CN111350631A - Generator motor technology and extension with front force - Google Patents

Abstract

The invention relates to the knowledge of wind (water) power generation, mechanical principle and the like, in particular to a generator motor stressed in the positive direction and technical expansion; the problems of low efficiency, few functions and the like caused by stress on the inclined plane of the traditional generator and the traditional motor are solved. The invention is to subvert the traditional mode of 'stator fixing and rotor rotating' of the traditional generator or motor, but fix the rotor, rotate the stator, further rotate the stator and have the opposite direction with the rotor. Thereby initiating new, more important functions. Particularly, the amphibious vehicle (ship), the male and female groove type reciprocal rotation generator, the two groups of bidirectional blade wind driven generators and the like enable the vehicle and the ship not only to be an electric facility, but also to generate electricity, and to be capable of going ashore and launching water at will, the power generation facility is not a high and grand product which is difficult to be touched by common people, and the wind power generation can be easily increased by two times; because the stress mode of the generator is changed, the power generation cost is lower, and the generator is simpler, more convenient and more practical.

Description

Generator motor technology and extension with front force

One, the technical field

The invention mainly applies knowledge in the aspects of mechanical principle, hydrodynamics and power generation, in particular to a power generation motor technology with front stress and an expanded application technology.

Second, background Art

The existing fluid (wind or water flow) power generation technology is applied more and more widely, the principle of the technology is that fluid with certain flow velocity is mostly adopted to impact an inclined plane of a blade (the same below a blade or an impeller), the blade is pushed to rotate by the tangential force of one of component forces generated by impact force, and the other two component forces (radial force and axial force) are wasted, and only the tangential force changes the linear motion of the fluid into circular motion. Moreover, hydroelectric power generation adopts the dam retaining to improve the water level mostly, and the reservoir water storage also has certain disadvantage when improving environment and irrigation and do benefit to agro-farming, if: the engineering is huge, the natural ecology is changed, the water traffic is hindered, and the like. Similarly, the wind power generation cannot avoid the defect of stress on the inclined plane, in order to obtain more energy, the blades can only be made longer and longer, the manufacturing cost is higher and higher, the manufacturing and installation conditions are also harsher, the potential safety hazard under extreme weather conditions is artificially formed, and the birds are harmed invisibly. The defects are far more than the defects, water navigation is one of main human traffic modes, a driving mode of a ship is the same as that of a wind driven generator, a power source drives blades by a shaft, the conversion of torque from linear motion is completed by an inclined plane of the blades, the driving mode and the wind driven generator work in a mutually reverse mode, water is pushed by the inclined plane of the blades so as to enable the ship to move forwards, the torque is converted into thrust, only one axial force of a component force is converted into the thrust, and the other two component forces (radial force and tangential force) are wasted and do not work.

In summary, the same principle is adopted for the utilization of fluid in the aspects of power generation or ship sailing of human beings, namely, the mutual conversion from the linear motion of energy to the torque rotation is realized between the inclined plane of the blade and the shaft by the twisted angle of the blade, and the conversion mode finished by the inclined plane is called as an inclined plane mode. When generating electricity, the paddle is pushed by external force to rotate the shaft; during sailing, the shaft rotates to drive the blades to rotate to generate thrust to water, the blades and the water work in a mutually reverse mode, in the process of converting torque and the thrust, no matter in the process of stress or thrust, one of the generated component forces (the tangential force and the axial force) is used for acting, other forces are lost, no matter how the design is optimized, the loss can only be reduced, and the loss cannot be eliminated, so that the defect of 'inclined plane mode' fetal growth is overcome.

In the development process of the technology, the inclined plane mode is only one of a plurality of energy transmission modes, and people have the inherence of inertial knowledge, so that the inclined plane mode is always used as a main mode till now even if some other transmission modes are adopted, such as: the straight plate drive of the pedal boat is also failed due to unfavorable factors such as technical and practical values. Because the 'inclined plane mode' is a defect of generating large power loss when used for power generation, the power generating device not only generates component force loss when used on a ship, but also more importantly excludes other driving modes, the most direct and worst result is that the ship is firmly tied in water, so that the ship stops on the shore for centuries, and the 'shore' is expected to appear.

