CN209860733U - Generator structure capable of reducing input kinetic energy - Google Patents

Abstract

The utility model relates to a reduce generator structure of input kinetic energy, including frame, power supply, power pivot, magnet rotor dish and magnetic resistance switching mechanism, the power pivot sets up in the frame, the power supply sets up the one end in the power pivot, the magnet rotor dish is fixed in the power pivot, the magnetic resistance switching mechanism sets up in the power pivot, the magnetic resistance switching mechanism drives the rotational speed of power pivot when the power pivot drives the decline of magnet rotor dish rotational speed and obtains promoting. The utility model has the advantages of reasonable design, through the magnetic resistance mechanism conversion back, obtain promoting when making the motive power rotational speed descend, greatly reduced the power of generator input, the utility model discloses an utilize the coil to induce the magnetic field resistance that the electric current produced and pass through the mechanism conversion back and drive the power shaft again, very big reduction the consumption of power supply, accomplish the purpose of the energy can be saved.

Description

Generator structure capable of reducing input kinetic energy

Technical Field

The utility model belongs to the technical field of the electricity generation, concretely relates to reduce generator structure of input kinetic energy.

Background

The generator currently used by us, regardless of the type, presents a resistance (lenz's law) generated by the load current, i.e. the magnetic field generated by the coil induced current always hinders the rotation of the rotor equipped with magnets. Many power generation source structures are researched and designed for years, and although partial induced current resistance is eliminated, the technical problem of mutual interference between a magnetic field generated by induced current and a magnetic field between a rotor provided with magnets is fundamentally solved, so that the kinetic energy consumption is higher when the load current is higher. The utility model discloses just utilize the magnetic field resistance that coil induced current produced to pass through the mechanism conversion back and drive the power shaft again, very big reduction the consumption of power supply, accomplish the purpose of the energy can be saved.

Disclosure of Invention

In view of this, the present invention provides a generator structure for reducing input kinetic energy, which aims to reduce the consumption of power source.

In order to achieve the purpose, the technical scheme is as follows:

a generator structure for reducing input kinetic energy comprises a rack, a power source, a power rotating shaft, a magnet rotor disc, a coil turntable and a magnetic resistance switching mechanism, wherein the power rotating shaft is arranged on the rack, the power source is arranged at one end of the power rotating shaft, the magnet rotor disc, the coil turntable and the magnetic resistance switching mechanism are arranged on the power rotating shaft, the planes of the magnet rotor disc, the coil turntable and the magnetic resistance switching mechanism are parallel, the magnet rotor disc is a permanent magnet rotor disc, the magnet rotor disc is fixed on the power rotating shaft, a plurality of coils are arranged on the coil turntable, the coil turntable is arranged on the power rotating shaft through a first bearing, the magnetic resistance switching mechanism comprises a rotating disc, a plurality of rotating gears, a fixed gear and a power shaft one-way gear, the fixed gear is arranged on the rack, and the fixed gear is an inner gear, the axle center of fixed tooth is in on the axis of power pivot, power axle one-way gear sets up in the power pivot, just power axle one-way gear with fixed tooth is coaxial, the rotary disk passes through the second bearing and sets up in the power pivot, rotary gear passes through the pivot setting and is in on the rotary disk, rotary gear with fixed tooth with power axle one-way gear meshes simultaneously, the rotary disk is connected with the one end of a connecting axle, the other end of connecting axle with the coil carousel is connected.

Preferably, the one-way gear of power shaft replaces with one-way bearing mechanism, one-way bearing mechanism includes one-way bearing and outer ring gear, outer ring gear sets up with the axle center on the one-way bearing outer periphery, outer ring gear with the rotating gear meshing, one-way bearing passes through the round pin setting and is in on the power shaft.

