WO2011000283A1 - Outer-rotation type bi-directional rotation power generating equipment - Google Patents

Abstract

An outer-rotation type bi-directional rotation power generating equipment includes two drive devices (E, F), a generator (1), an inverter, a support tower device (30), a support frame (25), a modulation control device and a rotation transmission conductive device (23). The angles of the blades respectively disposed on the two drive devices (E, F) are opposite one to the other. Driven by kinetic energy, the two drive devices (E, F) rotate in different directions to drive two rotation devices of the generator (1) also to rotate in different directions, thereby increasing the number of magnetic lines of force cut by the generator (1) in unit time and boosting the output power of the generator (1).

Description

 External rotary two-way rotary power generation equipment

 The present invention relates to a power generating apparatus and a mechanical device thereof, and more particularly to an externally-rotating two-way rotary power generating apparatus and apparatus thereof that utilizes resources to be converted into kinetic energy to generate electricity.

Background technique

 Social development People need electricity for their lives. Electricity is converted from energy. With the development of social energy, tangible resources will eventually dry up with the development. The survival of mankind requires energy, which enables scientific and efficient use of resources, increased energy efficiency, and the attention of governments around the world and the need to solve current problems. At present, the generators used in countries all over the world are mainly composed of stators, rotors, end covers, outer covers, bearings, rotating shafts and related accessories and fasteners. The generator transmits the kinetic energy to the rotating shaft through the relevant device accessories through external power, and the rotor rotates to generate electricity. Due to the limitations of the prior art of the generator, resources cannot be utilized more effectively. Up to now, there has been no externally-rotated two-way rotary power generation equipment and its devices that have not seen good stability, high energy utilization factor, and large output power in the market.

Summary of the invention

 SUMMARY OF THE INVENTION The object of the present invention is to overcome the deficiencies in the prior art and to provide an externally-rotating two-way rotary power generation apparatus and apparatus thereof which are simple in structure, easy to manufacture, high in energy utilization factor, small in size, light in weight, and large in output power.

In order to solve the above technical problem, the external rotation type two-way rotary power generation device and the device thereof are provided by a set of supporting tower devices, and a plurality of sets of at least two sets of blades of different sizes and different sizes are arranged. a plurality of sets of at least two sets of driving devices, a two-way rotating generator with two rotating shafts, two supporting rotating devices, a supporting tower device, a modulation control device, a rotating transmission conductive device, a power generation system mechanism and a rotating device, It consists of a fixture mechanism and other accessories. The generator is equipped with a bearing centered on the shaft of the supporting tower device, and is respectively equipped with a bearing at a set position of the shaft, and a left inner end cover of the generator having a shaft characteristic structure is respectively arranged outside the shaft of the bearing and the supporting tower device. The right inner cover of the generator is provided with a generator inner casing equipped with an electric conductor between the two end covers, and is fixed by a fastener to form a rotating device inside the generator. The left inner end cover of the generator with the shaft characteristic structure is equipped with the relevant accessories and the driving device, and constitutes an externally rotating two-way rotary power generation device. A power generating rotating device of the device and its device. The inner left end cover and the inner left end cover of the inner rotating device are respectively provided with bearings, and the outer left end cover of the generator having the shaft characteristic structure and the outer right end cover of the generator are respectively arranged outside the bearing, and the outer right end cover is covered at both ends The outer casing is assembled by the generator casing and fixed by fasteners. The left end cover is equipped with the relevant accessories and the driving device to form an externally-rotating two-way rotary power generating device and another device thereof. Power generation turning device. An iron core is arranged in the outer casing, a wire winding is arranged in the iron core, and the wire winding is connected as required, and the output ends A, B, and C pass through the wire transmission holes on the outer right end cover of the generator respectively to transmit and conduct electricity. The conductive rings 24a, 24b, 24c on the device are connected. The movable conductive fittings 27a, 27b, 27c are respectively abutted against the conductive rings 24a, 24b, 24c under the pressure of the spring, and the movable conductive fittings 27a, 27b, 27c are respectively connected to the relevant members through the transmission wires A', B', C'.

