CN204290512U - Disc-type energy-saving device - Google Patents

Abstract

The utility model discloses a kind of barrel type energy-saving device, comprise the axletree (1) be fixed between the end cap of both sides, axletree (1) is fixed with stator (2), and be arranged on the peripheral rotor (3) of stator (2), rotor (3) is fixed on wheel hub, described stator (2) and rotor (3) are provided with magnetic means, and described magnetic means comprises magnet (4) and magnetic conductor (5).Utility model structure is simple, with low cost, and the magnetic line of force produced in the magnetic means on the process rotor of being walked by driving wheel and stator cuts, produce power-assisted, and then reduce the consumption of energy, improve the flying power of battery and extend the useful life of battery, being convenient to produce and promoting.

Description

Disc-type energy-saving device

Technical field

The utility model relates to a kind of energy saver, is specially a kind of disc-type energy-saving device being applied to the electronic class cars such as electric bicycle, battery-operated motor cycle, electro-tricycle, fuel-based car, motor.

Background technology

The development of society at any time, improving constantly of people's living standard, the especially quickening of process of industrialization, motor vehicle starts to come into huge numbers of families, becomes the main traffic instrument of people's trip.

But, people are enjoying the convenience that process of industrialization is brought while, the environment that people live also is subject huge ambient pressure, especially in process of industrialization to the waste of resource and the destruction to natural environment, the environment making us live goes from bad to worse, therefore, energy-saving and emission-reduction, become the theme in social development process.

Motor, a part indispensable in social development, on the electric bicycle especially in people's go off daily, battery-operated motor cycle.Present electric bicycle, battery-operated motor cycle are generally rear drive or front wheel driving, and the wheel of correspondence is then passive type walking, in passive type walking process, and the kinetic energy that can consume driving wheel and provide in a large number, and then consume energy.

Therefore, improve existing by the transmission device of driving wheel, reduce energy ezpenditure when being driven, and then extend flying power, the useful life of battery has been a good problem to study.

Summary of the invention

In order to overcome above-mentioned deficiency of the prior art, it is simple that the utility model provides a kind of structure, with low cost, and can produce power-assisted in the process of being walked by driving wheel, and then reduce the consumption of energy, improve the flying power of battery and extend the useful life of battery.

The purpose of this utility model is achieved in that

Disc-type energy-saving device, comprise the axletree 1 be fixed between the end cap of both sides, axletree 1 is fixed with stator 2, and be arranged on the rotor 3 of stator 2 periphery, rotor 3 is fixed on wheel hub, it is characterized in that: described stator 2 and rotor 3 are provided with magnetic means, and described magnetic means comprises magnet 4 and magnetic conductor 5;

Described magnetic means comprises on rotor 3 and is provided with magnetic conductor 5, stator 2 is provided with magnet 4;

Described magnetic means comprises on rotor 3 and is provided with magnet 4, stator 2 is provided with magnetic conductor 5;

Described stator 2 circumferentially evenly distributed has the magnet 4 of 9 pieces of distributions in fixed angle, rotor 3 supporting with it circumferentially evenly distributed have 12 pieces in fixed angle distribution magnetic conductor 5;

Described stator 2 circumferentially evenly distributed has the magnet 4 of 6 pieces of distributions in fixed angle, rotor 3 supporting with it circumferentially evenly distributed have 8 pieces in fixed angle distribution magnetic conductor 5;

Described stator 2 circumferentially evenly distributed has the magnet 4 of 2 pieces of distributions in fixed angle, rotor 3 supporting with it circumferentially evenly distributed have 3 pieces in fixed angle distribution magnetic conductor 5;

Described stator 2 circumferentially evenly distributed has the magnet 4 of 8 pieces of distributions in fixed angle, rotor 3 supporting with it circumferentially evenly distributed have 10 pieces in fixed angle distribution magnetic conductor 5;

Described stator 2 circumferentially evenly distributed has the magnet 4 of 4 pieces of distributions in fixed angle, rotor 3 supporting with it circumferentially evenly distributed have 5 pieces in fixed angle distribution magnetic conductor 5;

Described stator 2 circumferentially evenly distributed has the magnet 4 of 3 pieces of distributions in fixed angle, rotor 3 supporting with it circumferentially evenly distributed have 4 pieces in fixed angle distribution magnetic conductor 5;

Described described magnetic means comprises magnet 4 and magnetic conductor 5, and the quantity of described magnet 4 is more than the quantity of magnetic conductor 5.

positive beneficial effect:the utility model structure is simple, with low cost, and the magnetic line of force produced in the magnetic means on the process rotor of being walked by driving wheel and stator cuts, produce power-assisted, and then reduce the consumption of energy, improve the flying power of battery and extend the useful life of battery, being convenient to produce and promoting.

Accompanying drawing explanation

Fig. 1 is structural representation one of the present utility model;

Fig. 2 is structural representation two of the present utility model;

Fig. 3 is structural representation three of the present utility model;

Fig. 4 is structural representation four of the present utility model;

Fig. 5 is structural representation five of the present utility model;

Fig. 6 is structural representation six of the present utility model;

In figure be: axletree 1, stator 2, rotor 3, magnet 4, magnetic conductor 5.