The utility model has the advantages that: the utility model has the advantages of reasonable design, through the magnetic resistance mechanism conversion back, obtain promoting when making the motive power rotational speed descend, greatly reduced the power of generator input, the utility model discloses an utilize the coil to induce the magnetic field resistance that the electric current produced and pass through the mechanism conversion back and drive the power shaft again, very big reduction the consumption of power supply, accomplish the purpose of the energy can be saved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. In the drawings:

fig. 1 is a schematic structural diagram of a first embodiment of the present invention;

FIG. 2 is a schematic diagram of the configuration of FIG. 1 involving a reluctance switching mechanism;

FIG. 3 is a schematic structural view of the power shaft unidirectional gear of FIG. 2;

fig. 4 is a schematic structural view of a one-way gear according to a first embodiment of the present invention;

fig. 5 is a schematic structural diagram of a second embodiment of the present invention;

fig. 6 is a schematic diagram of the structure of the magnetic resistance conversion mechanism in fig. 5.

Fig. 7 is a schematic structural diagram of a third embodiment of the present invention;

fig. 8 is a schematic view of the structure of fig. 7 relating to a rotary gear, a transmission wheel, a fixed gear and a one-way bearing.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only partial embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Example one

As shown in fig. 1, a generator structure for reducing input kinetic energy comprises a frame 1, a power source 2, a power rotating shaft 3, a magnet rotor disc 4, a coil rotor disc 5 and a magnetic resistance switching mechanism 6, wherein the power rotating shaft 3 is arranged on the frame 1, the power source 2 is arranged at one end of the power rotating shaft 3, the magnet rotor disc 4, the coil rotor disc 5 and the magnetic resistance switching mechanism 6 are arranged on the power rotating shaft 3, and planes where the magnet rotor disc 4, the coil rotor disc 5 and the magnetic resistance switching mechanism 6 are located are parallel;

as shown in fig. 1 and 2, the magnet rotor disc 4 is a permanent magnet or a magnetic turntable, the magnet rotor disc 4 is fixed on the power spindle 3, a plurality of coils (not shown) are arranged on the coil turntable 5, the coil turntable 5 is arranged on the power spindle 3 through a first bearing, the magnetic resistance conversion mechanism 6 comprises a rotating disc 61, a plurality of rotating gears 62, a fixed gear 63 and a power shaft one-way gear 64, the fixed gear 63 is arranged on the frame 1, the fixed gear 63 is an internal gear ring, the axis of the fixed gear 63 is on the axis of the power spindle 3, the power shaft one-way gear 64 is arranged on the power spindle 3, the power shaft one-way gear 64 and the fixed gear 63 are coaxial, the rotating gear 62 is arranged on the rotating disc 61 through a spindle, the rotating disc 61 is arranged on the power spindle 3 through a second bearing, the rotating gear 62 is meshed with the fixed gear 63 and the power shaft one-way gear 64 simultaneously, the rotating disc 61 is connected with one end of a connecting rod 7, and the other end of the connecting rod 7 is connected with the coil turntable 5;

as shown in fig. 2 and 3, the power shaft one-way gear 64 includes a wheel cover 641, a spring 642, a top ball 643 and a gear disc 644, the wheel cover 641 is fixed on the power rotating shaft 3 through a pin 646, two counter bores 645 are arranged on the outer circumferential surface of the wheel cover 641, or a plurality of counter bores 645 are arranged, the counter bores 645 are provided with springs 642, one end of each spring 642 is fixed at the bottom of the corresponding counter bore 645, the other end is provided with the top ball 643, the inner circumference of the gear disc 644 is in a sawtooth shape, and the outer circumference of the gear disc 644 is a gear;

as shown in fig. 3 and 4, the power shaft one-way gear 64 may be replaced by a one-way bearing mechanism 65, the one-way bearing mechanism 65 includes a one-way bearing 651 and an outer ring gear 652, the outer ring gear 652 is coaxially disposed on the one-way bearing 651, the outer ring gear 652 is engaged with the rotary gear 62, the one-way bearing 651 is disposed on the power shaft 3 by a pin, and the power shaft one-way gear 64 may also be replaced by a device that can realize one-way rotation and is engaged with the rotary gear 62.