 The generator has two sets of rotating devices, and the two sets of rotating devices are respectively equipped with a generator end cover shaft, and the two shafts are respectively arranged on the supporting tower device through the related accessories and the two driving devices. The generator consists of at least two or more bearings, two or more end caps, and two or more generator casings. It consists of two or more drives, each of which consists of two or more blades, two or more flanges, two or more bearings, one or more supports composition. The two drive units are equipped with blades that are opposite in angle and rotate in opposite directions. The two driving devices of the generator, the rotating transmission conductive device and the supporting tower device are equipped with the same center device, and the two sets of rotating shaft driving devices are fitted with the generator as a center according to the outer surface of the supporting tower shaft. The two drive units consist of blades, bearings, flanges, support frames and related accessories are of different sizes, with the inner and outer layers of the tower axis as the center and the large outer casing. The generator is equipped with a rotating transmission conductive device, and the generator wire winding is connected as required, and then connected with the rotating transmission conductive device, the spring, and the movable conductive component through the relevant accessories. More than two drives, generators, support towers, and rotating transmissions are perpendicular to the ground at the same centerline. Driven by kinetic energy, the two driving devices rotate the two rotating devices that drive the generator in different directions and rotate in different directions at the same time, causing the generator to cut the magnetic lines per unit time to increase the output power of the generator, and the generated electric energy is transmitted through the rotation. The conductive device is passed to the active conductive accessory.

The invention has the beneficial effects that two sets of driving devices composed of two sets of blades of different angles and other related accessories are integrated into two sets of driving wheel devices. The two rotating devices are integrated into one Rotate the generator in both directions. Two sets of blades of different angles are integrated with a two-way rotating generator and a supporting tower device, and other related components to form an externally-rotating two-way rotary power generating device and a device thereof. The invention fully and scientifically utilizes resources, utilizes the principles of machinery, electromagnetics, and machines to exert potential energy, thereby increasing the output power of the generator. Increased utilization of materials and energy, energy saving and sustainable development.

DRAWINGS

 1 is an overall schematic view of an externally-rotating two-way rotary power generation device and an apparatus thereof;

 Figure 2 is a schematic view of the external rotation type two-way rotary power generation device;

 Figure 2a is a schematic cross-sectional view of the blade of the externally-rotating two-way rotary power plant; Figure 2b is a partial schematic view of the externally-rotating two-way rotary power plant and its device; Figure 3 is an externally-rotating two-way rotary power generation A schematic diagram of a part of the generator of the device and its device; Fig. 4a is a longitudinal sectional view of the outer casing of the two-way rotary power generating device and the generator casing;

 Figure 4b is a transverse sectional view of the outer casing of the externally-rotating two-way rotary power generating apparatus and the device thereof;

 Figure 5a is a longitudinal sectional view of the outer-rotating two-way rotary power generation device and the outer left end cover of the generator;

 Figure 5b is a left-view view of the outer left end cover of the generator of the externally-rotating two-way rotary power generation device and the device thereof;

 Figure 6a is a longitudinal sectional view of the outer-rotating two-way rotary power generation device and the outer right end cover of the generator;

 Figure 6b is a left-view view of the outer right end cover of the generator of the externally-rotating two-way rotary power generation device and its device;

 Figure 7a is a longitudinal sectional view showing the inner casing of the inner rotating device of the externally-rotating two-way rotary power generating apparatus and the device thereof;

 Figure 7b is a left side cross-sectional view of the inner casing of the external rotating device of the externally rotating two-way rotary power generating device and the generator thereof;

Figure 8a is a longitudinal sectional view showing the left end cover of the generator in the external rotation type two-way rotary power generation device and the device thereof; Figure 8b is a left-view view of the left-end cover of the generator in the external-rotating two-way rotary power generation apparatus and the device thereof;

 Figure 9a is a right-hand view of the right-handed two-way rotary power generation device and the right-end cover of the generator;

 Figure % is a longitudinal sectional view of the right end cover of the generator in the external rotation type two-way rotary power generation device and its device;

 Figure 10a is a schematic longitudinal sectional view of the lower flange of the externally driven two-way rotary power generating device and the external driving device thereof;

 Figure 10b is a left-view view of the lower flange of the external drive unit of the two-rotation power plant and its device;

 Figure 11a is a right-hand side view of the upper flange of the externally driven two-way rotary power plant and its external drive;

 Figure lib is a longitudinal sectional view of the upper flange of the externally driven device of the externally rotating two-way rotary power generating apparatus and its apparatus;

 Figure 12a is a longitudinal sectional view of the lower flange of the externally driven two-way rotary power generating apparatus and the internal driving device thereof;

 Figure 12b is a left-view view of the lower flange of the externally driven two-way rotary power plant and its external drive;

