TWM551780U - Coaxial electromagnetic device - Google Patents

Description

Coaxial electromagnetic device

This creation belongs to the field of electromagnetic technology, specifically a coaxial electromagnetic device capable of generating both power output and power generation, so as to achieve the purpose of forming an autonomous power generation and a self-propelled motor, and can be fully magnetized by an electric module. Boost, force distance amplification and magnetic flow management to increase output power and increase power generation of power generation modules.

According to the general motor, the electromagnetic principle is mainly used to generate high-speed rotation, which is composed of a stator and a rotor that can rotate relative to each other. Taking a coil motor as an example, wherein the inner edge of the stator is provided with a plurality of coils, and the rotor is The outer edge is provided with a plurality of magnetic members corresponding to the coil, and the coil is magnetized by the power supply to the coil, thereby generating a magnetic force of repulsive and attracting magnetic force with the magnetic member of the rotor, thereby driving the rotor to rotate at a high speed, further driving an axis provided on the rotor. The rod forms a power output, such as a motor.

The general generator is an electromagnetic device composed of an induction coil component group and a magnetic array, wherein the induction coil component group is provided with at least one coil on at least one of the magnets, and the magnetic array is connected to the axis of the induction coil component. Two magnetic members are arranged at two ends, and the two magnetic members are arranged opposite to each other, and the magnetic column group and the induction coil member group can be respectively defined as a rotor and a stator, and the relative linear or rotational motion is used to make The coil of the induction coil component group generates a voltage due to the magnetic flux cut of the magnetic array group, thereby achieving the purpose of power generation.

From the above principle of the motor and the generator, both are achieved by the electromagnetic principle. The main difference is that the connected power supply of the electromagnetic device and the connected load are drawn, and the motor and the generator are respectively formed. It can be seen that it is possible to be designed into the same mechanism, and to form a generator to provide power to the motor, and the power of the motor allows the generator to generate electricity to form a device for autonomous power generation and self-propelled motor. At present, there are indeed many developers who continue to work hard to design an electromagnetic device that actually meets the above objectives. The existing common design is mainly to set up an electromagnetic group for the motor and the generator at both ends of the same shaft; but the motor is in operation. At the time, the intermittent power supply mode is adopted to extract the required magnetic force to drive the rotor, but due to the high magnetic flux and high cutting number of the coil and the magnetic member, the coil is still subjected to inertia during the suspension of power supply. The magnetic cutting of the moving magnetic parts causes the internal voltage, so the motor needs to input a large amount of electric power, which will cause waste of energy, and under the same power input, the performance of the motor output power is not good, so The generator also does not generate enough power for the motor to use.

In other words, the existing electromagnetic device with power generation and electric function cannot effectively avoid the power generation phenomenon when the motor portion is not supplied with electricity, so that the internal voltage is reduced, resulting in a large energy consumption of the motor and magnetic resistance during operation. Large and small magnetic assistance during driving, so can not meet the needs of independent power generation, self-propelled motor, and how to solve the above problems, is the industry's urgent need for developers.

The author is that the creator is in-depth discussion on the problems faced by the above-mentioned electromagnetic devices with both power generation and electric functions, and actively seeks solutions through years of research and development experience in related industries. And the trial, finally successfully developed a coaxial electromagnetic device to overcome the existing electromagnetic device It is impossible to generate enough trouble and inconvenience caused by sufficient power and power.

Therefore, the main purpose of the present invention is to provide a coaxial electromagnetic device, which can reduce the internal voltage when the electric module is not powered, and eliminate the magnetic resistance to generate full magnetic assistance, which can be used for inputting when driving down. Electricity, reducing the loss of electrical energy, and increasing the rate of rotation during operation, can further improve the output power.

Furthermore, another main purpose of the present invention is to provide a coaxial electromagnetic device, which can increase the rotation rate of the magnetic disk through the power module amplification and good magnetic current management, so that the power generation module generates a high cutting frequency. The power generation is increased to meet the demand for providing power to the electric module, thereby achieving the purpose of self-generated power and self-propelled motor.