As shown in fig. 1, 2 and 3, when the power source 2 drives the power rotating shaft 3 to rotate, the magnet rotor disc 4 also rotates simultaneously, but the coil rotor disc 5 does not rotate, because the power rotating shaft 3 is provided with the power shaft one-way gear 64, the power rotating shaft 3 and the magnet rotor disc 4 rotate independently, the rotating coil rotor disc 5 does not rotate, so that the input of the low power source 2 is ensured, the power shaft one-way gear 64 does not rotate, the coil rotor disc 5 also does not rotate, when the coil rotor disc 5 is loaded and connected, the magnetic field of the magnet rotor disc 4 cuts the coil arranged on the coil rotor disc 5, the coil generates voltage and current and simultaneously generates resistance, namely lenz law, so that the coil rotor discs 5 are pushed in the same direction, because the coil rotor disc 5 is connected with the reluctance rotor disc 61 through the connecting rod 7, the rotor disc 61 is driven to rotate synchronously, at the moment, the rotor disc 61 is provided with a plurality of rotating gears 62 through the shaft The rotating speed is increased by the ratio of the rotating gear 62 and then the power rotating shaft one-way gear 64 is driven, so that the rotating speed of the power rotating shaft 3 is always larger than the normal rotating speed of the original driving force of the power rotating shaft 3, the rotating speed of the coil rotating disk 5 which is pushed is lower than the rotating speed of the magnet rotor disk 4, the rotating speed ratio ensures that the maximum coil induction magnetic field outputs electric energy, and through the conversion of the above forces, the rotating speed is increased when the power rotating shaft 3 drives the magnet rotor disk 4 to rotate and descend (the resistance generated when the coil is cut, namely the prismatic force), and the dynamic energy input is reduced.

In the course of operation, the direction of rotation of magnet rotor disc 4, coil turntable 5 and rotary disc 61 is equidirectional.

Example two

As shown in fig. 5, a generator structure for reducing input kinetic energy comprises a frame 1, a power source 2, a power rotating shaft 3, a magnet rotor disc 4 and a magnetic resistance switching mechanism 6, wherein the power rotating shaft 3 is arranged on the frame 1, the power source 2 is arranged at one end of the power rotating shaft 3, the centers of the magnet rotor disc 4 and the magnetic resistance switching mechanism 6 are arranged on the power rotating shaft 3, and the magnet rotor disc 4 is a permanent magnet or a magnetic rotating disc;

as shown in fig. 5 and 6, the magnetic resistance conversion mechanism 6 includes a rotating disk 61, a plurality of coils (not shown), a plurality of rotating gears 62, a fixed gear 63 and a power shaft one-way gear 64, the fixed gear 63 is fixed on the rack 1, the fixed gear 63 is an annular gear, the power shaft one-way gear 64 is fixed on the power rotating shaft 3, the fixed gear 63 and the power shaft one-way gear 64 are coaxial, the rotating disk 61 is provided with the plurality of coils (not shown), the center of the rotating disk 61 is arranged on the power rotating shaft 3 through a bearing, the rotating gear 62 is arranged on the rotating disk 61 through a rotating shaft, and the rotating disk 61 is meshed with the fixed gear 63 and the power shaft one-way gear 64;

as shown in fig. 3, the power shaft one-way gear 64 includes a wheel cover 641, a spring 642, a top ball 643 and a gear disc 644, the wheel cover 641 is fixed on the power rotating shaft 3 through a pin 646, two counter bores 645 are arranged on the outer circumferential surface of the wheel cover 641, several counter bores 645 can be arranged, the counter bores 645 are provided with springs 642, one end of each spring 642 is fixed at the bottom of the corresponding counter bore 645, the other end is provided with the top ball 643, the inner circumference of the gear disc 644 is serrated, and the outer circumference of the gear disc 644 is a gear;

as shown in fig. 3 and 4, the power shaft one-way gear 64 may include a one-way bearing 651 and an outer ring gear 652 by the one-way bearing mechanism 65, the outer ring gear 652 being coaxially disposed on the one-way bearing 654, the outer ring gear 652 being engaged with the rotary gear 62, and the one-way bearing 651 being disposed on the power shaft 3 by a pin;

the power shaft one-way gear 64 can also be replaced by a device which can realize one-way rotation and is meshed with the rotating gear 62.

In the operation process of the present invention, the rotation direction of the magnet rotor disk 4 and the rotating disk 61 is the same direction.

