CN211908634U - Structure for supplementing electric energy to electric equipment by utilizing magnetic resistance of generator - Google Patents

Abstract

The utility model discloses an utilize generator magnetic drag to supply structure of electrical equipment heat energy, including rectification charger, group battery, motor, generator, drive shaft and rotator, the power output shaft and the drive shaft coaxial coupling of motor, the magnetic field rotor of drive shaft coaxial coupling generator, the coil rotor coaxial coupling rotator of generator, coil rotor circuit connection rectification charger, rectification charger circuit connection group battery, the group battery supplies power for the motor through the wire; the battery pack supplies power to the motor, the motor drives the magnetic field rotor to rotate, electric energy generated by the coil rotor is supplemented to the battery pack through the rectifying charger, and meanwhile, the magnetic field rotor rotates to drive the coil rotor to rotate and output torque force to the rotating body.

Description

Structure for supplementing electric energy to electric equipment by utilizing magnetic resistance of generator

Technical Field

The utility model discloses a generator application, concretely relates to utilize generator magnetic resistance to supply the structure of electrical energy for the electrical equipment.

Background

Various electric equipment (vehicles) in the market at present have limited battery capacity, short working operation time (endurance) and limited practical use, and the operation time (endurance) is required to be improved only by making an article on a power battery.

Disclosure of Invention

In view of this, the utility model aims at providing one kind: the electric equipment (vehicle) transmits rotary drive by using a generator as a motor power output in operation, the generator is applied to a power transmission position in the electric equipment (vehicle), and the rotary power is transmitted to a rotating body of the electric equipment (vehicle) by utilizing the characteristic of current magnetic resistance (Lenz law). Meanwhile, the electric energy can be automatically supplemented to the battery pack, so that the aim of increasing the running time (endurance) can be fulfilled, and the electric equipment industry can be rapidly developed.

In order to achieve the above purpose, the utility model adopts the technical scheme that:

the structure for supplementing electric energy to electric equipment by utilizing the magnetic resistance of the generator comprises a rectifying charger, a battery pack, a motor, a generator, a driving shaft and a rotating body, wherein a power output shaft of the motor is coaxially connected with the driving shaft, the driving shaft is coaxially connected with a magnetic field rotor of the generator, a coil rotor of the generator is coaxially connected with the rotating body, the coil rotor is connected with the rectifying charger in a circuit, the rectifying charger is connected with the battery pack in a circuit, and the battery pack supplies power to the motor through a lead; the battery pack supplies power to the motor, the motor drives the magnetic field rotor to rotate, electric energy generated by the coil rotor is supplemented to the battery pack through the rectifying charger, and meanwhile, the magnetic field rotor rotates to drive the coil rotor to rotate and output torque force to the rotating body.

As a further improvement of the present invention, the generator includes a housing, a coil component and a magnetic field component, wherein the coil component and the magnetic field component are rotatably mounted in the housing;

the coil component is provided with a first coil connecting rod fixing frame, a second coil connecting rod fixing frame, connecting rods, a coil rotor disc and an annular rotating body connecting shaft, the first coil connecting rod fixing frame and the second coil connecting rod fixing frame are connected through the three connecting rods, and the first coil connecting rod fixing frame and the second coil connecting rod fixing frame are respectively fixed at two ends of the connecting rods; the two coil rotor disks are fixed on the connecting rod, a bearing is arranged in the middle of the first coil connecting rod fixing frame, and the rotating body connecting shaft is fixed on the second coil connecting rod fixing frame relative to the other side of the connecting rod;

the magnetic field component has power input shaft and a plurality of magnetic field rotor, the one end of power input shaft is through installing in the bearing of shell is fixed, the one end of power input shaft is through installing in the bearing of rotator connecting axle is fixed, the magnetic field rotor install in on the power input shaft, just the position of magnetic field rotor includes: the first coil connecting rod fixing frame is arranged between the first coil connecting rod fixing frame and the coil rotor disc, the second coil connecting rod fixing frame is arranged between the coil rotor disc and the coil rotor disc, and the second coil connecting rod fixing frame is arranged between the second coil connecting rod fixing frame and the coil rotor disc; and the electric energy generated by the coil rotor disc is output through the connecting rod, the slip ring and the carbon brush in sequence.

