CN111030374B - Community power generation device and operation process thereof - Google Patents

Abstract

The invention relates to the technical field of power generation equipment, in particular to a community power generation device and an operation process thereof. The ground building frame is used for strongly extruding the strong repulsive magnetic field in the underground shell, so that a rotary force which can be driven is formed in the cylindrical space, the generator assembly is driven, and the power generation effect is realized.

Description

Community power generation device and operation process thereof

Technical Field

The invention relates to the technical field of power generation equipment, in particular to a community power generation device and an operation process thereof.

Background

In the power generation, the power generation power device is used to convert water energy, heat energy of fossil fuel (coal, oil, natural gas, etc.), nuclear energy, solar energy, wind energy, geothermal energy, ocean energy, etc. into electric energy. Fossil fuels are used for power generation at the end of the 20 th century, but the fossil fuels are scarce in resources and gradually run out, and people are increasingly generating power by using renewable energy sources (such as water energy, solar energy, wind energy, geothermal energy and ocean energy).

Because human life, industry level are continuous to be improved, lead to the dramatic rise of society power consumption, and traditional thermal power plant receives the restriction because produce huge pollution to the environment, and simultaneously when power consumption load peak, the power consumption condition can not be ensured, based on this, we need to design a novel power generation facility of community and operation flow to satisfy present people's demand.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide a novel community power generation device and an operation process thereof.

The technical scheme adopted by the invention for solving the problems is as follows: a community power generation device comprises an underground casing, an above-ground building frame, an underground power generation unit and a controller, and is characterized in that the underground casing is of a rectangular cubic structure, a connecting through hole is formed in one side face of the underground casing, the above-ground building frame is movably inserted into the connecting through hole and is arranged perpendicular to the underground casing, a sealing ferrule is further clamped between the above-ground building frame and the inner wall of the connecting through hole, a positive pole strong magnet and a negative pole strong magnet are symmetrically arranged in the underground casing respectively, arc-shaped frames are arranged on one sides of the positive pole strong magnet and the negative pole strong magnet respectively and are oppositely arranged through the arc-shaped frames in a homopolar matching mode, the arc-shaped frames mutually surround to form a cylindrical space, one side, far away from the arc-shaped frame, of one positive pole strong magnet is matched with the connecting through hole, and the above-ground building frame is in contact connection with the connecting through hole, the pressure of the above-ground building frame is supported by the magnetism surrounded by the anode strong magnetic block and the cathode strong magnetic block, and a relative stable state is formed; a central shaft assembly is arranged in the center of the interior of the cylindrical space, a coil panel is sleeved on the outer wall of the central shaft assembly, a plurality of permanent magnetic blocks are distributed on the outer wall of the coil panel, a wedge-shaped outer frame is arranged on the outer wall of each permanent magnetic block, and two ends of each permanent magnetic block are asymmetrically arranged; underground generating set is including organizing heat dissipation case and generator component, unit heat dissipation case is connected with the heat dissipation circulating pipe, the heat dissipation circulating pipe encircles in the outer wall of unit heat dissipation case, generator component's outer wall is including heat dissipation circulation shell, be provided with circulation liquid link on the heat dissipation circulation shell, the one end that unit heat dissipation case was kept away from to the heat dissipation circulating pipe is connected in circulation liquid link, the one end that cylinder space was kept away from to the central spindle subassembly is connected with generator component's rotor power take off, the controller is connected with underground generating set.

Furthermore, the controller comprises a generated energy calculating system, a power consumption calculating system and a generator assembly control system, wherein the generated energy calculating system comprises a generated current detector, a generated voltage detector, a generated power calculator and a generated time detector, and the power consumption calculating system comprises a useful current detector, a total power consumption voltage detector, a power consumption calculator and a power consumption time detector.

Furthermore, the generator component control system comprises an initialization module, a detection selection module, an operation module and a data storage module, wherein the operation module further comprises a detection operation module, a data interaction module and a recombination allocation module, and the initialization module, the detection selection module, the operation module and the data storage module form a completed closed loop.