 Figure 13a is a right-hand side view of the upper flange of the externally driven two-way rotary power plant and its internal drive;

 Figure 13b is a longitudinal sectional view of the upper flange of the externally driven two-way rotary power generating apparatus and the internal driving device thereof;

 Figure 14a is a right-hand side view of the power-rotating conductive device of the external-rotating two-way rotary power generating apparatus and the generator of the same;

 Figure 14b is a longitudinal sectional view showing the power-rotating conductive device of the external-rotating two-way rotary power generating apparatus and the generator of the same;

 Figure 15a is a right-hand side view of the movable conductive device holder of the externally rotating two-way rotary power generating apparatus and its apparatus;

Figure 15b is a diagram showing the external conductive two-way rotary power generation device and its active conductive device bracket a longitudinal section of the set;

 Figure 16 is a partial longitudinal cross-sectional view showing the shaft of the support device of the externally rotating two-way rotary power generating apparatus and its apparatus.

 The components shown in the respective numbers in Figure 1_16 are:

 1 is the generator, 2 is the generator casing, 2' is the screw hole, 3 is the generator core, 3' is the clamp groove, 4 generator inner casing, 4' is the wire, 4" is the screw hole, 5 is The outer left end cover of the generator, 5' is the shaft hole, 5" is the structural table, 5a is the bearing box, 5a' is the bearing, 6 is the generator outer right end cover, 6' is the wire transmission hole, 6" is the wire transmission slot, 6a is the bearing box, 6b is the shaft hole, 7 is the generator inner left end cover, 7' is the bearing box, 7〃 is the bearing, 8 is the generator inner right end cover, 8 is the 'bearing box, 8' is the bearing, 9 is Fixing hole, 9〃 is screw hole, 10 is fixing hole, 11 is wire winding, 12 is conductive magnet, hole 12', 13 is screw hole, 13' is fixed wire, 14 is bearing hole, 14' is structural table 15 is a fixing hole, 15' is a screw hole, 16 is a hole, 16' is a shaft hole, 17 is a shaft hole, 17' is a fixing hole, 18 is a fixing hole, 18' is a shaft hole, 19 is a gland, 19 'For fixed structure, 20 is fixed hole, 20' is screw hole, 21 is bearing housing, 2 shaft hole, 21" fixing hole, 22 is gland, 22' fixed structure, 23 is power supply rotating conductive device, 23' Fixed hole 23" shaft holes, 24a, 24b, 24c are conductive rings, 24a', 24b', 24c' are respectively electrically isolated structures, 25 is a conductive device accessory movable support frame, 26 is an isolation structure, 26a, 26b, 26c are respectively The movable conductive fitting holes, 26a', 26b', 26c' are respectively wire transmission holes, 27a, 27b 27c are movable conductive fittings respectively, 28a, 28b, 28c are pressure springs respectively, 29 is a fixed wire, and 30 is a fixed support shaft device. 31 is a fixed plate, 32 is a fixed frame, 33 is a drawstring, 34, 34' are respectively a gland, 35, 35' are respectively rotating devices, 36, 36' are bearings, and A, B, and C are generators respectively. Winding transmission wire, A', B', C' are transmission wires, F is external drive device, E is internal drive device, G is the outer drive device upper flange, G' is the outer drive device lower flange, D is The inner drive unit has a flange, D' is the inner drive unit lower flange, Ga and Gb are the flange blade solid structure, Ga' and Gb' are the flange blade solid structure, G is the bearing hole, Da, Db, Dc is the blade fixed structure, Da', Db', Dc' are respectively the blade fixed structure.

