CN218678792U - Ground vibrating magnetoelectric interaction power generation device - Google Patents

Abstract

A ground vibration type magnetoelectricity interaction power generation device comprises vibration plates, wherein supporting structures are respectively arranged below two ends of the cross section of each vibration plate, a vibration magnetoelectricity interaction power generation module is arranged below each vibration plate between the supporting structures, each vibration magnetoelectricity interaction power generation module is provided with a vibration rotor, each vibration rotor is a vertically arranged magnetic cylinder, a first elastic piece is fixed at the upper end of each vibration rotor, the upper end of each first elastic piece is fixedly connected with the bottom surface of a vibration base plate, and the vibration base plates are fixed on the lower surfaces of the vibration plates; a second elastic piece is fixed at the lower end of the vibrating rotor, the lower end of the second elastic piece is fixed on a bottom base plate, and the bottom base plate is arranged on an external supporting surface; a plurality of induction coils are respectively wound on two sides of the vibration rotor, the induction coils are connected in series/parallel to form an induction loop, two poles of the induction loop are respectively connected to two input connecting ends of a rectification loop, and the output end of the rectification loop is connected to energy storage equipment. The utility model discloses can effectively utilize the kinetic energy potential energy of the object of subaerial process to turn into the electric energy.

Description

Ground vibrating magnetoelectricity interaction power generation device

Technical Field

The utility model relates to a power generation technology especially relates to a ground vibrating magnetoelectric interaction power generation facility.

Background

At present, people's life can not be away from electricity, and the operation of daily equipment, network, instrument, even toy is supported to electric power, and electricity becomes the necessary goods and materials that people rely on for survival. The electric energy is utilized in various ways and needs are various, high-voltage electricity and low-voltage electricity respectively provide different production and living purposes for people, generally, 220V low-voltage electricity is basically used in family life, and a power supply with lower voltage is used for mobile phones, small toys and other tools. In a general living scene, people can obtain low-voltage electric energy through various modes, such as solar power generation and the like, but for some conventional mechanical energy, better conversion utilization cannot be realized. Particularly, in some specific road sections on a motor vehicle road or at some toll intersections, as a speed bump or a ground scale is arranged on the ground, certain vibration can be generated when a vehicle runs, but no targeted energy collecting device is provided, and the energy of the vibration is not well collected.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide a ground vibrating magnetoelectric interaction power generation facility, can effectively utilize the potential energy of the object of subaerial process to turn into the electric energy.

The technical solution of the utility model is that:

a ground vibration type magnetoelectricity interaction generating device comprises a vibration plate, wherein supporting structures are respectively arranged below two ends of the cross section of the vibration plate, a vibration magnetoelectricity interaction generating module is arranged below the vibration plate between the supporting structures,

the vibration magnetoelectric interaction power generation module is provided with a vibration rotor, the vibration rotor is a vertically arranged magnetic cylinder, the upper end of the vibration rotor is fixedly provided with a first elastic part, the upper end of the first elastic part is fixedly connected with the bottom surface of a vibration base plate, and the vibration base plate is fixed on the lower surface of the vibration plate; a second elastic piece is fixed at the lower end of the vibration rotor, the lower end of the second elastic piece is fixed on a bottom base plate, and the bottom base plate is arranged on an external supporting surface;

the vibration rotor is characterized in that a plurality of induction coils are respectively wound on two sides of the vibration rotor, the induction coils are connected in series/in parallel to form an induction loop, two poles of the induction loop are respectively connected to two input connecting ends of a rectification loop, and the output end of the rectification loop is connected to energy storage equipment.

The ground vibrating type magnetoelectric interaction generating device is characterized in that the supporting structure is provided with a third elastic part, and the top of the third elastic part supports two ends of the vibrating plate.

In the above ground vibration type magnetoelectric interaction power generation device, each of the induction coils is provided with a magnetic core in a penetrating manner, and the coils on two sides of the vibration rotor are correspondingly arranged.