The energy of the fluid is the best four existing energy sources (free, endless, pollution-free and ubiquitous) except the light energy, and the fluid is reasonably converted into the electric energy, so that the fluid is used by human and is a welfare of society.

Third, the invention

1. Generating motor with front stress

The scheme adopts a straight plate stress mode to replace an inclined plane stress mode, and as can be seen from the stress analysis of the paddle in figure 1, the working mode of the ship is an active stress mode, the power source outputs torque M, and after the torque M is transmitted by the rotating shaft and the paddle, three component forces are finally generated on the inclined plane of the paddle, and only F is generated_ShaftThe ship is made to advance, and the other two force components do useless work. Similarly, the wind power generation acting mode is passive stress, wind blows on the inclined plane of the blade to generate three component forces, and only F is available_{Cutting machine}The torque M is generated, and the other two components are also useless. From this it can be concluded that: the existing 'slope stress' mode has great power loss in the conversion process from torque rotation to linear motion.

The invention aims to provide a generator-motor technology with front stress and application thereof, which is simple, efficient, practical and wider in application range and breaks through the prior art aiming at the defects and the defects of the prior art. In order to achieve the purpose, the invention adopts the following technical scheme:

according to the following: the invention relates to a principle that a magnetic generator and a magnetic motor have the same structure and work in opposite directions, which improves the magnetic generator or the magnetic motor, combines the functions of the magnetic generator and the magnetic motor into a whole and manufactures a magnetic generator motor, and the principle comprises the following steps: a barrel is internally provided with a plurality of groups of magnetic poles, a barrel is externally provided with wing plates, the barrel with the wing plates and the magnetic poles jointly form an external rotor, an armature iron core wound with coils is arranged in the barrel, the coils, the armature iron core and a central shaft jointly form an internal stator, the structure of the stator and the rotor of the traditional generator or motor is changed, the original stator is externally arranged at the inside, the original rotor is externally arranged at the inside, particularly, the stator does not rotate, the central shaft does not rotate, and the shaft is a rotating shaft of the external rotor, and the generator motor comprises: the outer part becomes the rotor rotating and the inner part becomes the stator stationary.

According to the scheme, in order to overcome the defect of 'inclined plane stress' of the traditional generator, the wing plates are specially arranged outside the barrel, are straight plates, are stressed at the front, are carriers for pushing the generator to rotate by fluid or applying work to the outside by the motor, and are the generator motor stressed at the front.

The invention has the advantages that when the motor is used as a motor: because the stator in the center is fixed, after the stator is electrified, the coil of the stator enables the armature iron core to generate a magnetic field, the magnetic field interacts with the fixed magnetic group on the outer rotor barrel, the outer rotor rotates, and power can be output outwards, so that the motor is formed. Here, the outward output power is divided into two cases: firstly, the paddle is used as a driver of a ship, the wing plates generate thrust on water, and the water flow is positively pushed, so that the efficiency is greater than the inclined plane stress of the traditional paddle; and secondly, when the wing plate serves as a power source to transmit torque to a gear box or a belt pulley and the like, the torque can be output by using a barrel, and the wing plate does not work at the moment and can be cancelled. When this machine used as the generator: the fluid drives the wing plate on the barrel to enable the external rotor to rotate, the magnetic group and the stator coil move relatively, and the coil cuts magnetic lines of force to generate current so as to generate electricity, namely the generator. The invention also has another important meaning from the point that when the ship is used as a driver on a ship, the ship is parked in flowing water, and water flow can continuously push the wing plate to generate power, namely, the ship can charge a self-contained storage battery during leisure time and can also transmit power to the outside.

Because the generator motor has the power generation function, and the energy of fluid is endless again, in order to solve the current situation that the energy is in short supply, further, utilize this function that the generator motor can generate electricity, make a large amount of power generation facilities specially, because this machine structure is skilful and small simple, can regard as basic unit, adopt the mode of permutation and combination to make up, the cluster installation, can use alone in less occasion, also can make up and use in great occasion, because fluidic compensation, will have a large amount of electric quantities to produce, input-output ratio will be very big. As can be seen from the above discussion, the generator motor with a force applied to the front side includes: three functions of power generation, electromotion and driving.