detailed description

 Specific embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, and 16, the present invention is an outer circle on the support tower device 30. Bearing position, at the set bearing position The bearing shaft 7' is provided with a bearing 7", and the cover shaft box 7' is provided on the left end cover shaft 7 of the outer generator inner rotating device. A plurality of fixing holes 15 are formed in the outer circular position of the left end cover shaft 7 in the inner rotating device, and a hole 14 is formed in the center of the inner left end cover shaft 7, and a cover shaft box 7' is disposed at the center of the right end of the inner left end cover shaft 7 The left end of the left end cover shaft 7 is protruded and protruded for a period of time, and a protruding hole 15' is formed on the protruding portion. The bearing portion is arranged on the protruding portion, and the bearing 5a' is arranged on the bearing table, and the protruding portion is arranged A fitting and fixing structure with the driving device F and the flange D' is provided, and the fitting fixing structure of the flange D' is fixedly fitted with the left end cap shaft 7 through the related fittings and the fastener 20". "The outer circle on the right support tower device 30 is provided with a bearing position, and the bearing 8" is provided at the set bearing position. The center of the inner right end cover shaft 8 is provided with a shaft hole 16'. The right end of the right end protrudes from a section, and a protruding portion is provided with a bearing block. The center of the right end of the inner right end cap shaft 8 is provided with a bearing hole 8'. The bearing hole 8' is fitted with the bearing 8", and the inner right end is provided. The outer circumference of the cover shaft 8 is provided with a plurality of fixing holes 16. A generator inner casing 4 is disposed between the inner left end cover shaft 7 and the inner right end cover shaft 8, and a hole 12 is formed in the center of the generator inner casing 4, and both ends of the inner casing 4 are provided with a plurality of fixing screw holes 4", a plurality of fixing structures are arranged on the outer circumference of the inner casing 4, and a plurality of electrically conductive magnets 12 are arranged on the plurality of fixing structures, and the fasteners 15 are passed through the fasteners 15 〃 Fix the inner left end cover shaft 7, the inner right end cover shaft 8, and the generator inner casing 4 to form a rotating device inside the generator. The left end of the generator outer left end cover 5 is extended and extended. The protruding section is provided with a fixing structure with the lower flange G' of the outer driving device, and is fixedly fixed with the lower flange G' of the outer driving device through the related fittings, and the right end of the outer left end cover 5 is formed. There is a bearing box 5a, the bearing box 5a is fitted with the bearing 5a', the outer left end cover 5 is provided with a hole 5' at the center, and the outer left end cover 5 is provided with a plurality of fixing holes 9 on the outer circumference. A right wire transmission groove 6" is formed on the outer right end of the right end cover 6, and a hole 6a is formed in the center of the outer right end cover 6, and the setting position is set. There are a plurality of wire transmission holes 6', and a bearing housing 6a is formed on the right side of the outer right end cover 6, and the bearing housing 6a is fitted with the bearing 6a'. Between the outer left end cover 5 and the outer right end cover 6, another outer rotating device equipped with a generator casing 2 and equipped with fasteners to form a generator is provided. The right outer end cover 6 is provided with a fixing structure for rotating the conductive device 23 on the right side, and the outer right end cover 6 and the power rotating conductive device 23 are fixed together by related accessories and fasteners. A generator core 3 is arranged inside the generator casing 2, and a plurality of slots 3' are formed on the generator core 3, and the slot 3' is provided with a generator wire winding 11 and a generator wire winding 11 connected by the required transmission line A, B, C, through the outside The wire transmission holes 6' on the right end cover 6 are connected to the conductive rings 24a, 24b, 24c on the power rotating conductive device 23, respectively. A conductive device accessory movable support frame 25 is disposed and fixed at a set position of the power rotation conductive device 23 and a set position of the outer circle on the support tower device 30, and the movable conductive accessory hole of the conductive device accessory movable support frame 25 is disposed. 26a, 26b, 26c are respectively provided with movable conductive fittings 27a, 27b, 27c and are respectively provided with pressure springs 28a, 28b, 28c, movable conductive fittings 27a, 27b, 27c and conductive rings 24a, 24b, 24c. The respective transmission conductors A', B', and C' are respectively connected to the related components by crimping, and the movable conductive fittings 27a, 27b, 27c are respectively connected. The bearing box G is arranged at the center of the flange G of the outer driving device, and the bearing 36 is arranged in the bearing box G", and the bearing 36 is arranged with the supporting shaft device 30, and the flange G of the outer driving device is provided Flange blade solid structure Ga, Gb, flange F' on the outer drive unit G' is equipped with flanged vane solid structure Ga', Gb', the blade passes the relevant fittings and fasteners 17〃 and the outer drive unit upper flange G The outer driving device lower flange G' is fixed together to form an outer driving device F. The outer driving device F is assembled by the related accessories and the supporting shaft device 30 and the generator to form an external rotating two-way rotary power generating device and a device thereof External drive power generation device. The inner drive unit is provided with a bearing housing 21 at the center of the flange D. The bearing housing 21 is provided with a bearing 36', and the bearing 36' is provided with the support shaft device 30. Lanshang D is equipped with flanged blade solid structures Da, Db, Dc, and the inner drive lower flange D' is provided with flanged blade solid structures Da', Db', Dc', the blades pass relevant fittings and fastening Piece 20" is fixed with the inner drive upper flange D and the inner drive lower flange D' To the driving means E. The inner driving device is equipped with an externally-rotating two-way rotary power generating device and another device for driving the power generating device and the device thereof by the related fittings, the supporting shaft device 30, and the generator. The external drive power generation device and the internal drive power generation device and related accessories constitute an externally-rotated two-way rotary power generation device and a device thereof. Driven by kinetic energy, the blades of the internal driving power generating device and its device are opposite to the angles of the blades of the externally driven power generating device and its device, so that the external rotating device of the generator rotates in different directions from the rotating device in the generator. Improve the output power of the generator.