The ground vibrating magnetoelectric interaction generating device comprises a vibrating rotor, wherein the vibrating rotor is provided with a plurality of induction coils, each induction coil is fixed on the side surface of the vibrating rotor through an insulating fixing frame, two ends of the vibrating rotor are respectively sleeved with an insulating limiting tube, the insulating limiting tubes are respectively fixed on the bottom surface of a vibrating base plate and the upper surface of a bottom base plate, and the distance between the two insulating limiting tubes is smaller than the length of the vibrating rotor.

The ground vibration type magnetoelectric interaction generating device comprises a vibration rotor, wherein the periphery of the vibration rotor is provided with an annular insulating fixing frame, and a plurality of groups of induction coils are symmetrically distributed on the insulating fixing frame by taking the vibration rotor as a central shaft.

The ground vibration type magnetoelectric interaction generating device comprises a vibration plate, a plurality of vibration magnetoelectric interaction generating modules, a plurality of electromagnetic interaction generating modules and a power supply, wherein the plurality of vibration magnetoelectric interaction generating modules are arranged in parallel below the vibration plate along the length extension direction of the vibration plate; the vibration magnetoelectric interaction power generation modules are connected in parallel, and the output end of each vibration magnetoelectric interaction module is connected to energy storage equipment respectively.

From the above description, the present invention can achieve the following effects in comparison with the prior art:

the utility model discloses a ground vibrating magnetoelectricity interaction power generation facility for install on ground, through vehicle or pedestrian that pass by behind the vibration board, the vibration board bulldozes via the elastic component vibration active cell makes the vibration active cell make a round trip to vibrate between first elastic component and second elastic component, thereby cuts the magnetic line of force around the both ends induction coil, makes and produces induced-current in the induction coil. And the induced current is rectified by the rectifying circuit and then is output outwards, and the induced current is charged to the energy storage equipment to store electric energy or is directly provided to the electric equipment needing power utilization. The utility model discloses a design benefit for install the ground position that has vehicle or personnel to pass through, can effectively utilized subaerial vehicle and the personnel's of process potential energy, and turn into the electric energy with it, and store up, be used for other consumer.

Drawings

Fig. 1 is a schematic cross-sectional view of a preferred embodiment of the present invention.

Main element number description:

the utility model discloses:

1: the vibrating plate 2: vibration magnetoelectric interaction power generation module 3: third elastic member

4: the support structure 5: the vibration mover 6: vibrating backing plate

7: first elastic member 8: second elastic member 9: base substrate

10: the induction coil 11: magnetic core

Detailed Description

In order to clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will be described with reference to the accompanying drawings.

The utility model provides a ground vibrating magnetoelectric interaction power generation facility, its preferred embodiment, please refer to fig. 1, the bottom surface vibrating magnetoelectric interaction power generation facility of the invention includes vibration board 1, the both ends below of the cross section of vibration board 1 is equipped with bearing structure 4 respectively, vibration board 1 below between bearing structure 4 is equipped with vibration magnetoelectric interaction power generation module 2. The vibrating plate 1 is a long-strip transverse plate, the two sides of the vibrating plate 1 are provided with the supporting structures 4, the vibrating plate 1 is jacked up, a long-strip accommodating space is formed below the vibrating plate 1, the vibrating plate is similar to a buffer strip on a road, and the vibrating magnetoelectric interaction power generation module 2 can be placed in the accommodating space, so that the vibrating plate 1 can be extruded and displaced downwards through treading and extruding the vibrating plate 1 back and forth, and then rebounded and recovered action is performed; the vibration magnetoelectric interaction power generation module 2 acting to the lower part generates power by utilizing the action of up-and-down vibration to generate electric energy.

