TW201902080A - Non-magnetic rotor inner and outer stator structure capable of simplifying assembly and increasing magnetic pole stability - Google Patents

Abstract

The present invention relates to a non-magnetic rotor inner and outer stator structure improvements. The main structure includes at least one first outer casing having a first magnetic element, at least one second outer casing movably disposed on one side of the first outer casing, a shaft portion penetrating the first outer casing and the second outer casing, at least one inner casing formed in the first outer casing and having a second magnetic element, at least one non-magnetic seat body formed inside the second outer casing and located between the first magnetic element and the second magnetic element, and a plurality of coil portions wound around the non-magnetic seat body. With the aforementioned structure, assembly can be completed only by placing the non-magnetic seat body of the second outer casing between the first outer casing and the inner casing. In addition, the first and second magnetic elements are respectively fixed on the inner and outer casings, thereby having no doubt of swaying. Accordingly, the present invention can simplify the assembly and increase the magnetic pole stability.

Description

 Improvement of internal and external stator structure of non-magnetic rotor  

The invention provides an improvement of the inner and outer stator structures of the non-magnetic rotor, in particular, the magnetic poles of the inner and outer stators are fixed, are not offset by rotation, and the magnetic lines of force are relatively stable, and the assembled outer casing has the advantages of simple stator arrangement and convenient assembly. The stator structure inside and outside the magnetic rotor is improved.

Press, the principle of the motor and the generator is the same, but the action is almost the opposite. One power causes the rotation and one rotation to generate electricity. However, the performance of the generator has not been improved. The performance does not refer to the efficiency of the rated potential and the load current, but refers to the efficiency. Generators require very large amounts of energy to convert into electricity, resulting in significant losses between energy conversions. Therefore, the generator should improve its performance. It is not only the size of the magnetic field and the number of coils. The most important thing is the torque and energy required for power generation. If the magnetic flux density can be increased and the energy required for power generation can be reduced, the generator can be used more widely. Can be more fully converted.

According to the technology of the prior art patent application M425454 "Structure of the inner and outer stators of non-magnetic rotors", when the shaft is rotated or the magnetic pole of the outer casing is rotated, the internal and external stators are used to fix the magnetic field and the outer stator and the inner stator are magnetically opposite. The principle of actuation makes the coil perform magnetic line cutting without achieving resistance to magnetic fields, reducing energy consumption, and greatly improving the efficiency of power output."

However, when the structure of the inner and outer stators of the above non-magnetic rotor is used, the following problems and defects are indeed to be improved:

1. The inner stator and the outer stator are respectively disposed on the inner casing and the outer casing surface, and the inner casing and the outer casing are all pivoted on the shaft through the Palin. When rotated, the offset is easily generated, and the stability of the magnetic line is affected. And accuracy.

Second, the structure of the inner and outer casings makes the inner stator difficult to set, thereby lengthening the assembly time and increasing the complexity of the assembly operation.

Therefore, how to solve the above-mentioned problems and deficiencies of the above-mentioned applications is the applicant who is interested in researching and improving the direction of the applicants and related manufacturers engaged in the industry.

Therefore, in view of the above-mentioned deficiencies, the applicant of the present invention collects related materials, and through multi-party evaluation and consideration, and through years of experience accumulated in the industry, through continuous trial and modification, the magnetic poles of such inner and outer stators are designed. The utility model is not limited by the rotation, and the magnetic force line is relatively stable, and the assembled outer casing has the invention patent of the improved non-magnetic rotor inner and outer stator structure which is simple in stator arrangement and convenient in assembly.

The main object of the present invention is to simplify the overall assembly operation by using an assembled outer casing, thereby reducing assembly time.

Another main object of the present invention is to fix the first and second magnetic elements to eliminate the magnetic pole shift problem caused by the rotation, thereby increasing the magnetic line stability and the power generation efficiency.

In order to achieve the above object, the structure of the present invention includes: at least one first outer casing body, wherein the first outer casing body is movably provided with at least one second outer casing body, and is worn on the first outer casing body and the second outer casing body An axial portion is provided for relatively rotating the first outer casing and the second outer casing, and at least one first magnetic component is disposed on the inner casing sidewall of the first outer casing, and at least one inner body is formed in the first outer casing a housing, wherein the outer side wall of the inner casing is provided with at least one second magnetic element, and the first magnetic element is magnetically actuated, and at least one non-magnetic seat body is formed inside the second outer casing, and the non-magnetic seat system is located Between the first magnetic component and the second magnetic component, and winding a plurality of coil portions on the non-magnetic base; when the user assembles the invention, the first and second magnetic components may be first disposed on the first outer casing. The coil portion can be separately disposed on the non-magnetic seat of the second outer casing, so that the arrangement of the internal structure is relatively simple, and then the first and second outer casings are connected to each other by the axial center portion. this invention Assembly. Further, in use, since the first and second magnetic members are respectively fixed to the first outer casing and the inner casing, the rotation is not caused by the rotation, so that a more stable magnetic line and power generation efficiency can be provided.