Based on this, the present invention mainly achieves the foregoing objects and functions by the following technical means, which are formed by interleaving at least one disk and at least one coil disk which can synchronously move relative to each other, and on the disk and the coil disk. There are at least one electric module and at least one power generating module, wherein one electric module is disposed on the outermost diameter of the magnetic disk and the coil disk, and one of the power generating modules is disposed on the innermost diameter of the magnetic disk and the coil disk, and The magnetic disks and the coil disks can be respectively defined as a rotor or a stator, which can synchronously generate relative motions with each other; the electric modules are arranged by a group of electric magnetic arrays and a group of coils disposed on the magnetic disks. And an electric coil array and a set of inductive switch groups opposite to the electric magnetic array; wherein at least one first magnetic member and at least one second magnetic member are arranged in the moving direction of the electric magnetic array on the magnetic disk And the lengths of the first and second magnetic members are equal, and the first and second magnetic members are magnetized in the moving direction, and adjacent to the first The magnetic poles of the two magnetic members are adjacent to the same pole, and the adjacent first and second magnetic members or the second and the magnetic members have a magnetic gap of equal width; and the electric coil array on the coil disk has at least one Inductive coil members having the same axis and spaced apart from each other, the inductive coil members respectively have a magnetizer and a coil wound around the magnetizer, and the coils of the inductive coil member can be respectively connected to a power source for forward or reverse power supply Furthermore, the length of the coil of the induction coil component is greater than or equal to the length of one of the magnetic members of the electric magnetic array, and is less than or equal to three-quarters of the length of any of the magnetic segments of the electromagnetic array, and the induction coil The length of the magnet of the piece is greater than or equal to the length of any magnetic piece of the electromagnet group plus the width of the adjacent magnetic gap, and is less than or equal to the length of any magnetic piece of the electromagnetic group plus the width of the adjacent gap plus the coil of the same group The sensing switch group includes at least one power detecting device disposed on the electric magnetic array, at least one power detecting device, and at least one conducting sensor disposed in the electric coil group and at least one cutoff sensor, The power detecting device is disposed in the first and second magnetic members to enter the magnetic pole faces of the induction coil members according to the moving direction, and the power detecting detectors are respectively disposed in the first The two magnetic members are relatively away from the magnetic pole faces of the induction coil members according to the moving direction, and the conduction inductors are disposed in the coils of the induction coil members to move away from the end portions of the electromagnetism group. And the cutting sensors are disposed in the coils of the inductive coil members to enter the end of the electromagnetism group in a relative movement direction, and the conduction inductors on the inductive coil members are used to detect the first When the first and second magnetic members are powered by the detector, the power source can be connected to the coils of the inductive coil members; and the power generating modules are a set of electromagnetic groups and a group set on the magnetic disk. The opposite power generating coil set is disposed on the coil disk; Wherein the electromagnetic group is arranged on the magnetic disk with at least one third magnetic member and at least one fourth magnetic member arranged in a moving direction, and the third and fourth magnetic members are magnetized in a vertical movement direction, and the third and fourth magnetic portions are magnetized. The pieces are arranged adjacent to each other, and the third and fourth magnetic members correspond to the magnetic gaps of the first and second magnetic members of the adjacent electromagnetic array, and the third and fourth magnetics of the electromagnetic group And the magnetic poles of the first and second magnetic members or the second magnetic member are adjacent to the same pole; and the power generating coil group is arranged on the coil disk with at least one power generating coil connected to the load in the moving direction. And the power generating coils extend in a vertical movement direction, and the power generating coils correspond to the third and fourth magnetic members of the electromagnetic group.