The vibration magnetoelectric interaction power generation module 2 is provided with a vibration rotor 5, the vibration rotor 5 is a vertically arranged magnetic cylinder, the upper end of the vibration rotor 5 is fixedly provided with a first elastic part 7, the upper end of the first elastic part 7 is fixedly connected with the bottom surface of a vibration base plate 6, and the vibration base plate 6 is fixed on the lower surface of the vibration plate 1; a second elastic part 8 is fixed at the lower end of the vibrating rotor 5, the lower end of the second elastic part 8 is fixed on a bottom substrate 9, and the bottom substrate 9 is arranged on an external supporting surface; preferably, the vibrating mover 5 is fixed below the vibrating plate 1 via two upper and lower elastic members, and the vibrating mover 5 is driven by the vibrating plate 1 and moves back and forth in the vertical direction by the reciprocating resilient motion of the elastic members. Preferably, as shown in the figure, the lines of the induction coils are connected, the number of the induction coils and the surrounding manner thereof are only schematically shown, and the induction coils can be connected together in a conventional series or parallel manner, and finally output to a rectifying circuit, and then output the rectified current and voltage to the energy storage device.

A plurality of induction coils 10 are respectively wound on two sides of the vibration rotor 5, the induction coils 10 are connected in series/parallel to form an induction loop, two poles of the induction loop are respectively connected to two input connecting ends of a rectification loop, and the output end of the rectification loop is connected to energy storage equipment. Preferably, the vibrating mover 5 reciprocates up and down, so that the surrounding induction coil 10 generates an induction current in an induction loop of the induction coil 10 through a magnetic field cutting motion between the vibrating mover 5, and the induction current is processed by the rectifying circuit to output a stable voltage to charge the energy storage device or directly supply power to the electric equipment.

As described above, in the preferred embodiment of the ground vibration type magnetoelectric interaction generating device of the present invention, the supporting structure 4 is provided with the third elastic element 3, and the top of the third elastic element 3 supports the two ends of the vibrating plate 1. As shown in the figure, the third elastic member 3 is disposed below two sides of the vibrating plate 1, so that the vehicle or other objects above the vibrating plate can have better resilience performance after being pressed down, and the first elastic member 7 and the second elastic member 8 below the vibrating plate can be also driven, and have stronger driving force for reciprocating motion, so as to generate more electric energy.

As described above, in the preferred embodiment of the ground vibration type magnetoelectric interaction generating device of the present invention, the magnetic core 11 is inserted through each of the induction coils 10, and the coils on both sides of the vibration rotor 5 are correspondingly disposed. As shown in the figure, preferably, a magnetic core 11 is disposed in the induction coil 10, and the magnetic field intensity is increased by the reinforcing effect of the magnetic core 11, so that the magnetic field change around the coil is enhanced, and the induced current in the induction coil 10 is increased.

As described above in the present invention, in the preferred embodiment of the ground vibration type magnetoelectric interaction generating device, each of the induction coils 10 is fixed to the side of the vibration rotor 5 via an insulating fixing frame, the two ends of the vibration rotor 5 are respectively sleeved with an insulating limiting tube, the insulating limiting tubes are respectively fixed to the bottom surface of the vibration base plate 6 and the upper surface of the bottom substrate 9, and the distance between the insulating limiting tubes is smaller than the length of the vibration rotor 5. The induction coil 10 is fixed on two opposite side surfaces of the vibrating rotor 5 through a fixing frame; the two ends of the vibration rotor 5 are respectively provided with an insulating limiting pipe, and the vibration rotor 5 can keep reciprocating motion in the same vertical direction and cannot be separated through the limitation of the insulating limiting pipes.

As described above, in the preferred embodiment of the ground vibration type magnetoelectric interaction generating device of the present invention, the periphery of the vibration rotor 5 is provided with an annular insulating fixing frame, and the insulating fixing frame is provided with a plurality of groups of induction coils 10 symmetrically distributed respectively with the vibration rotor as a central axis. Preferably, by using the annular insulating fixing frame, more sets of induction coils 10 arranged oppositely can be arranged around the vibrating rotor 5 to form a surrounding induction coil 10 stator structure, so as to increase the number of induction coils 10 and increase the total amount of generated induction current.