Furthermore, the generating capacity calculating system and the power consumption calculating system are both electrically connected with the detection selection module, and the initialization module is electrically connected with the controller.

The operation flow of the community power generation device is characterized in that when the community power generation device is used, firstly, a strict planning design is carried out on a site needing to be built, after the steps are completed, an underground casing is arranged underground, the construction standard of the underground casing is fully substituted for a ground beam of a house building, then, a positive pole strong magnet and a negative pole strong magnet are arranged in the underground casing, the positive pole strong magnet and the negative pole strong magnet are respectively arranged in a manner of matching with the same poles in opposite directions, arc-shaped frames arranged on one sides of the positive pole strong magnet and the negative pole strong magnet surround each other to form a cylindrical space, the positive pole strong magnet and the negative pole strong magnet are positioned through the underground casing, an overground building frame penetrates through a connecting through hole to be in contact connection with the positive pole strong magnet, the pressure of the overground building frame is supported by the magnetism of a city surrounded by the positive pole strong magnet and the negative pole strong magnet, and a relative stable state is formed, after the steps are completed, a central shaft assembly is arranged in the cylindrical space, a coil panel is arranged on the outer circumference of the central shaft assembly, permanent magnetic blocks are arranged on the outer wall of the coil panel and are arranged in a wedge-shaped outer frame, one end, far away from the cylindrical space, of the central shaft assembly is connected with the power output of a rotor of a generator assembly, then the cylindrical space strong repulsive magnetic field formed by a positive strong magnetic block and a negative strong magnetic block arranged in an underground casing is strongly extruded by an overground building frame, and a rotary force capable of being driven is formed in the cylindrical space, the generator assembly is driven by utilizing the rotary force to realize the power generation effect, the electric energy generated by the generator assembly is comprehensively detected by a controller, meanwhile, the electricity consumption of the electricity generated by the generator assembly is comprehensively detected, and the electricity consumption is referred and counted, the electricity consumption and the electricity generation quantity are reasonably arranged.

Compared with the prior art, the invention has the following advantages and effects:

1. the cooling and heat dissipation functions of the generator assembly can be realized through the matching design of the unit heat dissipation box, the heat dissipation circulating pipe and the heat dissipation circulating shell, and the use safety of the generator assembly is ensured.

2. The controller can carry out the omnidirectional to the produced electric energy of generator assembly and detect, can also carry out the omnidirectional to the power consumption that generator assembly produced electric quantity simultaneously and detect, through the gained data of above detection, can make things convenient for people to the reference and the statistics of power consumption, reaches the advantage of power consumption and power generation quantity rational arrangement.

3. The intelligent control of the invention is realized through the driving operation among all modules in the generator component control system, and the intelligent control system can be scientifically and normatively managed and used.

4. The cylindrical space strong-repulsion magnetic field formed by the strong magnetic blocks of the anode and the strong magnetic blocks of the cathode, which are arranged inside the underground casing, is strongly extruded through the overground building frame, so that a rotary force which can be driven enough is formed in the cylindrical space, the generator assembly is driven, and the power generation effect is realized.

Drawings

Fig. 1 is a schematic view of the overall structure of the embodiment of the present invention.

Fig. 2 is a schematic structural diagram of an underground power generating unit in an embodiment of the invention.

Fig. 3 is a schematic view of the internal structure of the underground cabinet in the embodiment of the present invention.

Fig. 4 is a block diagram of a controller according to an embodiment of the present invention.

In the figure: the device comprises an underground machine shell 1, an above-ground building frame 2, an underground generator set 3, a connecting through hole 4, a sealing ferrule 5, a positive pole strong magnet block 6, a negative pole strong magnet block 7, an arc-shaped frame 8, a cylindrical space 9, a central shaft assembly 10, a coil panel 11, a permanent magnet block 12, a wedge-shaped outer frame 13, a unit heat dissipation box 14, a generator assembly 15, a heat dissipation circulating pipe 16, a heat dissipation circulating shell 17, a circulating liquid connecting end 18, a controller 19, a generated energy calculating system 20, an electricity consumption calculating system 21, a generator assembly control system 22, a generated current detector 23, a generated voltage detector 24, a generated power calculator 25, a generated time detector 26, an electricity consumption current detector 27, an electricity consumption total voltage detector 28, an electricity consumption power calculator 29, an electricity consumption time detector 30, an initialization module 31, a detection selection module 32, an operation module 33, a data storage module 34, A detection operation module 35, a data interaction module 36 and a recombination and allocation module 37.