EXAMPLE III

As shown in fig. 7, a generator structure for reducing input kinetic energy includes a frame 1, a power source 2, a power rotating shaft 3, a magnet rotor disc 4, a coil rotor disc 5 and a magnetic resistance switching mechanism 6, wherein the power rotating shaft 3 is arranged on the frame 1, the power source 2 is arranged at one end of the power rotating shaft 3, the magnet rotor disc 4 and the coil rotor disc 5 are centrally arranged on the power rotating shaft 3, the magnetic resistance switching mechanism 6 is arranged on the power rotating shaft 3, and the magnet rotor disc 4 is a permanent magnet or a magnetic rotor disc;

as shown in fig. 7 and 8, a plurality of coils (not shown) are disposed on the coil rotating disk 5, the coil rotating disk 5 is disposed on the power rotating shaft 3 through a first bearing, the reluctance converting mechanism 6 includes a rotating disk 61, a plurality of rotating gears 62, a power shaft one-way gear 66, a fixed gear 67, a limiting member 68 and a belt 69, the rotating disk 61 is disposed on the power rotating shaft 3 through a second bearing, the rotating disk 61 is connected with the coil rotating disk 5 through a connecting rod 7, the rotating gears 62 are uniformly disposed on the rotating disk 61 through rotating shafts, one side of one of the rotating gears 62 is provided with a driving wheel 621 which is integrally formed with the rotating gear 62 and has the same axis, the rotating gear 62 is engaged with the fixed gear 67 disposed on the power rotating shaft 3, the center of the fixed gear 67 penetrates through the power rotating shaft 3, and the fixed gear 67 is connected with the machine frame 1 through the limiting member, the driving wheel 621 is connected with a power shaft one-way wheel 66 arranged on the power rotating shaft 3 through a belt 69, the power shaft one-way wheel 66 is arranged on the power rotating shaft 3, a wheel sleeve of the power shaft one-way wheel 66 is arranged on the power rotating shaft 3 through a pin, and the rotating directions of the magnet rotor disc 4, the coil turntable 5 and the rotating disc 61 in the working process are the same;

the power shaft one-way gear 66 is different from the power shaft one-way gear 64 in the first embodiment in structure that: the power shaft one-way gear 66 has a sawtooth ring with a smooth circumferential surface on the outer circumference, while the power shaft one-way gear 64 in the first embodiment has a gear disk with a gear on the outer circumference.

As shown in fig. 7 and 8, the power shaft one-way wheel 66 can be replaced by a one-way bearing, the one-way bearing is connected with the transmission wheel 621 through a belt 69, and the power shaft one-way wheel 66 can also be replaced by a device which can realize one-way rotation and is connected with the transmission wheel 621 through the belt 69.

The driving wheel 621 and the power shaft one-way wheel 66 are connected by a belt 69 and can also adopt chain transmission, and the driving wheel 621 and the power shaft one-way wheel 66 are provided with sprockets, namely the belt 69 can be replaced by a chain.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. A reduce generator structure of input kinetic energy, includes frame, power supply, power pivot, magnet rotor dish and magnetic resistance switching mechanism, its characterized in that:

the power rotating shaft is arranged on the rack, the power source is arranged at one end of the power rotating shaft, the magnet rotor disc is fixed on the power rotating shaft, the magnetic resistance switching mechanism is arranged on the power rotating shaft, and the rotating speed of the power rotating shaft is improved when the power rotating shaft drives the rotating speed of the magnet rotor disc to descend.

2. The generator structure for reducing input kinetic energy as claimed in claim 1, wherein the magnetic resistance conversion mechanism comprises a coil turntable, a rotating disk, a plurality of rotating gears, a fixed gear and a power shaft one-way gear, the coil turntable is provided with a plurality of coils, the coil turntable is disposed on the power rotating shaft through a first bearing, the fixed gear is disposed on the frame, the fixed gear is an internal gear ring, the fixed gear is axially disposed on the axis of the power rotating shaft, the power shaft one-way gear is disposed on the power rotating shaft, the power shaft one-way gear and the fixed gear are coaxially disposed, the rotating gear is disposed on the rotating disk through a rotating shaft, the rotating gear is simultaneously engaged with the fixed gear and the power shaft one-way gear, the rotating disk center is disposed on the power rotating shaft through a second bearing, the rotating disc is connected with one end of a connecting shaft, the other end of the connecting shaft is connected with the coil turntable, and the rotating directions of the magnet turntable disc and the coil turntable are in the same direction;

