23. a slide block; 24. a vertical vibration device; 25. a second mounting groove; 26. a mounting plate; 27. inserting blocks; 28. a slot; 29. a first communication hole; 30. a second communication hole; 31. a fixed rod; 32. fastening sleeve

Detailed Description

The following detailed description of the present invention will provide clear and complete description of the technical solutions of the embodiments of the present invention, with reference to fig. 1 to 8, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention provides an electromagnetic vibration power generation device of a magnet through improvement, as shown in fig. 1-8, the electromagnetic vibration power generation device comprises a power generation device body 1, the power generation device body 1 comprises a vertical vibration device 24, the vertical vibration device 24 comprises a first shell 2, a plurality of first mounting grooves 3 are formed in the first shell 2, first outer magnetic induction coils 4 are respectively wound in the first mounting grooves 3, a mounting sleeve 5 is fixedly connected to the middle of the outer part of the first shell 2, mounting parts 15 are respectively arranged between the four multidirectional vibration devices 14 and the mounting sleeve 5, first containing grooves 6 are formed in the first shell 2, magnetic beads 7 are arranged in the middle of the first containing grooves 6, first permanent magnets 11 are respectively fixedly connected to the upper side and the lower side of the first containing grooves 6, the two first permanent magnets 11 and the magnetic beads 7 are mutually identical, the two multidirectional vibration devices 14 are arranged through the arrangement of the vertical vibration device 24 and the four multidirectional vibration devices, conversion of vibration forces from multiple directions is facilitated, the single vertical power is avoided, the two permanent magnets are respectively arranged between the two sides of the mounting sleeve 5 and the mounting parts 15, the two permanent magnets are close to the two permanent magnets are arranged at the two ends of the two permanent magnets are close to the two ends of the permanent magnets which are in the magnetic fatigue resistance, and the permanent magnets are formed by the two permanent magnets are close to the practical magnetic springs, and the two permanent magnets are arranged, and the two permanent magnets are close to the permanent magnets are in the magnetic springs are high in the magnetic strength, and have the magnetic fatigue resistance properties, and the magnetic strength are formed by the two permanent springs are practical springs, and have the magnetic strength and the permanent springs are high magnetic strength. Compared with a mechanical spring, the permanent magnet spring has the advantages of large elasticity, no friction, no heat generation, no noise, stable performance and long service life, so that the moving permanent magnet is prevented from mechanical stretching and collision in the moving process, when vibration is generated, the magnetic beads 7 and the magnetic blocks 22 are close to the first permanent magnet 11 and the second permanent magnet 21 on one side, and due to repulsion, when the magnetic beads are close to the first permanent magnet 11 and the second permanent magnet 21, the magnetic beads 7 and the magnetic blocks 22 are moved to the other side, so that vibration is generated.

Preferably, the first casing 2 and the second casing 16 are made of non-electromagnetic conductive materials, so that electromagnetic interference to the induction coil can be reduced, efficiency of converting vibration energy of the magnetic beads 7 and the magnetic blocks 22 into electric energy is improved, the magnetic beads 7 and the magnetic blocks 22 are permanent rubidium-iron-boron magnets, and the permanent rubidium-iron-boron magnets can keep magnetism for a long time without frequent replacement.

The upper end and the lower end of the magnetic bead 7 are fixedly connected with guide plates 8 respectively, one side two ends, away from each other, of the two guide plates 8 are fixedly connected with first springs 9 respectively, the other ends of the two first springs 9 are fixedly connected with the two sides of the upper end and the lower end of the first accommodating groove 6 respectively, and the magnetic bead 7 is guided in the moving direction by installing the first springs 9.

The side wall of the first accommodating groove 6 is sleeved with an inner magnetic induction coil 10.

The plurality of first outer magnetic induction coils 4 are communicated with two power supply ends 13, and induced voltage is output through the power supply ends 13.

The four multidirectional vibrating devices 14 all comprise a second shell 16, a second installation groove 25 is formed in the second shell 16, a second outer magnetic induction coil 17 is sleeved in the second installation groove 25 to generate a magnetic field, the magnetic flux of the induction coils changes, and therefore induction current is generated in an induction mode, and induction voltage is output through the power end 13.