Detailed Description

The present invention will be described in further detail below by way of examples with reference to the accompanying drawings, which are illustrative of the present invention and are not to be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1 to 4, the community power generation device in this embodiment includes an underground cabinet 1, an above-ground building frame 2, an underground power generation unit 3 and a controller 19, the underground cabinet 1 is a rectangular cubic structure, one side surface of the underground cabinet 1 is provided with a connecting through hole 4, the above-ground building frame 2 is movably inserted inside the connecting through hole 4, the above-ground building frame 2 is arranged perpendicular to the underground cabinet 1, a sealing collar 5 is further sandwiched between the above-ground building frame 2 and the inner wall of the connecting through hole 4, the inside of the underground cabinet 1 is respectively and symmetrically provided with a positive pole strong magnetic block 6 and a negative pole strong magnetic block 7, one side of the positive pole strong magnetic block 6 and one side of the negative pole strong magnetic block 7 are both provided with an arc-shaped frame 8, the positive pole strong magnetic block 6 and the negative pole strong magnetic block 7 are respectively arranged through the arc-shaped frames 8 in a homopolar and opposite matching manner, the arc-shaped frames 8 surround each other to form a cylindrical space 9, one side of one of the positive pole strong magnetic blocks 6, which is far away from the arc-shaped frame 8, is matched with the connecting through hole 4, the ground building frame 2 is in contact connection with the connecting through hole, the pressure of the ground building frame 2 is supported by the magnetism enclosed by the positive pole strong magnetic block 6 and the negative pole strong magnetic block 7, and a relative stable state is formed.

The inside central authorities of cylindrical space 9 are provided with center pin subassembly 10, and the outer wall cover of center pin subassembly 10 is equipped with coil panel 11, and the outer wall distribution of coil panel 11 has a plurality of permanent magnetic path 12, and the outer wall of permanent magnetic path 12 is provided with wedge frame 13, and the asymmetric setting in both ends of permanent magnetic path 12. In actual use, a strong pressure magnetic field environment is presented inside the cylindrical space 9 through the extrusion effect of the ground building frame 2 on the mutual strong magnetic repulsion of the positive pole strong magnetic block 6 and the negative pole strong magnetic block 7, and the permanent magnetic blocks 12 which are asymmetrically arranged at two ends can be pushed to move to drive the central shaft assembly 10 to rotate.

Underground generator set 3 is including unit heat dissipation case 14 and generator component 15, unit heat dissipation case 14 is connected with heat dissipation circulating pipe 16, heat dissipation circulating pipe 16 surrounds in the outer wall of unit heat dissipation case 14, the outer wall of generator component 15 is including heat dissipation circulation shell 17, be provided with circulation liquid link 18 on the heat dissipation circulation shell 17, the one end that unit heat dissipation case 14 was kept away from to heat dissipation circulating pipe 16 is connected in circulation liquid link 18, the one end that central axis subassembly 10 kept away from cylindrical space 9 is connected with the rotor power output of generator component 15, in-service use is through unit heat dissipation case 14, the cooperation of heat dissipation circulating pipe 16 and heat dissipation circulation shell 17 will realize the cooling heat dissipation function of generator component 15, guarantee the safety in utilization of generator component 15.

The controller 19 comprises a generating amount calculating system 20, a power consumption calculating system 21 and a generator assembly control system 22, the generating amount calculating system 20 comprises a generating current detector 23, a generating voltage detector 24, a generating power calculator 25 and a generating time detector 26, the power consumption calculating system 21 comprises a useful current detector 27, a total power consumption voltage detector 28, a power consumption calculator 29 and a power consumption time detector 30, and the controller 19 is connected with the underground generator set 3. Can carry out the omnidirectional to the produced electric energy of generator set 15 in the in-service use and detect, can also carry out the omnidirectional to the power consumption that generator set 15 produced electric quantity and detect simultaneously, through the gained data of above detection, can make things convenient for people to the reference and the statistics of power consumption, reach the advantage of power consumption and power generation quantity rational arrangement.