the power shaft one-way gear comprises a wheel sleeve, a spring, a jacking ball and a gear disc, wherein the wheel sleeve is fixed on the power rotating shaft through a pin, two counter bores are formed in the outer circumferential surface of the wheel sleeve, the spring is arranged in each counter bore, one end of each spring is fixed at the bottom of each counter bore, the jacking ball is arranged at the other end of each spring, the inner circumference of the gear disc is in a sawtooth shape, and the outer circumference of the gear disc is a gear;

the power shaft one-way gear can be replaced by a one-way bearing mechanism, the one-way bearing mechanism comprises a one-way bearing and an outer gear ring, the outer gear ring is coaxially arranged on the one-way bearing, the outer gear ring is meshed with the rotating gear, and the one-way bearing is arranged on the power rotating shaft through a pin.

3. The generator structure for reducing input kinetic energy according to claim 1, wherein the magnetic resistance conversion mechanism comprises a rotating disk, a plurality of coils, a plurality of rotating gears, a fixed gear and a power shaft one-way gear, the fixed gear is fixed on the frame, the fixed gear is an inner gear ring, the power shaft one-way gear is fixed on the power rotating shaft, the fixed gear and the power shaft one-way gear are coaxial, the center of the rotating disk is arranged on the power rotating shaft through a bearing, the rotating disk is provided with a plurality of coils, the rotating gear is arranged on the rotating disk through a rotating shaft, the rotating disk is meshed with the fixed gear and the power shaft one-way gear, and the rotating directions of the magnet rotor disk and the rotating disk are the same;

the power shaft one-way gear is meshed with the power shaft one-way gear and comprises a wheel sleeve, a spring, a jacking ball and a gear disc, the wheel sleeve is fixed on the power rotating shaft through a pin, two counter bores are formed in the outer circumferential surface of the wheel sleeve, the springs are arranged in the counter bores, one ends of the springs are fixed to the bottoms of the counter bores, the jacking balls are arranged at the other ends of the springs, the inner circumference of the gear disc is in a sawtooth shape, and the outer circumference of the gear disc is a gear.

4. The generator structure for reducing input kinetic energy of claim 1, wherein the magnetic resistance conversion mechanism comprises a coil turntable, a rotating disk, a plurality of rotating gears, a power shaft one-way gear, a fixed gear, a limiting member and a belt, the coil turntable is provided with a plurality of coils, the coil turntable is arranged on the power rotating shaft through a first bearing, the rotating disk is arranged on the power rotating shaft through a second bearing, the rotating disk is connected with the coil turntable through a connecting rod, the rotating gears are arranged on the rotating disk through rotating shafts, one side of one rotating gear is provided with a driving wheel which is integrally formed with the rotating gear and coaxial with the rotating gear, the rotating gear is meshed with the fixed gear arranged on the power rotating shaft, the fixed gear is sleeved on the power rotating shaft in the center, and the fixed gear is connected with the frame through the limiting member, the power shaft one-way wheel is sleeved and fixed on the power rotating shaft, the driving wheel is connected with the power shaft one-way wheel arranged on the power rotating shaft through a belt, and the rotating directions of the magnetic rotor disc and the coil turntable are the same;

the power shaft one-way wheel comprises a wheel sleeve, a spring, a top bead and a sawtooth ring, wherein the wheel sleeve is fixed on the power rotating shaft through a pin, two counter bores are formed in the outer circumferential surface of the wheel sleeve, a plurality of counter bores can be formed in the outer circumferential surface of the wheel sleeve, the counter bores are provided with the spring, one end of the spring is fixed to the bottom of each counter bore, the top bead is arranged at the other end of each counter bore, the inner periphery of the sawtooth ring is in a sawtooth shape, and the periphery of the sawtooth ring is in a smooth circumference.

5. The structure of a generator for reducing input kinetic energy of any one of claims 2 to 4, wherein the magnetic resistance conversion mechanism is mounted on the generator of the prior art, so as to achieve the effect of reducing the consumption of the power source.