The second holding groove 18 has been seted up to the inside of second casing 16, the both sides of second holding groove 18 are fixedly connected with guide block 19 respectively, guide groove 20 has been seted up respectively to one side that two guide blocks 19 are close to each other, be provided with magnetic path 22 in the middle of the inside of second holding groove 18, the both sides of magnetic path 22 are fixedly connected with slider 23 respectively, two slider 23 respectively with two guide grooves 20 sliding connection, when magnetic path 22 moves, slider 23 slides in guide groove 20, carry out the direction spacing for the direction of movement of magnetic path 22, make it move towards specific direction, avoid the collision noise.

The second permanent magnets 21 are fixedly connected to two sides of the inside of the second accommodating groove 18 respectively, the two second permanent magnets 21 and the magnetic block 22 have repulsion, when vibration is generated, the magnetic beads 7 and the magnetic block 22 approach to the first permanent magnet 11 and the second permanent magnet 21 on one side, and when approaching, the first permanent magnet 11 and the second permanent magnet 21 repel due to the repulsion, so that the magnetic beads 7 and the magnetic block 22 move to the other side again, and vibration is generated.

The four mounting components 15 comprise mounting plates 26 fixedly connected with the front side, the rear side, the left side and the right side of the mounting sleeve 5, inserting blocks 27 are fixedly connected with two ends of one side, close to the four mounting plates 26, of the four second shells 16 respectively, inserting grooves 28 are formed in two ends, close to one side, of the four second shells 16, of the four mounting plates 26 respectively, the inserting blocks 27 are inserted into the inserting grooves 28 in two pairs respectively, and therefore the multidirectional vibrating device 14 can be mounted conveniently, and preliminary mounting and positioning are carried out.

The two-by-two inserting blocks 27 are respectively provided with a first communication hole 29, the four mounting plates 26 are respectively provided with a second communication hole 30, the two-by-two first communication holes 29 are respectively communicated with the four second communication holes 30, so that a subsequent fixing rod 31 can penetrate through conveniently, and the inserting blocks 27 are inserted into the slots 28 to be limited and fixed.

One side of four mounting panels 26 is provided with dead lever 31 respectively, four dead levers 31 pass four second intercommunicating pore 30 respectively and two liang first intercommunicating pore 29 are worn out from the opposite side, four dead lever 31 both sides respectively threaded connection have the adapter sleeve 32, two liang of adapter sleeves 32 are located the both sides of four mounting panels 26 respectively, through inserting the inserted block 27 inside slot 28, make first intercommunicating pore 29 and second intercommunicating pore 30 correspond, pass dead lever 31 first intercommunicating pore 29 and second intercommunicating pore 30, in the both sides threaded connection adapter sleeve 32 of dead lever 31, be convenient for install multi-direction vibrating device 14, the same reason also convenient to detach.

Working principle: firstly, whether the multidirectional vibration device 14 is installed or not is selected according to the use condition, or whether a plurality of multidirectional vibration devices 14 are installed, the insertion block 27 is inserted into the insertion groove 28, the first communication hole 29 and the second communication hole 30 are corresponding, the fixing rod 31 passes through the first communication hole 29 and the second communication hole 30, the fastening sleeve 32 is connected with the two sides of the fixing rod 31 in a threaded mode, the multidirectional vibration devices 14 are convenient to install and convenient to detach in the same way, a permanent magnet spring formed by the two annular permanent magnets with two ends, namely the first permanent magnet 11, the second permanent magnet 21, the magnetic bead 7 and the magnetic block 22 is arranged, when vibration is generated, the magnetic bead 7 and the magnetic block 22 are close to the first permanent magnet 11 and the second permanent magnet 21 on one side, and the first permanent magnet 11 and the second permanent magnet 21 repel each other when the magnetic bead 7 and the magnetic block 22 are close to each other, so that the magnetic bead 7 and the magnetic block 22 move to the other, and a magnetic field is generated, the magnetic flux of the induction coil is changed, and induction current is induced, and induction voltage is output through the power end 13.