2. Amphibious vehicle

The generator motor with the tyre has the function of wheel, and can be directly mounted on the vehicle, so that the vehicle can run.

Here, the manufacture and installation of the high-strength tire are subject to more strict requirements: the water pushing function of the wing plate cannot be influenced, and the function of a wheel which normally runs is guaranteed, so that the strength of the tire is high, the tire is thinner than the section of a common tire so as to reduce the blockage of the water pushing function of the wing plate, the appearance is made into a tire shape similar to a bicycle, the installation positions can only be two sides of the wing plate of the power generation motor, and a tire is added in the middle when the strength has special requirements (such as being used as an amphibious tank). The high-strength tyre is more suitable for being made into a pipe ring shape, and can also be made into a solid tyre, wherein the inside of the high-strength tyre is provided with an annular spring ring which is matched with a normal rubber tyre structure.

The invention has the beneficial effects that: the existing electronic technology makes the generator motor with tyre into a direct current brushless motor very simple and more practical, especially when used as a driving machine, no matter the generator motor is used as a ship driver or a wheel of an automobile, the speed regulation can be realized by increasing and decreasing current of the direct current motor, the speed regulation of the existing automobile is very convenient, the speed regulation of the engine of the latter automobile is improved by a gearbox, the speed regulation is realized by increasing and decreasing current in the wheel, the structure of the automobile is greatly simplified, and the ship has the same reason. The wheels have a plurality of functions of power generation, electromotion, driving, speed change and the like, so that the flexibility of the vehicle (or the ship) is greatly improved, the manufacturing cost is reduced, the mechanical operation of the existing vehicle (or the ship) can be changed into keyboard type operation, the remote control is favorably realized, and the unmanned driving in the 5G era is more suitable.

3. Male and female slot type reciprocal rotary generator

The generator motor has the power generation function immediately, and when the electric power is in short supply and people seek green energy as much as possible, the generator motor is further improved and is inevitably selected when being specially used for power generation, and according to the structure and the functional characteristics of the generator motor, a male and female groove form is introduced to carry out structural design on the generator, and the improvement method comprises the following steps: one end of the barrel is sealed, the barrel, the magnetic group and the wing plate are combined into a bearing platform shape, a small cylinder with an external winding coil is arranged at the upper part of the bearing platform, a male-female groove type structure is completed, the male and female parts of the structure are integrated, the cylinder with the coil wound at the upper part of the bearing platform is male, the hollow barrel formed inside the barrel with the magnetic group embedded inside the bearing platform is female, two male and female slots are used as a group, a central shaft is used for penetrating together from top to bottom, a male at one lower part is inserted into a female at the other upper part, the central shaft is used as a boundary, the two drums with wing plates are respectively shielded by baffles on different half surfaces, so that under the pushing of fluid, the two male and female grooves can rotate in opposite directions, the magnetic group in the drum (namely female) of the upper male and female groove and the coil on the cylinder (namely male) of the lower male and female groove can rotate in opposite directions, and the magnetic lines are cut to generate electricity, namely the male and female groove type mutual inverse rotation generator.

The invention has the beneficial effects that: the front surface of the wing plate is stressed, so that the efficiency is high; the magnetic group and the coil rotate reversely and simultaneously, the relative rotating speed is high, and the problem that the conventional wind power generation cannot generate power due to the fact that the wind speed is low and the designed minimum rotating speed cannot be achieved is solved. The male and female grooves can be simply regarded as basic units, different combinations can be carried out according to different application occasions and environments, the male and female grooves can be used in places with fluid, and can be used on land, in the air, on water and under water, and the underwater use effect is better. The device can be used in various modes such as single mode, cluster mode, matrix group mode and the like, and a large amount of power can be obtained easily.