The generator component control system 22 comprises an initialization module 31, a detection selection module 32, an operation module 33 and a data storage module 34, wherein the operation module 33 further comprises a detection operation module 35, a data interaction module 36 and a recombination and allocation module 37, and the initialization module 31, the detection selection module 32, the operation module 33 and the data storage module 34 form a completed closed loop. In actual use, the intelligent control of the intelligent control system is realized through the driving operation among the modules, and the intelligent control system can be scientifically and normatively managed and used.

The power generation amount calculation system 20 and the power consumption amount calculation system 21 are both electrically connected with the detection selection module 32, and the initialization module 31 is electrically connected with the controller 19.

When in use, firstly, strict planning design is carried out on a site to be built, after the steps are completed, an underground casing 1 is arranged underground, the construction standard of the underground casing 1 is fully substituted for a ground beam of a house building, then an anode strong magnetic block 6 and a cathode strong magnetic block 7 are arranged in the underground casing 1, the anode strong magnetic block 6 and the cathode strong magnetic block 7 are respectively arranged in a matching way with the same poles in opposite directions, an arc-shaped frame 8 arranged at one side of the anode strong magnetic block 6 and one side of the cathode strong magnetic block 7 surround each other to form a cylindrical space 9, the anode strong magnetic block 6 and the cathode strong magnetic block 7 are positioned through the underground casing 1, an overground building framework 2 is connected to one anode strong magnetic block 6 in a contact way through a connecting through hole 4, the pressure of the overground building framework 2 is supported by the magnetism of the enclosed city of the anode strong magnetic block 6 and the cathode strong magnetic block 7 to form a relative stable state, after the steps are completed, a central shaft assembly 10 is arranged in the cylindrical space 9, a coil panel 11 is arranged on the outer circumference of the central shaft assembly 10, a permanent magnetic block 12 is arranged on the outer wall of the coil panel 11, the permanent magnetic block 12 is arranged in a wedge-shaped outer frame 13, one end, far away from the cylindrical space 9, of the central shaft assembly 10 is connected with the power output of a rotor of a generator assembly 15, at the moment, the cylindrical space 9 formed by the positive pole strong magnetic block 6 and the negative pole strong magnetic block 7 arranged in the underground casing 1 is strongly extruded by the ground building frame 2, a rotary force capable of being driven is formed in the cylindrical space 9, the generator assembly 15 is driven by the rotary force, the power generation effect is realized, the electric energy generated by the generator assembly 15 is detected in an omnibearing manner through the controller 19, and meanwhile, the electricity consumption generated by the generator assembly 15 is detected in an omnibearing manner, through reference and statistics of the electricity consumption, reasonable arrangement is carried out on the electricity consumption and the electricity generation quantity.

Those not described in detail in this specification are well within the skill of the art.

Although the present invention has been described with reference to the above embodiments, it should be understood that the scope of the present invention is not limited thereto, and that various changes and modifications can be made by those skilled in the art without departing from the spirit and scope of the present invention.

Claims (4)