In the above-mentioned ground vibration type magnetoelectric interaction generating device of the present invention, in a preferred embodiment of the ground vibration type magnetoelectric interaction generating device, a plurality of the vibration magnetoelectric interaction generating modules 2 are arranged in parallel below the vibration plate 1 along the length extending direction of the vibration plate 1; the vibration magnetoelectric interaction power generation modules 2 are arranged in parallel, and the output ends of the vibration magnetoelectric interaction modules are respectively connected to energy storage equipment. Preferably, a tubular accommodating space is formed below the vibrating plate 1 along the extending direction of the vibrating plate 1, and the vibrating magnetoelectric interaction power generation modules 2 are arranged in parallel in the length direction, so that kinetic energy above the vibrating plate can be acquired in a larger range and converted into electric energy. Increased the utility model discloses a power generation weight provides the consumer power consumption or energy storage equipment better and charges.

The utility model discloses a ground vibrating magnetoelectric interaction power generation facility for install on ground, through vehicle or pedestrian that pass by behind vibration board 1, vibration board 1 bulldozes via the elastic component vibration active cell 5 makes vibration active cell 5 make a round trip to vibrate between first elastic component 7 and second elastic component 8, thereby cuts the magnetic line of force around the induction coil 10 in both ends, makes and produces induced-current in the induction coil 10. And the induced current is rectified by the rectifying circuit and then is output outwards, and the induced current is charged to the energy storage equipment to store electric energy or is directly provided to the electric equipment needing power utilization. The utility model discloses a design benefit for install the ground position that has vehicle or personnel to pass through, can effectively utilized subaerial vehicle and the personnel's of process potential energy, and turn into the electric energy with it, and store up, be used for other consumer.

The above description is only exemplary of the present invention, and is not intended to limit the scope of the present invention. Any person skilled in the art should also realize that such equivalent changes and modifications can be made without departing from the spirit and principles of the present invention.

Claims (6)

1. A ground vibration type magnetoelectricity interaction generating device is characterized by comprising vibration plates, wherein supporting structures are respectively arranged below two ends of the cross section of each vibration plate, a vibration magnetoelectricity interaction generating module is arranged below the vibration plates among the supporting structures,

the vibration magnetoelectricity interaction power generation module is provided with a vibration rotor, the vibration rotor is a vertically arranged magnetic cylinder, a first elastic piece is fixed at the upper end of the vibration rotor, the upper end of the first elastic piece is fixedly connected with the bottom surface of a vibration base plate, and the vibration base plate is fixed on the lower surface of a vibration plate; a second elastic piece is fixed at the lower end of the vibration rotor, the lower end of the second elastic piece is fixed on a bottom base plate, and the bottom base plate is arranged on an external supporting surface;

the vibration rotor is characterized in that a plurality of induction coils are respectively wound on two sides of the vibration rotor, the induction coils are connected in series/in parallel to form an induction loop, two poles of the induction loop are respectively connected to two input connecting ends of a rectification loop, and the output end of the rectification loop is connected to energy storage equipment.

2. The ground vibrating magnetoelectric interaction generating device according to claim 1, wherein a third elastic member is provided on the support structure, and a top of the third elastic member supports both ends of the vibrating plate.

3. The ground vibration type magnetoelectric interaction generating device according to claim 2, wherein a magnetic core is provided through each of the induction coils, and coils on both sides of the vibrating mover are disposed correspondingly.

4. The ground vibration type magnetoelectric interaction power generation device according to claim 3, wherein each of the induction coils is fixed to the side surface of the vibration mover via an insulating fixing frame, both ends of the vibration mover are respectively sleeved with an insulating limit tube, the insulating limit tubes are respectively fixed to the bottom surface of the vibration base plate and the upper surface of the bottom base plate, and a distance between the two insulating limit tubes is smaller than a length of the vibration mover.

5. The ground vibration type magnetoelectric interaction generating device according to claim 4, wherein a ring-shaped insulating fixing frame is provided at a periphery of the vibrating rotor, and a plurality of groups of induction coils are symmetrically distributed on the insulating fixing frame respectively with the vibrating rotor as a central axis.

6. The ground vibrating magnetoelectric interaction generating device according to claim 5, wherein a plurality of the vibrating magnetoelectric interaction generating modules are arranged in parallel below the vibrating plate along the length extension direction of the vibrating plate; the vibration magnetoelectric interaction power generation modules are connected in parallel, and the output end of each vibration magnetoelectric interaction module is connected to energy storage equipment respectively.

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