4. Wind driven generator with two groups of bidirectional blades

The male and female slot power generation mode has the incomparable advantage of the existing wind driven generator, namely the outer rotor and the inner rotor can rotate reversely at the same time, the mode is introduced to the existing wind driven generator, and the efficiency of the wind driven generator can be improved by two times after improvement. The significance of the wind power generation is self-evident as the first major country in the world. The improved manufacturing method comprises an external part and an internal part, wherein the external part is improved by the following method: the original 3 blades of the wind driven generator are regarded as one group, and a group of 3 blades is added on the basis, and the deflection directions of the blades of the two blade groups are opposite so as to ensure that the rotation directions of the two groups of blades are opposite; two groups of blades are arranged in a coaxial mode, the coaxial mode is composed of a hollow shaft connected with the newly-added blade group and a solid shaft connected with the original blade group, and the wind energy utilization rate of the two groups of blades can be doubled compared with that of one group of blades. The internal improvement method comprises the following steps: the drum, namely the shell of the original generator and the magnetic group embedded in the drum form an outer rotor, and the rotating shaft is a central shaft. The armature iron core wound with the coil and the central shaft form an inner rotor, and the central shaft is also used as a rotating shaft, namely the outer rotor and the inner rotor rotate coaxially. The hollow shaft of the newly added blade group is connected with an outer rotor of the generator; the solid shaft of the original blade group is connected with the inner rotor of the generator, so that the rotating shaft of the original blade group, namely the solid shaft, is connected with the rotating shaft of the inner rotor, namely the central shaft, to form a shaft, namely the two groups of bidirectional blade wind driven generators. Under the action of wind force, the two blade groups rotate reversely, and the hollow shaft and the solid shaft respectively drive the outer rotor and the inner rotor to rotate reversely, so that power is generated. Because the original shell is changed into a drum of the outer rotor, a fixed protective cover needs to be added outside the outer rotor. The invention has the beneficial effects that: the efficiency of the wind power generator is improved by two times compared with the prior wind power generator (two blade groups are mutually reversed at the same time).

Attached: storage and conversion of electrical energy

The existing power generation facilities have a common problem, namely the problems of peak and valley of power generation, which can bring impact and burden to the power grid, increase the electric quantity, limit the capacity of the power grid and prevent the power grid from being stored; the electric quantity has lacked, can not satisfy the user demand, how to stabilize this crest and trough problem, the not enough problem of electric quantity will be solved soon in the popularization of above-mentioned electricity generation mode, but the storage of electric quantity surplus all the time is the problem that is difficult to solve, can solve with electrochemical's mode: electrolyzed water (chemical equation of electrolyzed water: 2H)₂O＝＝＝2H₂↑+O₂↓ (energized)) or electrolytic salt water (electrolytic salt water chemical equation 2NaCl +2H₂O＝Cl₂↑+H₂× +2NaOH (power on)), and excess power is consumed in both ways. The products after electrolysis are hydrogen, oxygen, chlorine and caustic soda, are energy sources and industrial raw materials, can be directly used for industry or vehicles (for developing hydrogen energy vehicles), and the oxygen and the hydrogen are energy sources and can be stored.

Description of the drawings

1. FIG. 1 is a force analysis diagram of a blade bevel;

2. FIG. 2 is a comparison diagram of the working principle of the magnetic generator and the magnetic motor;

3. FIG. 3 is a schematic view of a generator-motor structure according to the present invention;

4. FIG. 4 is a structural view of a high tensile tire of the present invention;

5. FIG. 5 is a schematic view of a wheel assembled by a generator motor and a high-strength tire according to the present invention;

6. FIG. 6 is a schematic diagram of landing of an amphibious ship according to the present invention;

7. FIG. 7 is a schematic illustration of a large vessel landing in accordance with the present invention;

8. FIG. 8 is a diagram of a power generation matrix towed by a tugboat of the present invention that is dedicated to power generation;

9. FIG. 9 is a diagram of a power generation matrix set for underwater installation of the present invention for generating electricity;

10. FIG. 10 is a diagram of a power generation matrix array of the present invention specifically designed for aerial installation of power generation;

11. FIG. 11 is a structural view of a male and female trough type power generating (unit) machine of the present invention;

12. FIG. 12 is a schematic diagram of a matrix formed by arranging and combining the power generating male and female slots of the present invention;

13. FIG. 13 is a power generation matrix diagram of the present invention stacked layer upon layer;

14. FIG. 14 is a diagram of a two-set bi-directional bladed wind turbine of the present invention;

names of the various items in the figure: piece 1: a barrel; piece 2: a magnetic group; piece 3: a coil; and (4) part: a central shaft; piece 5: an armature core; piece 6: rubber; member 7 spring ring: piece 8: a group of primitive leaf tablets; piece 9: newly adding a blade group; piece 10: a hollow shaft; piece 11: an inner rotor; member 12: an outer rotor; piece 13: a wing plate; piece 14: a solid shaft; member 15; a cylinder; member 16: a shielding plate.