Thereby, the coaxial electromagnetic device of the present invention is designed through the special length of the magnet in the induction coil component of the electric coil array in the electric module, and the magnetic flux is generated by the magnetic flux across the magnetic gap of the electromagnetism group. Full magnetic assistance, and elimination of magnetic resistance, and effectively reduce the internal voltage, thereby reducing the input power of the electric coil train set to the electric drive, and further because the electric module is disposed on the outer diameter of the disk and the coil disc, The power generation module is set on the inner diameter of the disk and the coil disk. It is amplified by the force of the electric module and has good magnetic flow management, which can increase the rotation rate of the disk and achieve the purpose of small electric power and large thrust. At the same time, the power generation module generates a high cutting frequency, and increases the power generation capacity to meet the demand for providing power to the electric module, thereby achieving the purpose of autonomous power generation and self-propelled motors, thereby greatly increasing the added value and improving the economic benefits thereof. .

In order to enable the reviewing committee to further understand the composition, features and other purposes of the present invention, the following is a preferred embodiment of the present invention, and the detailed description of the present invention is as follows, and the person skilled in the art can implement it.

(1)‧‧‧ Disk

(101)‧‧‧Electrical Module

(102)‧‧‧Power Module

(105)‧‧‧ shaft

(10) ‧‧‧Electromagnetic group

(11)‧‧‧First magnetic parts

(12)‧‧‧Second magnetic parts

(13)‧‧‧ Magnetic gap

(15) ‧‧‧Electromagnetic group

(16)‧‧‧ Third magnetic parts

(17)‧‧‧ Fourth magnetic parts

(2) ‧‧‧ coil disk

(205)‧‧‧Axis hole

(20)‧‧‧Electrical coil array

(21)‧‧‧Induction coil parts

(22)‧‧‧Guide magnets

(23)‧‧‧ coil

(25)‧‧‧Power coil group

(26)‧‧‧Power coil

(30)‧‧‧Induction switch set

(31)‧‧‧Power detector

(32)‧‧‧Power failure detector

(35) ‧‧‧ conduction sensor

(36)‧‧‧ cut off the sensor

The first figure is a schematic diagram of a three-dimensional structure of a preferred embodiment of the present coaxial electromagnetic device.

Second: A schematic diagram of a planar configuration of a magnetic disk in a preferred embodiment of the present coaxial electromagnetic device.

The third figure is a schematic diagram of the planar arrangement of the coil disk in the preferred embodiment of the present coaxial electromagnetic device.

Fig. 4 is a schematic view showing the operation of the preferred embodiment of the coaxial electromagnetic device of the present invention for explaining the state of power supply.

Fig. 5 is a schematic view showing another operation of the preferred embodiment of the coaxial electromagnetic device of the present invention for explaining the state of no power supply.

Fig. 6 is a side plan view showing another preferred embodiment of the present coaxial electromagnetic device for explaining the state of the disk matrix.

The present invention is a coaxial electromagnetic device, with reference to the specific embodiments of the present invention and its components, all of which relate to front and rear, left and right, top and bottom, upper and lower, and horizontal and vertical references, only For convenience of description, it is not intended to limit the creation, nor to limit its components to any position or space. The drawings and the dimensions specified in the specification may be varied according to the design and needs of the specific embodiments of the present invention, without departing from the scope of the invention.