Claims

Claim  1. An external-rotating two-way rotary power generation device and device thereof, comprising a blade, a support frame, a generator, and an inverter, characterized in that it is composed of two sets of driving devices or more than two driving devices, a generator, and a support The tower device, the modulation control device, and the rotating transmission conductive device are composed. Under the driving of the kinetic energy, the two driving devices rotate the two rotating devices that drive the generator in different directions and rotate in different directions, so that the generator cuts the magnetic lines of force in a unit time. Increasing the output power of the generator is increased, and the generated electric energy is transmitted to the movable conductive fitting through the rotating transmission conductive device.  2. The externally-rotated two-way rotary generator device and device thereof according to claim 1, wherein the generator has two sets of rotating devices, and the two sets of rotating devices are respectively equipped with a generator end cover shaft, The two shafts are respectively fitted to the support tower device via the associated fittings and the two drive devices. 3. The externally-rotated two-way rotary generator device according to claim 1 or 2, wherein the generator is respectively arranged at a set position of the shaft centering on a shaft of the support tower device The left outer cover shaft of the generator with the shaft characteristic structure and the right end cover shaft of the generator are respectively arranged on the outer surface of the bearing and the support tower device shaft, and the right end cover shaft of the generator and the right end cover shaft of the generator The inner generator inner casing provided with the electric conductor is arranged with the cloth, and is connected and fixed by the fastener to form the rotating device inside the generator. The rotating device inside the generator is equipped with the relevant accessories and the driving device. Docking, outside the left and right end cover shafts of the inner rotating device are respectively equipped with bearings, and the outer left cover shaft of the generator with the shaft characteristic structure and the outer right end cover shaft of the generator are respectively arranged outside the bearing. The outer left cover shaft of the machine and the right outer cover shaft of the generator are equipped with a generator shell assembled by an external rotating device, and the outer rotating device of the generator is fixed by a fastener, and the outer left end cover of the generator passes relevant accessories. Driving means disposed is fitted, fitted in the generator housing equipped core, in the core provided with windings of wire cloth, and the transmission wires are connected by conductive transmission means rotatably connected to the wire windings as required. 4. The externally-rotated two-way rotary generator apparatus and apparatus thereof according to claim 1, wherein the generator has three or more bearings, two or more end covers, and one Or more than one circular support frame.  5. The externally-rotated two-way rotary generator apparatus and apparatus thereof according to claim 1, characterized in that it consists of one or more driving devices, each of which is driven by one or more blades, one Or more than one flange, one or more bearings, and a support frame.  6. The externally-rotated two-way rotary generator apparatus and apparatus according to claim 1, wherein the two driving devices are provided with blades that are opposite in angle and rotated in opposite directions.  7. The externally-rotated two-way rotary generator device and apparatus according to claim 1, wherein the generator, the two driving devices, the rotating transmission conductive device and the supporting tower are equipped in the same center; The set of rotating shaft drive rotating wheels are fitted with a center of the generator according to the outer side of the supporting tower shaft.  8. The externally-rotated two-way rotary generator device and device thereof according to claim 1, wherein two driving devices composed of blades, bearings, flanges, support frames and related accessories are different in size to support The tower shaft is centered into two inner and outer layers fitted with large sets on the outside.  9. The externally-rotated two-way rotary generator device and apparatus according to claim 1, wherein the generator is equipped with a rotating transmission conductive device, and the generator wire winding is connected as required, and then passed through related accessories and rotates. The transmission conductive device is equipped with a connection, a spring, and a movable conductive accessory.  10. The externally-rotating two-way rotary generator device and apparatus thereof according to claim 1, wherein two or more driving devices, a generator, a supporting tower device, and a rotating transmission conductive device are in the same center line Vertical to the ground.