Fifth, detailed description of the invention

1. Generating motor with front stress

The solution of the present scheme is discussed with reference to the accompanying drawings, and according to the principle that the magnetic generator and the magnetic motor have the same structure and work in reverse, the two functions are combined into a whole to manufacture a generator motor, as shown in fig. 2, a coil group consisting of conductors is placed in a magnetic field, and when the coil group is electrified, the conductors rotate, so that the generator motor is the motor (right drawing); the coil is driven by external force to rotate, current is generated in the coil, and the coil is a generator (left drawing) at the moment, and the coil and the generator are actually the same body. Accordingly, as shown in fig. 3, a barrel 1 is manufactured, a magnetic group 2 is embedded in the barrel, the barrel 1 and the magnetic group 2 form an outer rotor, a coil 3 wound on an armature core 5 and a central shaft 4 form an inner stator, and the outer rotor and the inner stator together form a generator motor, as shown in the right diagram of fig. 3, the generator motor is the generator motor (the right diagram). In order to improve the power of the generator during power generation, straight plate stress is adopted, so that the history of the traditional 'inclined plane stress' generated rotating force is ended, the method is very simple, namely n wing plates 13 (left figure) are uniformly added on the outer ring of the barrel 1 along the circumferential axis direction, the wing plates 13 are the straight plate stress, the straight plate stress only generates two component forces, the straight plate stress is changed in the rotating process, the straight plate stress is optimal at 90 degrees, the straight plate stress is completely the front force, no component force exists, and therefore compared with the 'inclined plane stress', the effect is greatly improved, and the generator motor with the front force is a generator motor with the front force.

2. Amphibious vehicle

Because the generator motor has a driving function, a high-strength tire can be arranged on the outer side of the wing plate 13 of the generator motor, as shown in fig. 5, the generator motor is made into a wheel and can be directly arranged on a vehicle to be used as the wheel, because the generator motor has the wing plate 13 (see fig. 3), water can be pushed in the water, and as long as the high-strength tire is arranged, the high-strength tire does not block the water pushing, the vehicle can completely sail on the water surface under the conditions that the vehicle is sealed on the chassis and the buoyancy is properly considered, so that the amphibious vehicle is amphibious. The manufacturing requirements of the high-strength tire are as follows: it must have a certain strength to satisfy the requirement, as shown in fig. 4, where the frame is made of a coil spring 7 and the rubber 6 is made in a hollow tubular shape or a solid tubular shape. The installation requirements are as follows: the two sides of the wing plate 13 are arranged, and one additional wing plate can be arranged in the middle of the wing plate on occasions with special strength requirements (such as the wing plate arranged on an amphibious tank). When a ship provided with the wheel arrives at the shore, the ship can directly land along a slope as shown in fig. 6, the generator motor has a simple and small structure and can be regarded as a basic unit and combined according to requirements, if a large ship can be combined into a matrix for installation, the ship can be launched or landed as shown in fig. 7, and the wheel has a power generation function, and when the energy is short, the generator motor is used for generating power inevitably, the generator motor stressed at the front is used as a basic unit, the generator (tires do not need to be installed at the moment) is specially arranged and combined for generating power to form a matrix, the matrix is superposed layer by layer to form a matrix group, and the matrix group is specially used for generating power in various ways, for example, the matrix group is hung on a floating ship on the water surface, then each floating ship is arranged into a chain, dragged to the water surface by a towing ship and anchored at the shore or at the shore as shown in fig. 8; the matrix group is directly installed under water and fixed by floaters as shown in figure 9; even helium balloons can be used to raise the matrix array into the air as shown in fig. 10, and the above method can be used to generate electricity. Mooring an amphibious vessel in flowing water, using water flow to charge itself is also a simple, practical method.