The coaxial electromagnetic device of the present invention is constructed as shown in the first figure, and is formed by interlacing at least one disk (1) and at least one coil disk (2) which are relatively movable, and the disk (1) And a coil module (2) is provided with at least one electric module (101) and a power generating module (102), wherein one electric module (101) is provided The outer diameter of the disk (1) and the coil disk (2), and one of the power modules (102) is disposed at the innermost diameter of the disk (1) and the coil disk (2), and then the disks (1) And the coil discs (2) can be respectively defined as a rotor or a stator, which can synchronously generate relative motions with each other. The present invention uses the disks (1) as rotors and the coil discs (2) as stators. For the detailed configuration of the preferred embodiment of the present invention, please refer to the first, second and third figures, wherein the electric modules (101) are provided by a group of disks (1). The electric magnetic array (10) and a set of relative electric coil arrays (20) and a set of inductive switch groups (30) disposed on the coil disk (2); and the electric magnetic arrays (10) As shown in the first and second figures, it is arranged on the magnetic disk (1) with at least one first magnetic member (11) and at least one second magnetic member (12) spaced apart in the moving direction, and the first The lengths of the two magnetic members (11, 12) are equal, and the first and second magnetic members (11, 12) are magnetized in the moving direction, and the adjacent first and second magnetic members (11, 12) or the first Second, the magnetic poles of a magnetic piece (12, 11) are in the same polarity Adjacent, for example, the N pole corresponds to the N pole or the S pole corresponds to the S pole [as shown in the second figure], and the adjacent first and second magnetic members (11, 12) or the second and a magnetic member (12, 11) Having a magnetic gap (13) of equal width, and further a shaft (105) is provided at the center of each disk (1) for synchronous rotation; and the array of electric coils (20) is first As shown in the three figures, the coil coils (2) respectively have at least one same axis and are spaced apart from each other by an induction coil member (21) having a magnetizer (22) and A coil (23) is disposed around the magnetizer (22), and the coil (23) is connected to a power source, and the power source can be positively or reversely powered to connect the coil (23) of the induction coil member (21). Can be magnetized when power is supplied, and the electric wire can be made The row group (20) generates a magnetic force for the relative motion of the two relative magneto-arc trains (10), and the coil (23) of the induction coil member (21) has a length greater than or equal to a quarter of the magnetic member (11). , 12) the length, and the length of the coil (23) is less than or equal to three-quarters of the length of the magnetic members (11, 12), and the optimal length of the present coil (23) is equal to two-quarters of the magnetic members (11) , 12) length. In addition, the length of the magnetizer (22) of the induction coil member (21) is greater than or equal to the length of any of the magnetic members (11, 12) plus the width of the adjacent magnetic gap (13), and the length of the magnetizer (22) is less than or equal to The length of any of the magnetic members (11, 12) plus the width of the adjacent magnetic gap (13) plus the length of the same set of coils (23), and the optimum length of the present magnetizer (22) is any magnetic member (11) 12) length plus the width of the adjacent magnetic gap (13), and further, a shaft hole (205) for pivoting the shaft (105) is formed at the center of each coil disk (2), so that the disk (1) can be opposed to the coil disk (2) Rotating; refer to the figures shown in Figures 2 and 3, wherein the inductive switch group (30) includes at least one power detector (31) provided on the disk (1) of the electromagnetism group (10) At least one power-off detector (32) and at least one conduction sensor (35) and at least one cut-off sensor (36) disposed on the coil unit (2) of the electric coil array (20) for controlling the electric coil column Whether the coil (23) of the group (20) is in communication with the power source. The power detectors (31) are respectively disposed in the first and second magnetic members (11, 12) and enter the magnetic pole faces of the induction coil members (21) according to the moving direction, and the power is off. The detector (32) is disposed in the first and second magnetic members (11, 12) opposite to the magnetic pole faces of the induction coil members (21) according to the moving direction, and the conduction inductors (35) Between the coils (23) of the induction coil members (21), the relative movement direction is away from the ends of the electro-magnetic arrays (10), and the cutting sensors (36) are respectively disposed on The coil of the induction coil member (21) (23) the relative movement direction enters the end of the electro-magnetic array (10), and the conduction inductor (35) on the induction coil member (21) detects the first and second magnetic members (11, 12) When the power detector (31) is supplied, the power source and the coil (23) of the corresponding induction coil member (21) can be connected to each other to generate electricity, and magnetic force is generated due to magnetization [as shown in the fourth figure], as for the cutting. When the inductor (36) detects the power-off detector (32) of the first and second magnetic members (11, 12), the coil (23) of the corresponding induction coil member (21) can be disconnected from the power source. Connected to form a non-powered state [as shown in the fifth figure], and the coil (23) of the power supply positive value induction coil member (21) is opposite to the positions of the first and second magnetic members (11, 12), which can reduce the proliferation The internal voltage, so that the input power can be effectively reduced; the power generation module (102) is composed of a group of electromagnetic groups (15) disposed on the magnetic disk (1) and a set of coils (2). The electromagnetic generating group (15) is composed of at least one third magnetic member (16) and at least one fourth magnetic member (17) arranged on the magnetic disk (1) in the moving direction. And the third and fourth The magnetic members (16, 17) are magnetized in a vertical movement direction, and the third and fourth magnetic members (16, 17) are arranged adjacent to each other, and the third and fourth magnetic members (16, 17) are Corresponding to the magnetic gaps (13) of the first and second magnetic members (11, 12) of the adjacent electro-magnetic arrays (10), and the third and fourth magnetic members of the electromagnetic group (15) (16, 17) adjacent to the magnetic poles of the adjacent first and second magnetic members (11, 12) or the second and second magnetic members (12, 11), forming a magnetic path in a uniform direction to avoid magnetic generation Crush, maintain good magnetic flow management, so that the magnetic assist strength and the number of power generation cuts can be improved, for example, the N pole corresponds to the N pole or the S pole corresponds to the S pole [as shown in the second figure]; Further, the power generating coils (25) are arranged on the coil disk (2) with at least one power generating coil (26) connected to the load in the moving direction, and the power generating coils (26) extend in a vertical moving direction, and the same The power generating coils (26) correspond to the third and fourth magnetic members (16, 17) of the electromagnetic generating group (15), and the third and fourth magnetic members (16, 17) of the electromagnetic generating group (15) and When the power generating coil (26) of the generating coil group (25) is cut by magnetic lines, it can generate power generation and be used or stored for the load; thereby, the group constitutes a coaxial electromagnetic device capable of autonomously generating and self-propelled motors.