Embodiment

Below in conjunction with accompanying drawing, the utility model is further described:

Disc-type energy-saving device, comprise the axletree 1 be fixed between the end cap of both sides, axletree 1 is fixed with stator 2, and be arranged on the rotor 3 of stator 2 periphery, rotor 3 is fixed on wheel hub, it is characterized in that: described stator 2 and rotor 3 are provided with magnetic means, and described magnetic means comprises magnet 4 and magnetic conductor 5;

Described magnetic means comprises on rotor 3 and is provided with magnetic conductor 5, stator 2 is provided with magnet 4;

Described magnetic means comprises on rotor 3 and is provided with magnet 4, stator 2 is provided with magnetic conductor 5;

As shown in Figure 1, described stator 2 circumferentially evenly distributed has the magnet 4 of 9 pieces of distributions in fixed angle, rotor 3 supporting with it circumferentially evenly distributed have 12 pieces in fixed angle distribution magnetic conductor 5;

As shown in Figure 2, described stator 2 circumferentially evenly distributed has the magnet 4 of 6 pieces of distributions in fixed angle, rotor 3 supporting with it circumferentially evenly distributed have 8 pieces in fixed angle distribution magnetic conductor 5;

As shown in Figure 3, described stator 2 circumferentially evenly distributed has the magnet 4 of 2 pieces of distributions in fixed angle, rotor 3 supporting with it circumferentially evenly distributed have 3 pieces in fixed angle distribution magnetic conductor 5;

As shown in Figure 4, described stator 2 circumferentially evenly distributed has the magnet 4 of 8 pieces of distributions in fixed angle, rotor 3 supporting with it circumferentially evenly distributed have 10 pieces in fixed angle distribution magnetic conductor 5;

As shown in Figure 5, described stator 2 circumferentially evenly distributed has the magnet 4 of 4 pieces of distributions in fixed angle, rotor 3 supporting with it circumferentially evenly distributed have 5 pieces in fixed angle distribution magnetic conductor 5;

As shown in Figure 6, described stator 2 circumferentially evenly distributed has the magnet 4 of 3 pieces of distributions in fixed angle, rotor 3 supporting with it circumferentially evenly distributed have 4 pieces in fixed angle distribution magnetic conductor 5;

Described described magnetic means comprises magnet 4 and magnetic conductor 5, and the quantity of described magnet 4 is more than the quantity of magnetic conductor 5.

Utility model structure is simple, with low cost, and the magnetic line of force produced in the magnetic means on the process rotor of being walked by driving wheel and stator cuts, produce power-assisted, and then reduce the consumption of energy, improve the flying power of battery and extend the useful life of battery, being convenient to produce and promoting.

Above embodiment is only for illustration of preferred implementation of the present utility model; but the utility model is not limited to above-mentioned execution mode; in the ken that described exercising ordinary skill possesses; the any amendment done within spirit of the present utility model and principle, equivalently to substitute and improvement etc., it all should be encompassed within the technical scheme scope of the utility model request protection.

Claims (8)

1. disc-type energy-saving device, comprise the axletree (1) be fixed between the end cap of both sides, axletree (1) is fixed with stator (2), and be arranged on the peripheral rotor (3) of stator (2), rotor (3) is fixed on wheel hub, it is characterized in that: described stator (2) and rotor (3) are provided with magnetic means, described magnetic means comprises magnet (4) and magnetic conductor (5); Described magnetic means comprises on rotor (3) and is provided with magnetic conductor (5), stator (2) is provided with on magnet (4) or rotor (3) and is provided with magnet (4), stator (2) is provided with magnetic conductor (5).

2. disc-type energy-saving device according to claim 1, it is characterized in that: described stator (2) circumferentially evenly distributed has the magnet (4) of 9 pieces of distributions in fixed angle, rotor (3) supporting with it circumferentially evenly distributed have 12 pieces in fixed angle distribution magnetic conductor (5).

3. disc-type energy-saving device according to claim 1, it is characterized in that: described stator (2) circumferentially evenly distributed has the magnet (4) of 6 pieces of distributions in fixed angle, rotor (3) supporting with it circumferentially evenly distributed have 8 pieces in fixed angle distribution magnetic conductor (5).

4. disc-type energy-saving device according to claim 1, it is characterized in that: described stator (2) circumferentially evenly distributed has the magnet (4) of 2 pieces of distributions in fixed angle, rotor (3) supporting with it circumferentially evenly distributed have 3 pieces in fixed angle distribution magnetic conductor (5).

5. disc-type energy-saving device according to claim 1, it is characterized in that: described stator (2) circumferentially evenly distributed has the magnet (4) of 8 pieces of distributions in fixed angle, rotor (3) supporting with it circumferentially evenly distributed have 10 pieces in fixed angle distribution magnetic conductor (5).

6. disc-type energy-saving device according to claim 1, it is characterized in that: described stator (2) circumferentially evenly distributed has the magnet (4) of 4 pieces of distributions in fixed angle, rotor (3) supporting with it circumferentially evenly distributed have 5 pieces in fixed angle distribution magnetic conductor (5).

7. disc-type energy-saving device according to claim 1, it is characterized in that: described stator (2) circumferentially evenly distributed has the magnet 4 of 3 pieces of distributions in fixed angle, rotor (3) supporting with it circumferentially evenly distributed have 4 pieces in fixed angle distribution magnetic conductor (5).

8. disc-type energy-saving device according to claim 1, is characterized in that: described magnetic means comprises magnet (4) and magnetic conductor (5), and the quantity of described magnet (4) is more than the quantity of magnetic conductor (5).