3. Male and female slot type reciprocal rotary generator

The matrix group formed by the generator motor is specially used for power generation and has a great defect that only the outer rotor rotates when acting, the inner stator is fixed, the power generation is convenient, the improvement is further carried out, namely the inner stator also rotates, the method is very simple, a male and female groove mode is introduced, the structural design is adopted as shown in figure 11, a barrel 1, a magnet group 2 and a wing plate 13 of the generator motor are made into a bearing platform shape, a small cylinder 15 wound with a coil 3 is arranged on the bearing platform, a cavity formed in the bearing platform barrel 1 is used as a female of the male and female groove, the small cylinder 15 and the coil 3 form a column which is used as a male of the male and female groove, the male and female groove are of a monomer structure with the same body as the male and female, one male is inserted into the other female, the two male and female grooves are connected in series by using a central shaft 4, and two different half surfaces of the two bearing platforms are respectively shielded by using a shielding plate 16 with the axis as the center, the basic unit structure of the male and female grooves is formed, and in fluid, the basic unit formed by the two male and female grooves rotates in a reciprocal mode under the pushing of the fluid, and the male and female groove type reciprocal rotation generator is formed.

In order to meet the power generation requirements under various environments, a plurality of male and female trough type power generation units are arranged and combined to form a matrix as shown in fig. 12, and a matrix group is shown in fig. 13, so that the power generation device can be used in windy open space and air and water surface and water with rich water flow resources for large-scale power generation, and can also be used for single power generation, stringing and arranging in small combinations at high places such as roofs, telegraph poles and the like to generate power everywhere.

4. Wind driven generator with two groups of bidirectional blades

The male and female groove type generator has the function that the outer rotor and the inner rotor can be mutually reversed, and in comparison, the defects and the defects of the wind driven generator are not exposed, and the efficiency of wind power generation can be improved by applying the function to the wind driven generator.

The specific method comprises the following steps: as shown in fig. 14, according to the original wind power generator, i.e. the original blade set 8, a new blade set 9 identical to the original blade set is added, and is coaxially installed with the original blade set 8, but the deflection directions of the blades are opposite, so that the blades rotate in a mutually reverse manner, the generator of the original wind power generator set is that the rotor is arranged inside, the stator is arranged outside, the improved rotor is also called an inner rotor, the original outer stator is also rotated after being improved, then, the rotating shaft of the original blade set 8 is a solid shaft 14 and is connected with the central shaft 4 of the inner rotor of the generator, the connected central shaft 4 and the solid shaft 14 form a shaft, the rotating shaft of the new blade set 9 is a hollow shaft 10, the hollow shaft 10 is sleeved on the solid shaft 14 to form a coaxial manner and rotates in a mutually reverse direction, the hollow shaft 10 is connected with the outer rotor of the generator, so as to form two-way blade wind power generators, under the action of wind force, the two groups of blades rotate reversely, the inner rotor and the outer rotor are driven to rotate reversely through the solid shaft and the hollow shaft, so that power is generated, the original shell is changed into the outer rotor, and a protective cover is arranged outside the outer rotor. The double-set blades, the inner rotor and the outer rotor are mutually reversed, and the two improvements can improve the efficiency of the existing wind driven generator by 2 times.

The above description is only a preferred embodiment of the present invention, and all equivalent changes or modifications of the structure, characteristics and principles described in the present invention are included in the scope of the present invention.

Claims (5)

1. A generator-motor with front stress is characterized in that: the driving mechanism is changed into a straight plate generating motor with front force according to the principle improvement of a magnetic generator and a magnetic motor and the propulsion mode of a pedal boat propeller, and the structure is as follows: the magnetic pole (2) and the support ring (1) with the wing plate (13) are used as an external rotor, the armature iron core (5) is wound with the coil (3) and is installed on the central shaft (4) to be used as an internal stator, when the generator is used as a generator, the external rotor is pushed by fluid (wind or water flow) to rotate, the internal part is a fixed stator, and the magnetic stage (2) and the coil (3) move relatively to generate current to generate electricity; when the machine is used as a motor, a power supply supplies power to the coil (3), the armature core (5) generates a magnetic field, the magnetic field interacts with the magnetic pole (2) of the external rotor, and the machine rotates, works outwards through the wing plates (13) and generates power.