As for the preferred embodiment of the present coaxial electromagnetic device, when it is actually actuated, as shown in the fourth and fifth figures, when the magnetic magnetic array (10) of the magnetic disk (1) and the coil disk (2) The electric coil array (20) synchronously generates relative motion. For example, the present invention uses the magnetic disk (1) as the rotor to rotate and the coil disk (2) as the stator to move; as shown in the fourth figure, when the inductive switch group (30) is a power detecting device (31) at one end of the first magnetic member (11) or the second magnetic member (12) of the electromagnetism group (10) in the same moving direction is used to sense the coil of the electric coil group (20) (23) When the conduction sensor (35) is away from the end in the relative movement direction, the corresponding coils (23) of the electric coil array (20) are respectively reversely fed or forwardly powered, so that the magnet of the induction coil member (21) (22) Corresponding polarity is generated by the magnetization of the coil (23). When the first magnetic member (11) corresponds to the coil (23) with the S pole, the polarity of the magnet (22) of the induction coil member (22) enters the end of the movement direction. It is N pole and the polarity of the exit end is S pole. When the second magnetic member (12) corresponds to the coil (23) with the N pole, the magnet (22) of the induction coil member (21) enters the end in the moving direction. The polarity is S pole, and the polarity of the exit end is N pole. Furthermore, at this time, the position of the magnetizer (22) of the induction coil member (21) at the entrance end in the relative movement direction is located at the next adjacent second magnetic member (12) or the first magnetic member (11), thereby The polarity of the induction coil member (21) of the electric coil array (20) at the exit end in the relative movement direction is the same as the magnetic pole of the induced first magnetic member (11) or the second magnetic member (12). And the relative movement direction forms a repulsive thrust, and at the same time, the polarity of the magnetizer (22) of the induction coil member (21) of the induction coil assembly (20) in the relative movement direction enters the end and the first of the induction The magnetic poles of an adjacent second magnetic member (12, 11) under the two magnetic members (11, 12) also have the same pole repulsion, so that the relative movement direction forms another repulsive thrust, thereby The magnetic coil assisting force is formed by the electric coil array (20) and the electric magnetic array (10) relative to the moving direction, which can effectively increase the rotational speed of the magnetic disk (1) and thereby increase the output power; otherwise, as shown in the fifth figure, The electro-magnetic array (10) and the electro-coil array (20) continue to move relative to each other when the inductive switch group (30) is in the electro-magnetic array (10) The power-off detector (32) at one end of the first and second magnetic members (11, 12) of the original induction power supply is in the sense coil component of the motor coil group (20) (21) When the coil (23) is in the opposite direction of movement and enters the cutting sensor (36), the coil (23) of the electric coil array (20) cuts off the power, so that the induction coil of the electric coil array (20) (21) The working magnetic field is not formed, and the coil (23) of the induction coil member (21) is prevented from entering the magnetic gap power generation region, so that a large power is required to be used for the magnetization coil (23) to generate a corresponding polarity; and (10) The magnetic pole axes of the first and second magnetic members (11, 12) are parallel to the direction of motion, so that the coils (23) of the coil assembly (20) of the induction coil assembly (21) are not in the magnet Power generation area can effectively reduce The internal voltage, thereby reducing the input power of the coil (23) of the induction coil member (21) to the electric drive, and under the enhanced magnetic assistance of the directional magnetic current, can increase the operating speed of the magnetic disk (1) to achieve eating The electric power is small, and the thrust is large; in addition, since the electric module (101) is disposed on the outermost diameter of the magnetic disk (1) and the coil disk (2), the power generation module (102) is attached to the magnetic disk (1) and The inner diameter of the coil disk (2) is affected by the force distance amplification and magnetic flow orientation of the electric module (101), and the electromagnetic generating unit of the power generating module (102) can be operated under the speed increasing operation of the magnetic disk (1). (15) A high cutting frequency is generated with the power generating coil group (25), and the power generation amount is increased to meet the demand for supplying power to the electric module (101), thereby achieving the purpose of autonomous power generation and a self-propelled motor.