According to the above technique, it is possible to make a breakthrough in the structural arrangement in which the structure of the inner and outer stators of the conventional non-magnetic rotor is caused, and the problem that the inner and outer stators are easily displaced due to the rotation, and the practical progress of the above advantages is achieved.

1‧‧‧First outer casing

11‧‧‧First magnetic component

2, 2a‧‧‧ second outer casing

3‧‧‧ inner casing

31‧‧‧Second magnetic component

4‧‧‧Axis

41‧‧ ‧ Palin

5, 5a‧‧‧ non-magnetic seat

51‧‧‧ coil part

511‧‧‧Power Output Department

52a‧‧‧Driving Department

6‧‧‧ accommodating space

7a‧‧‧Bicycle rack

71a‧‧‧Fixed devices

The first figure is a perspective view of a preferred embodiment of the invention.

The second drawing is an exploded view of a preferred embodiment of the invention.

The third figure is an exploded view of a preferred embodiment of the invention.

The fourth figure is a schematic view of the assembly operation of the preferred embodiment of the present invention.

Figure 5 is a schematic view showing the rotation of the casing of the preferred embodiment of the present invention.

Figure 6 is a schematic diagram of the power generation operation of the preferred embodiment of the present invention.

Figure 7 is a schematic view showing the structure of still another preferred embodiment of the present invention.

Figure 8 is a schematic view showing the operation of still another preferred embodiment of the present invention.

Figure 9 is a schematic view showing the implementation of still another preferred embodiment of the present invention.

In order to achieve the above objects and effects, the technical means and the structure of the present invention will be described in detail with reference to the preferred embodiments of the present invention.

Referring to the first, second and third figures, which are perspective views, exploded views and sub-dissection views of a preferred embodiment of the present invention, it will be apparent from the drawings that the present invention includes at least a first outer casing. a body 1; at least one second outer casing 2 movably disposed on a side of the first outer casing 1; and a shaft portion 4 penetrating the first outer casing 1 and the second outer casing 2 An outer casing 1 and the second outer casing 2 are relatively rotated, and the shaft core portion 4 has a lining 41 for connecting the first outer casing 1 or the second outer casing 2; at least one of a first magnetic member 11 of the inner side of the outer casing 1; at least one inner casing 3 formed in the first outer casing 1, the inner casing 3 and the first outer casing 1 define an accommodation space 6; At least one second magnetic component 31 disposed on the outer sidewall of the inner casing 3 is magnetically activated with the first magnetic component 11, and the second magnetic component 31 and the first magnetic component 11 are magnetically attracted. At least one non-magnetic seat body 5 formed on the inner side of the second outer casing 2, and the non-magnetic seat body 5 is located on the first magnetic element 11 and the a plurality of magnetic elements 31; and a plurality of coil portions 51 wound around the non-magnetic base 5, the coil portions 51 are electrically connected to at least one power output portion 511, and the power output portion 511 is configured to output direct current or alternating current. One of them.

With the above description, the structure of the present technology can be understood, and according to the corresponding cooperation of the structure, the magnetic poles of the first and second magnetic elements 31, 11 can be fixed, without being displaced by rotation, and the magnetic lines of force are relatively stable. The assembled outer casing has the advantages of simple stator configuration and convenient assembly, and the detailed explanation will be described below.

Please refer to the first to sixth figures at the same time, which is a schematic view of a power generation operation according to a preferred embodiment of the present invention. When the above components are assembled, it can be clearly seen from the figure, compared with the conventional ones. The structure of the inner and outer stators of the non-magnetic rotor, the outermost shell of the present case is assembled by the first outer casing 1 and the second outer casing 2, and the first outer casing 1 and the second outer casing are also pierced by the axial center portion 4. 2, so that the two can be rotated relative to each other. An inner casing 3 is formed in the first outer casing 1 , and a first magnetic element 11 is disposed on an inner sidewall of the first outer casing 1 , and a second magnetic component 31 is disposed on an outer sidewall of the inner casing 3 . The second magnetic element 31 and the first magnetic element 11 are positioned to correspond to each other and magnetically attracted while an accommodating space 6 is retained therebetween.