2. According to claim 1, a special high-strength tire is arranged on the outer ring of a wing plate (13) of the support ring (1) of the generator motor, the tire is composed of a spring ring (7) and rubber (6), the machine has the function of a wheel, and the machine is arranged on an automobile as the wheel, namely an amphibious vehicle (ship), and is characterized in that: under the condition of power supply of a vehicle-mounted power supply, the motor functions as a motor, and the automobile can run on the land; because the wing plates (13) carried by the support ring (1) have the function of pushing water, the support ring acts like a driver of a ship, and an automobile can also run on the water surface like a ship under the pushing action of the wing plates (13); therefore, under the condition that the bottom of the automobile is sealed and the automobile body has certain buoyancy, the automobile can freely move to and from the water surface and the bank.

3. According to claim 2, when the vehicle is parked in a river at rest, the generator motor is used for generating electricity, and the generator is a generator which is driven by water power and is stressed on the front surface of a straight plate, and the generator is characterized in that: can charge or transmit electricity to the electric wire netting to the storage battery, further to the electricity generation is the purpose, makes the generating motor of installation batch specially (need not adorn the tire this moment), can arrange the combination formula installation, more can form the matrix group, changes boats and ships into dedicated floater again, has just constituted the electricity generation group, and rivers promote, will have a large amount of electric quantities to produce.

4. According to claim 3, the structure of the external rotor and the internal stator of the generator-motor has changed the original structural mode of the traditional generator, and is further improved, the internal stator is also changed into the internal rotor, the external rotor is also the rotor, so that the mutual reversion of the external rotor and the internal rotor can be realized, thereby forming the male-female slot type reciprocal rotating generator, which is characterized in that: compared with the traditional power generation mode, the power generation mode has incomparable advantages, namely, the power generation mode has positive stress and reduces component force loss compared with the inclined plane stress of the wind driven generator, and the rotor and the stator rotate and rotate in opposite directions, so that the rotating speed is easily doubled, and the practical effect is strong; thirdly, small mechanisms form basic power generation units, the basic power generation units are combined randomly according to different requirements, the use is very flexible and convenient, a large number of male and female groove type power generation mechanisms are manufactured on the basis of the basic power generation units, the basic power generation units are combined according to requirements and can be used in a string or arranged into a matrix, and then a plurality of matrices form a matrix group to form a power generation group specially used for power generation; the specific manufacturing method comprises the following steps: a male groove and a female groove integrated with each other are manufactured, the outer part is based on an external rotor, namely a wing plate (13) and a barrel (1) with a magnetic group (2) embedded in the outer part, one end of the external rotor is plugged, namely the female part of the male groove, a cylinder (15) with a coil (3) is installed on the end face of the plug, namely the male part of the male groove and the female groove are placed one above the other, the lower male part is inserted into the upper female part, the two male grooves are connected in series by a central shaft (4), the two male grooves are divided by the longitudinal central shaft, different half faces of the female parts of the two male grooves are respectively shielded by a baffle (16), and the structure can rotate reversely under the action of fluid.

5. According to claim 4, the external rotor and the internal rotor of the male and female slot generators can be mutually reversed, and the wind generator can be improved in a breakthrough manner by applying the structure mode to the wind generator, namely, two groups of bidirectional blade wind generators, and the structure mode is characterized in that: after improvement, a group of blades is newly added, and the absorbed wind power is doubled; secondly, the two parts rotate in opposite directions, so that the efficiency is doubled; the method comprises the following steps: the method is characterized in that 3 blades of the existing wind driven generator are regarded as a group and regarded as an original blade group (8), a group (9) of blades is added, the deflection directions of each group of blades are opposite, the two groups of blades can rotate in the opposite directions under the action of wind power, the original blade group (8) drives an inner rotor (11) of the generator to rotate by using a solid shaft (10) by adopting a coaxial technology, the newly added blade group (9) drives an outer rotor (12) to rotate by using a hollow shaft (14), and thus the outer rotor (12) and the inner rotor (11) can be mutually reversed.

Images