As a further improvement of the present invention, the coil rotor disk comprises a rotor disk and a plurality of coil scratchers, and the plurality of coil scratchers are vertically arranged on the rotor disk; the middle of rotor dish is equipped with the centre bore, dry coil is flexible to be organized including generating coil, iron core, left induction end and right induction end, the iron core set up in the generating coil center, left side induction end with right induction end is fixed in respectively generating coil's both sides.

As a further improvement of the utility model, the magnetic field rotor includes circular disk and a plurality of magnet, be equipped with the centre bore among the circular disk, magnet uses the centre bore to install as the axle center equipartition on the circular disk.

Compared with the prior art, the beneficial effects of the utility model reside in that:

1. at present electrical equipment (car), it is that the group battery provides the electric energy for the motor, through the motor to the rotatory power pivot moment through reducing gear box direct transfer to by the rotator, the electric energy that consumes just progressively reduces, and through the utility model discloses after the technique, the rotatory power of motor is sent to by the rotator through the generator, this just equals to the whole utilization of two kinds of energy of generator acting, generated energy and stupefied resistance promptly, and the electric quantity is used for charging for the storage battery, and stupefied resistance magnetic field energy makes two rotors do the effect of conveying motor rotatory power output. Under the same power consumption of the motor, the two rotary power output ways are compared, the former is directly power consumption, and the latter is power supplement in operation;

2. adopt the utility model discloses the technique as long as electric equipment operation (car) or travel, the prerequisite must charge for the group battery, and this is the condition of operation (traveling), and electric equipment is unable operation (traveling) work otherwise, because there is this characteristic, can change the size of charge volume on control rotary drive and realize drive rotational speed and power. Because the generator is arranged between the motor and the rotated body and is used for transmitting and operating the rotating power, the two rotors have active and passive relations, so the speed difference exists, namely the original reduction gearbox can be omitted;

3. the utility model discloses in after the motor starts the rotation, its rotary power is connected through the rotatory power shaft link with the generator, the generator main shaft begins to rotate this moment, fix epaxial because of its inside three magnetic field rotor dish, so the magnetic field rotor is synchronous revolution also, and the coil winding on two coil rotors has produced the magnetic induction effect simultaneously, the electric energy is sensed and exported to the coil this moment, and electric current magnetic resistance produces immediately (refuse to stay the lenz law), the coil rotor dish is also followed rotatoryly, (the coil dish is connected with left right branch frame through several connecting rods in generator inside, fix epaxial through the bearing), and the output link through the connecting bracket side is connected with the driven rotator of electrical equipment, accomplish conveying rotary power.

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 view of the present invention;

FIG. 2 is a schematic diagram of a preferred engine of the present invention;

FIG. 3 is a schematic view of the coil assembly of FIG. 2;

FIG. 4 is a schematic view of the magnetic field block of FIG. 2;

FIG. 5 is a schematic diagram of a coil assembly;

FIG. 6 is a schematic diagram of a coil rotor disk structure;

fig. 7 is a schematic view of a magnetic field rotor structure.

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.

In order to make the technical solutions of the present application 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 in conjunction with the embodiments of the present application, and it is obvious that the described embodiments are only some 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.