As for the inner side of the second outer casing 2, a non-magnetic seat body 5 is formed to be wound around the plurality of coil portions 51, and then the non-magnetic seat body 5 around which the coil portion 51 is wound is inserted into the accommodation space 6. When the first outer casing 1 or the second outer casing 2 is rotated by the moment, the first outer casing 1 or the second outer casing 2 is rotated through a lining 41 (in the present embodiment, the Palin 41 series) It is disposed on the second outer casing 2). Thereby, since the positions of the second magnetic element 31 and the first magnetic element 11 are in a fixed state, stable magnetic lines of force can be stably generated (in the embodiment, the direction of the magnetic line of force is from the N pole of the first magnetic element 11 toward When the coil portion 51 is rotated by the rotation of the shaft portion 4, the coil portions 51 continuously cut the magnetic lines of force to complete the power generation operation. The output power is then output by the power output unit 511 for the user to use. Further, in the present embodiment, the first and second magnetic members 11, 31 are fixed by rotating the non-magnetic base 5, so that the non-magnetic seat 5 can be regarded as a rotor, and the first and second magnetic members 11, 31 can be regarded as inner and outer stators. In other words, since the first outer casing 1 and the second outer casing 2 are relatively rotationally moved, if the operation mode is changed to fix the non-magnetic base 5 and the first and second magnetic members 11 and 31 are rotated, the rotor and the stator are The definition is the opposite.

In addition to the above-mentioned actions, in addition to providing stable magnetic lines of force and power generation benefits, the improved special configuration of the present invention can greatly reduce the difficulty of assembly, including the arrangement of the second magnetic element 31 and the first magnetic element 11, and the coil portion. The winding action of 51, as well as the pivoting action of the non-magnetic seat body 5 and the first outer casing 1, can be easily assembled, which greatly shortens the assembly time and even reduces the maintenance difficulty.

Referring to FIG. 7 to FIG. 9 together, it is a schematic structural view to an implementation of another preferred embodiment of the present invention. It can be clearly seen from the figure that the present embodiment is similar to the above embodiment. Only one bicycle frame 7a is provided, at least one fixing device 71a disposed on one side of the bicycle frame 7a for coupling the second outer casing 2a, and the second outer casing 2a has a driving side away from the non-magnetic seat 5a side. The portion 52a is rotated by the external force to drive the second outer casing 2a. Therefore, the present invention is first fixed to the side of the bicycle frame 7a by the fixing device 71a, and then the bicycle is fixed to the bicycle frame 7a, and the rear wheel is in contact with the driving portion 52a, and then the user simply pedals the bicycle normally, that is, The power of the bicycle can be used to rotate the second outer casing 2a by the rear wheel, and the power generation principle can be used to provide additional power generation efficiency while utilizing the bicycle movement, and the rotation action pair of the above-mentioned structural configuration of the present invention The user has a small drag burden, which allows the user to easily provide power generation benefits while exercising.

However, the above description is only the preferred embodiment of the present invention, and thus it is not intended to limit the scope of the present invention. Therefore, the simple modification and equivalent structural changes of the present specification and the drawings should be treated similarly. It is included in the scope of the patent of the present invention and is combined with Chen Ming.

In summary, the non-magnetic rotor inner and outer stator structure of the present invention is improved in use, in order to achieve its efficacy and purpose, the invention is an invention with excellent practicability, and is an application for conforming to the invention patent, To file an application, I hope that the trial committee will grant the invention as soon as possible to protect the applicant's hard work. If there is any doubt in the trial committee, please do not hesitate to give instructions. The creator will try his best to cooperate with him.

Claims (8)

 An improved inner and outer stator structure of a non-magnetic rotor, comprising: at least one first outer casing; at least one second outer casing movably disposed on a side of the first outer casing; one threaded through the first outer casing and the second outer casing The shaft portion of the outer casing is opposite to the first outer casing and the second outer casing; at least one first magnetic component disposed on the inner side wall of the first outer casing; at least one formed in the first outer casing a second magnetic component disposed on the outer sidewall of the inner casing and magnetically actuated with the first magnetic component; at least one non-magnetic seat formed on the inner side of the second outer casing, and the non-magnetic seat system is located Between the first magnetic element and the second magnetic element; and a plurality of coil portions wound around the non-magnetic base.    The inner and outer stator structure of the non-magnetic rotor according to claim 1 is improved, wherein an accommodating space is defined between the inner casing and the first outer casing.    The non-magnetic rotor inner and outer stator structure improvement according to claim 1, wherein the shaft core has a lining for connecting the first outer casing or the second outer casing.    The inner and outer stator structures of the non-magnetic rotor according to claim 1 are improved, wherein the coil portions are electrically connected to at least one power output portion.    The inner and outer stator structures of the non-magnetic rotor according to claim 4 are improved, wherein the power output unit is configured to output one of direct current or alternating current.    The non-magnetic rotor inner and outer stator structure according to claim 1 is improved, wherein the second magnetic element and the first magnetic element are magnetically attracted.    The non-magnetic rotor inner and outer stator structure improvement according to claim 1, further comprising a bicycle frame and at least one fixing device disposed on one side of the bicycle frame for coupling the second outer casing.    The non-magnetic rotor inner and outer stator structure according to claim 7 is improved, wherein the second outer casing has a driving portion facing away from the non-magnetic seat body, and is driven by an external force to drive the second outer casing to rotate.