In another preferred embodiment of the present invention, as shown in the sixth figure, the embodiment is a disk-type matrix coaxial electromagnetic device, which is two or more disks with opposite poles ( 1) Intersected with two or more coil discs (2), which can effectively improve the overall output kinetic energy and electric energy.

In this way, it can be understood that this creation is an excellent creation. In addition to effectively solving the problems faced by the practitioners, the effect is greatly enhanced, and the same or similar product creation or public use is not seen in the same technical field. At the same time, it has the effect of improving the efficiency. Therefore, this creation has met the requirements of "newness" and "progressiveness" of the new patent, and is applying for a new type of patent according to law.

(1)‧‧‧ Disk

(101)‧‧‧Electrical Module

(102)‧‧‧Power Module

(105)‧‧‧ shaft

(10) ‧‧‧Electromagnetic group

(11)‧‧‧First magnetic parts

(12)‧‧‧Second magnetic parts

(13)‧‧‧ Magnetic gap

(15) ‧‧‧Electromagnetic group

(16)‧‧‧ Third magnetic parts

(17)‧‧‧ Fourth magnetic parts

(2) ‧‧‧ coil disk

(205)‧‧‧Axis hole

(20)‧‧‧Electrical coil array

(21)‧‧‧Induction coil parts

(22)‧‧‧Guide magnets

(23)‧‧‧ coil

(25)‧‧‧Power coil group

(26)‧‧‧Power coil

Claims (10)