As shown in fig. 1, the structure for supplying electric energy to an electric device by using generator magnetic resistance comprises a rectifying charger 1, a battery pack 2, a motor 3, a generator 4, a driving shaft 5 and a rotating body 6, wherein a power output shaft of the motor 3 is coaxially connected with the driving shaft 5, the driving shaft 5 is coaxially connected with a magnetic field rotor 41 of the generator 4, a coil rotor 42 of the generator 4 is coaxially connected with the rotating body 6, the coil rotor 42 is electrically connected with the rectifying charger 1, the rectifying charger 1 is electrically connected with the battery pack 2, and the battery pack 2 supplies power to the motor 3 through a lead; the battery pack 2 supplies power to the motor, the motor 3 drives the magnetic field rotor 41 to rotate, the electric energy generated by the coil rotor 42 is supplemented to the battery pack 2 through the rectifying charger 1, and meanwhile, the magnetic field rotor 41 rotates to drive the coil rotor 42 to rotate and output torque force to the rotating body 6.

The battery pack 2 may be at least one, and the drive shaft 5, the rotary body 6, and the engine may be understood as follows: the drive shaft 5 is coaxially connected to a coil rotor 42 of the generator 4, and a field rotor 41 of the generator 4 is coaxially connected to the rotor 6.

The rotating body 6 may be a driven member such as a speed reducer and a hub of an electric device.

As shown in fig. 2-4, as a further improvement of the present invention, the generator 4 comprises a housing 7, a coil component 8 and a magnetic field component 9, wherein the coil component 8 and the magnetic field component 9 are rotatably mounted in the housing 7;

the coil component 8 has a first coil connecting rod fixing frame 81, a second coil connecting rod fixing frame 82, connecting rods 83, a coil rotor disk 84 and an annular rotator connecting shaft 85, the three connecting rods 83 connect the first coil connecting rod fixing frame 81 and the second coil connecting rod fixing frame 82, and the first coil connecting rod fixing frame 81 and the second coil connecting rod fixing frame 82 are respectively fixed at two ends of the connecting rods 83; the two coil rotor disks 84 are fixed on the connecting rod 83, a bearing is arranged in the middle of the first coil connecting rod fixing frame 81, and the rotating body connecting shaft 85 is fixed on the second coil connecting rod fixing frame 82 opposite to the other side of the connecting rod;

the magnetic field member 9 has a power input shaft 91 and a plurality of magnetic field rotors 92, one end of the power input shaft 91 is fixed by a bearing attached to the housing 7, one end of the power input shaft 91 is fixed by a bearing attached to the rotator connecting shaft 85, the magnetic field rotors 92 are attached to the power input shaft 91, and the positions of the magnetic field rotors 92 include: between the first coil connecting rod fixing frame 81 and the coil rotor disk 84, between the coil rotor disk 84 and the coil rotor disk 84, and between the second coil connecting rod fixing frame 82 and the coil rotor disk 84; the electric energy generated by the coil rotor disk 84 is output through the connecting rod 83, the slip ring and the carbon brush in sequence.

As a further improvement of the present invention, as shown in fig. 5-6, the coil rotor disk 84 includes a rotor disk 841 and a plurality of coil flexures 842, the plurality of coil flexures 842 being vertically disposed on the rotor disk 841; the rotor disk 841 is provided with a central hole therein, the dry coil flexible group 842 comprises a generating coil 842a, an iron core 842b, a left induction end 842c and a right induction end 842d, the iron core 842b is arranged in the center of the generating coil 842a, and the left induction end 842c and the right induction end 842d are respectively fixed on two sides of the generating coil 842 a.

The left induction end 842c and the right induction end 842d are arranged on two sides of the generating coil 842a, and are used for collecting magnetic lines of force in the iron core 842b, so that the coil induction strength can be increased, and the concentrated magnetic field of the induction ends and the magnetic poles can generate high-strength action. (i.e., high magnetic resistance) improves the power generation efficiency.

As shown in fig. 7, as a further improvement of the present invention, the magnetic field rotor 92 includes a circular disk 921 and a plurality of magnets 922, a central hole is provided in the circular disk 921, and the magnets 922 are uniformly installed on the circular disk 921 using the central hole as an axis.