The invention is convenient for converting the vibration force from multiple directions by arranging the vertical vibration device 24 and the four multidirectional vibration devices 14, avoids single vertical power conversion, and forms a permanent magnet spring formed by two annular permanent magnets which are magnetized in the axial direction by arranging the first permanent magnet 11, the second permanent magnet 21, the magnetic beads 7 and the magnetic blocks 22 at two ends, wherein the working characteristic of the permanent magnet spring is close to that of an actual spring, and the fatigue resistance is far higher than that of a mechanical spring. Compared with a mechanical spring, the permanent magnet spring has the advantages of large elasticity, no friction, no heat generation, no noise, stable performance and long service life, so that the moving permanent magnet is prevented from mechanical stretching and collision in the moving process, when vibration is generated, the magnetic beads 7 and the magnetic blocks 22 are close to the first permanent magnet 11 and the second permanent magnet 21 on one side, and due to repulsion, when the magnetic beads are close to the first permanent magnet 11 and the second permanent magnet 21, the magnetic beads 7 and the magnetic blocks 22 are repelled, and move to the other side, so that vibration is generated, a magnetic field is generated, the magnetic flux of the induction coil is changed, induction current is induced, and induction voltage is output through the power end 13.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. An electromagnetic vibration power generation device of a magnet is characterized in that: including power generation facility body (1), power generation facility body (1) is including vertical vibrating device (24), vertical vibrating device (24) are including first casing (2), a plurality of first mounting groove (3) have been seted up on first casing (2), a plurality of the inside of first mounting groove (3) is wound respectively has first outer magnetic induction coil (4), fixed connection installation cover (5) in the middle of the outside of first casing (2), both sides and the front and back end of installation cover (5) are provided with multi-direction vibrating device (14) respectively, four multi-direction vibrating device (14) with be provided with mounting part (15) between installation cover (5) respectively, first holding groove (6) have been seted up to the inside of first casing (2), be provided with magnetic bead (7) in the middle of the inside of first holding groove (6), the upper and lower both sides of first holding groove (6) are fixedly connected with first permanent magnet (11) respectively, two first permanent magnet (11) all with magnetic bead (7) all have.

2. The electromagnetic vibration power generation device for a magnet according to claim 1, wherein: the magnetic bead comprises magnetic beads (7), wherein guide plates (8) are fixedly connected to the upper end and the lower end of the magnetic beads respectively, first springs (9) are fixedly connected to the two ends of one side, away from each other, of each guide plate (8), and the other ends of the first springs (9) are fixedly connected to the two sides of the upper end and the lower end of the first accommodating groove (6) respectively.

3. The electromagnetic vibration power generation device for a magnet according to claim 1, wherein: an inner magnetic induction coil (10) is sleeved on the side wall of the first accommodating groove (6).

4. The electromagnetic vibration power generation device for a magnet according to claim 1, wherein: the plurality of first outer magnetic induction coils (4) are communicated with two power supply ends (13).

5. The electromagnetic vibration power generation device for a magnet according to claim 1, wherein: the four multidirectional vibrating devices (14) comprise a second shell (16), a second mounting groove (25) is formed in the second shell (16), and a second outer magnetic induction coil (17) is sleeved in the second mounting groove (25).

6. The electromagnetic vibration power generation device for a magnet according to claim 5, wherein: the inside of second casing (16) has seted up second holding tank (18), the both sides of second holding tank (18) are fixedly connected with guide block (19) respectively, two guide block (19) are close to one side of each other and have been seted up guide slot (20) respectively, be provided with magnetic path (22) in the middle of the inside of second holding tank (18), the both sides of magnetic path (22) are fixedly connected with slider (23) respectively, two slider (23) respectively with two guide slot (20) sliding connection.

7. The electromagnetic vibration power generation device for a magnet according to claim 6, wherein: second permanent magnets (21) are fixedly connected to two sides of the inside of the second accommodating groove (18), and the two second permanent magnets (21) and the magnetic blocks (22) are repulsive.

8. The electromagnetic vibration power generation device for a magnet according to claim 7, wherein: the four installation components (15) comprise installation plates (26) fixedly connected with the front side, the rear side, the left side and the right side of the installation sleeve (5), the four second shells (16) are respectively close to the four installation plates (26), inserting blocks (27) are fixedly connected with one side two ends of the installation plates (26), the four installation plates (26) are respectively close to the four second shells (16), inserting grooves (28) are formed in one side two ends of the installation plates (26), and the inserting blocks (27) are respectively inserted into the inserting grooves (28) in pairs.

9. The electromagnetic vibration power generation device for a magnet according to claim 8, wherein: the two-to-two inserting blocks (27) are respectively provided with a first communication hole (29), the four mounting plates (26) are respectively provided with a second communication hole (30), and the two-to-two first communication holes (29) are respectively communicated with the four second communication holes (30).

10. The electromagnetic vibration power generation device for a magnet according to claim 9, wherein: one side of four mounting panel (26) is provided with dead lever (31) respectively, four dead lever (31) pass four respectively second intercommunicating pore (30) and two liang first communication hole (29) are worn out from the opposite side, four dead lever (31) both sides are threaded connection respectively have fastening cover (32), two liang fastening cover (32) are located four both sides of mounting panel (26) respectively.