A coaxial electromagnetic device is formed by a magnetic disk and a coil disk spaced apart from each other, and the disk and the coil disk are respectively provided with at least one electric module and at least one power generating module, wherein one electric module is provided The outer diameter of the disk and the coil disk, and one of the power modules is disposed on the innermost diameter of the disk and the coil disk, and the disk and the coil disk can be respectively defined as a rotor or a stator, which can generate relative motion; The electric module is composed of a set of electric magnetic arrays disposed on a magnetic disk and a set of electric coil arrays and a set of inductive switches disposed on the coil disc and opposite to the electromagnetic array; At least one first magnetic member and at least one second magnetic member arranged in the moving direction of the electric magnetic array on the magnetic disk, and the lengths of the first and second magnetic members are equal, and the first and second magnetic members are in motion The direction is magnetized, and the magnetic poles of the adjacent first and second magnetic members are adjacent to the same pole, and the adjacent first and second magnetic members or the second and the magnetic members have a magnetic gap of equal width; The electric coil array on the disc has at least one same axis And inductive coil members spaced apart from each other, the inductive coil members respectively have a magnet and a coil wound around the magnetizer, and the coils of the inductive coil member can be respectively connected to a power supply for forward or reverse power supply, and then The length of the coil of the induction coil component is greater than or equal to the length of one of the magnetic members of the electric magnetic array, and is less than or equal to three-quarters of the length of any one of the magnetic magnetic arrays, and the induction coil member The length of the magnetizer is greater than or equal to the length of any magnetic member of the electromagnetism group plus the adjacent magnetic gap width, and is less than or equal to the length of any magnetic member of the electromagnet array plus the adjacent magnetic gap width plus the same group coil length; In addition, the sensing switch group includes at least one power detecting device, at least one power detecting device, and at least one conducting sensor and at least one cutting sensor disposed in the electric coil group. The power detecting device is disposed in the first and second magnetic members to enter the magnetic pole faces of the induction coil members according to the moving direction, and the power failure detecting devices are respectively disposed in the first The first and second magnetic members are relatively away from the magnetic pole faces of the induction coil members according to the moving direction, and the conduction inductors are disposed in the coils of the induction coil members to move away from the end of the electromagnetism group. And the cutting sensors are disposed in the coils of the induction coil members to enter the end of the electromagnetism group in a relative movement direction; and the other power generation modules are disposed on the disk by a group The electromagnetic group and a set of relative power generating coils disposed on the coil disk; wherein the electromagnetic group is arranged on the magnetic disk with at least one third magnetic member and at least a fourth magnetic member arranged in a moving direction, and the same The third and fourth magnetic parts are vertically transported The direction is magnetized, and the third and fourth magnetic members are arranged adjacent to each other, and the third and fourth magnetic members correspond to the magnetic gaps of the first and second magnetic members of the adjacent electromagnetic array. And the third and fourth magnetic members of the electromagnetic group are adjacent to the magnetic poles of the adjacent first or second magnetic members or the second magnetic member; and the generating coil assembly is attached to the coil plate At least one power generating coil connected to the load is arranged along the moving direction, and the power generating coils extend in a vertical moving direction, and the power generating coils correspond to the third and fourth magnetic members of the electromagnetic generating group. The coaxial electromagnetic device according to claim 1, wherein the optimal length of the coil of the induction coil component of the electric coil array is equal to the length of any one of the magnetic components of the two-fourth electric magnetic array. The optimum length of the magnet is the length of any magnetic member of the electromagnetic array plus the adjacent magnetic gap width. The coaxial electromagnetic device according to claim 1, wherein the position of the induction coil members of the coil assembly of the coil disc is aligned with the same position of the adjacent magnetic members of the electromagnetic array. The coaxial electromagnetic device according to claim 1, wherein the inductive coil members of the coil assembly of the coil disc are arranged in a misaligned position corresponding to the adjacent magnetic members of the electromagnet array. The coaxial electromagnetic device according to any one of claims 1 to 4, wherein the magnetic disk is a rotor, and the coil disk is a stator, and a shaft is disposed at a center of the disk, and a shaft is formed at a center of the coil disk. The rod is pivoted through the pivot hole to allow the disk to rotate relative to the coil disk. A coaxial electromagnetic device is formed by interlacing two or more magnetic