As a further improvement of the magnetic field rotor 92, a double magnetic field rotor is disclosed, wherein a plurality of corresponding magnets are arranged on the double magnetic field rotor disks, the polarities of the magnets are opposite, a coil rotor is arranged between an upper rotor disk and a lower rotor disk, a coil winding is perpendicular to the magnetic field rotor, when an upper magnetic pole and a lower magnetic pole are close to the coil, magnetic force lines of the magnetic poles firstly pass through the center of the coil along an iron core through a magnetic induction end to form a magnetic loop from an induction end at the other end, meanwhile, the coil outputs electric quantity, and current magnetic resistance (lenz's law) is.

It should be noted that the core of the present invention is:

1. the utility model utilizes the generator as a motor or other kinetic energy modes to output rotary power to be transmitted to the rear pole rotor;

2. the generator is arranged between the motor or other kinetic energy mode to output the rotating power and the rotated body, which is in the protection range of the utility model;

3. the generator configuration is also suitable for excitation or other types.

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, improvement, component separation or combination made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (4)

1. The structure for supplementing electric energy to electric equipment by utilizing the magnetic resistance of the generator is characterized by comprising a rectifying charger, a battery pack, a motor, the generator, a driving shaft and a rotating body, wherein a power output shaft of the motor is coaxially connected with the driving shaft, the driving shaft is coaxially connected with a magnetic field rotor of the generator, a coil rotor of the generator is coaxially connected with the rotating body, a coil rotor circuit is connected with the rectifying charger, a rectifying charger circuit is connected with the battery pack, and the battery pack supplies power to the motor through a lead; the battery pack supplies power to the motor, the motor drives the magnetic field rotor to rotate, electric energy generated by the coil rotor is supplemented to the battery pack through the rectifying charger, and meanwhile, the magnetic field rotor rotates to drive the coil rotor to rotate and output torque force to the rotating body.

2. The structure for replenishing electric power to an electric machine utilizing reluctance force of a generator as claimed in claim 1, wherein said generator comprises a housing, a coil member and a magnetic field member, said coil member and said magnetic field member being rotatably mounted in said housing;

the coil component is provided with a first coil connecting rod fixing frame, a second coil connecting rod fixing frame, connecting rods, a coil rotor disc and an annular rotating body connecting shaft, the first coil connecting rod fixing frame and the second coil connecting rod fixing frame are connected through the three connecting rods, and the first coil connecting rod fixing frame and the second coil connecting rod fixing frame are respectively fixed at two ends of the connecting rods; the two coil rotor disks are fixed on the connecting rod, a bearing is arranged in the middle of the first coil connecting rod fixing frame, and the rotating body connecting shaft is fixed on the second coil connecting rod fixing frame relative to the other side of the connecting rod;

the magnetic field component has power input shaft and a plurality of magnetic field rotor, the one end of power input shaft is through installing in the bearing of shell is fixed, the one end of power input shaft is through installing in the bearing of rotator connecting axle is fixed, the magnetic field rotor install in on the power input shaft, just the position of magnetic field rotor includes: the first coil connecting rod fixing frame is arranged between the first coil connecting rod fixing frame and the coil rotor disc, the second coil connecting rod fixing frame is arranged between the coil rotor disc and the coil rotor disc, and the second coil connecting rod fixing frame is arranged between the second coil connecting rod fixing frame and the coil rotor disc; and the electric energy generated by the coil rotor disc is output through the connecting rod, the slip ring and the carbon brush in sequence.

3. The structure for replenishing electric energy to an electric device utilizing reluctance force of a generator according to claim 2, wherein said coil rotor disk comprises a rotor disk and a plurality of coil flexibles, said plurality of coil flexibles being vertically disposed on said rotor disk; the middle of rotor dish is equipped with the centre bore, dry coil is flexible to be organized including generating coil, iron core, left induction end and right induction end, the iron core set up in the generating coil center, left side induction end with right induction end is fixed in respectively generating coil's both sides.

4. The structure for supplying electric power to an electric device using reluctance force of a generator according to claim 2, wherein said magnetic field rotor comprises a circular disk having a central hole and a plurality of magnets uniformly mounted on said circular disk with the central hole as an axis.

Images