disks that can be synchronously moved relative to two or more coil disks, and the disks and the coil disks are respectively provided with at least one An electric module and at least one power generation module, wherein one electric module is disposed at an outermost diameter of the magnetic disk and the coil disk, and one of the power generation modules is disposed at an innermost diameter of the magnetic disk and the coil disk, and the disks are The coil coils can be respectively defined as a rotor or a stator, which can synchronously generate relative motions with each other; the electric modules are composed of a set of electromagnetic arrays disposed on the magnetic disk and a set of coils, and The electric magnetic array is composed of an electric coil array and a set of inductive switches; The at least one first magnetic member and the at least one second magnetic member are arranged in the moving direction of the electric magnetic array on the magnetic disk, and the lengths of the first and second magnetic members are equal, and the first and second magnetic members are The direction of motion is magnetized, and the magnetic poles of the adjacent first and second magnetic members are adjacent to the same pole, and the adjacent first and second magnetic members or the second and the magnetic members have a magnetic gap of equal width; The electric coil array on the coil disk has at least one same-axis and mutually spaced induction coil members, and the induction coil members respectively have a magnetizer and a coil wound around the magnetizer, and the coil of the induction coil member can be Connected to a power supply for forward or reverse power supply, and the length of the coil of the induction coil member is greater than or equal to the length of one of the magnetic members of the electric magnetic array, and less than or equal to three-quarters of the electric magnetic array. The length of any magnetic member, and the length of the magnet of the induction coil member is greater than or equal to the length of any magnetic member of the electromagnet group plus the adjacent gap width, and less than or equal to the length of any magnetic member of the electromagnet group plus Adjacent magnetic gap The inductive switch group includes at least one power detector disposed in the electromagnet group, at least one power failure detector, and at least one conduction layer disposed in the motor coil group The sensor and the at least one cut-off sensor, wherein the power-sensing detectors are disposed in the first and second magnetic members, and enter the magnetic pole faces of the induction coil members in the moving direction, and the power-off detection is performed. The device is disposed in the first and second magnetic members and relatively away from the magnetic pole faces of the induction coil members according to the moving direction, and the conduction inductors are respectively disposed in the relative movement directions of the coils of the induction coil members. Leaving the end of the electromagnetism group, and the cutting sensors are disposed in the coils of the inductive coil members to enter the end of the electromagnetism group in a relative movement direction; The power generating module is further composed of a set of electromagnetic groups disposed on the magnetic disk and a set of opposite power generating coils disposed on the coil disk; wherein the electromagnetic generating group is arranged on the magnetic disk in the moving direction at least a third magnetic member and at least a fourth magnetic member, and the third and fourth magnetic members are magnetized in a vertical movement direction, and the third and fourth magnetic members are arranged adjacent to each other in a different polarity, and the third And four magnetic members corresponding to the magnetic gaps of the first and second magnetic members of the adjacent electro-magnetic array, and the third and fourth magnetic members of the electromagnetic group and the adjacent first and second magnetic members Or the magnetic poles of the second magnetic component are adjacent to the same pole; and the power generating coil group is arranged on the coil disk with at least one power generating coil connected to the load in the moving direction, and the power generating coils extend in a vertical motion direction, and The power generating coils correspond to the third and fourth magnetic members of the electromagnetic group. The coaxial electromagnetic device of claim 6, wherein the optimal length of the coil of the induction coil component of the electric coil array is equal to the length of any one of the magnetic components of the two-fourth electric magnetic array. The optimum length of the magnetic conductor is the length of any magnetic member of the electromagnetic array plus the adjacent magnetic gap width. The coaxial electromagnetic device according to claim 6, wherein the position of the induction coil members of the electric coil array of the coil discs is aligned with the same position of the adjacent magnetic members of the electromagnetic array. The coaxial electromagnetic device according to claim 6, wherein the inductive coil members of the electric coil array of the coil discs are arranged in a misaligned position corresponding to the adjacent magnetic members of the electromagnetic array. The coaxial electromagnetic device according to any one of claims 6-9, wherein the magnetic disks are used as rotors, and the coil disks are used as stators, and a center of each disk is provided with a shaft, and then each coil disk center A shaft hole for pivoting the shaft is formed to allow the disks to rotate synchronously with respect to the coils.