1. An operation process of a community power generation device comprises an underground casing (1), an overground building frame (2), an underground power generation set (3) and a controller (19), and is characterized in that the underground casing (1) is of a rectangular cubic structure, a connecting through hole (4) is formed in one side face of the underground casing (1), the overground building frame (2) is movably inserted into the connecting through hole (4), the overground building frame (2) is arranged perpendicular to the underground casing (1), a sealing ring (5) is further clamped between the overground building frame (2) and the inner wall of the connecting through hole (4), a positive strong magnetic block (6) and a negative strong magnetic block (7) are symmetrically arranged in the underground casing (1), arc-shaped frames (8) are arranged on one side of the positive strong magnetic block (6) and one side of the negative strong magnetic block (7), the anode strong magnets (6) and the cathode strong magnets (7) are respectively arranged in a manner of homopolar opposite matching through arc-shaped frames (8), the arc-shaped frames (8) surround each other to form a cylindrical space (9), one side of one of the anode strong magnets (6), which is far away from the arc-shaped frames (8), is arranged in a manner of matching with the connecting through hole (4) and is in contact connection with the ground building frame (2), and the pressure of the ground building frame (2) is supported through the magnetism surrounded by the anode strong magnets (6) and the cathode strong magnets (7) and forms a stable state between opposite directions; a central shaft assembly (10) is arranged in the center of the interior of the cylindrical space (9), a coil panel (11) is sleeved on the outer wall of the central shaft assembly (10), a plurality of permanent magnetic blocks (12) are distributed on the outer wall of the coil panel (11), a wedge-shaped outer frame (13) is arranged on the outer wall of each permanent magnetic block (12), and two ends of each permanent magnetic block (12) are asymmetrically arranged; the underground generator set (3) comprises an organic generator set heat dissipation box (14) and a generator assembly (15), the organic generator set heat dissipation box (14) is connected with a heat dissipation circulating pipe (16), the heat dissipation circulating pipe (16) surrounds the outer wall of the organic generator set heat dissipation box (14), the outer wall of the generator assembly (15) comprises a heat dissipation circulating shell (17), a circulating liquid connecting end (18) is arranged on the heat dissipation circulating shell (17), one end, far away from the organic generator set heat dissipation box (14), of the heat dissipation circulating pipe (16) is connected to the circulating liquid connecting end (18), one end, far away from the cylindrical space (9), of the central shaft assembly (10) is connected with the rotor power output of the generator assembly (15), and the controller (19) is connected with the underground generator set (3);

when the underground building frame is used, firstly, a field to be built is strictly planned and designed, after the steps are completed, an underground casing (1) is arranged underground, the construction standard of the underground casing (1) is fully substituted for a ground beam of a house building, then, an anode strong magnetic block (6) and a cathode strong magnetic block (7) are arranged in the underground casing (1), the anode strong magnetic block (6) and the cathode strong magnetic block (7) are respectively arranged in a matched mode in the same pole direction, arc-shaped frames (8) arranged on one sides of the anode strong magnetic block (6) and the cathode strong magnetic block (7) surround each other to form a cylindrical space (9), the anode strong magnetic block (6) and the cathode strong magnetic block (7) are positioned through the underground casing (1), the underground building frame (2) is connected to the anode strong magnetic block (6) in a contact mode through a connecting through hole (4), and the pressure of the underground building frame (2) is supported through the magnetism of the city surrounded by the anode strong magnetic block (6) and the cathode strong magnetic block (7), after the steps are completed, a central shaft assembly (10) is arranged in a cylindrical space (9), a coil disc (11) is arranged on the outer circumference of the central shaft assembly (10), a permanent magnetic block (12) is arranged on the outer wall of the coil disc (11), the permanent magnetic block (12) is arranged as a wedge-shaped outer frame (13), one end, far away from the cylindrical space (9), of the central shaft assembly (10) is connected with the power output of a rotor of a generator assembly (15), then, the cylindrical space (9) formed by a positive pole strong magnetic block (6) and a negative pole strong magnetic block (7) arranged in an underground machine shell (1) is strongly extruded by a ground building frame (2), and a rotary force capable of being driven is formed in the cylindrical space (9), the generator assembly (15) is driven by the rotary force, and the power generation effect is realized, carry out the omnidirectional through controller (19) to the produced electric energy of generator subassembly (15) and detect, carry out the omnidirectional to the power consumption that generator subassembly (15) produced electric quantity simultaneously and detect, through reference and statistics to the power consumption, carry out reasonable arrangement to power consumption and power generation volume.

2. The operation procedure of the community power generation device according to claim 1, wherein the controller (19) comprises a power generation amount calculation system (20), a power consumption amount calculation system (21) and a generator assembly control system (22), the power generation amount calculation system (20) comprises a power generation current detector (23), a power generation voltage detector (24), a power generation power calculator (25) and a power generation time detector (26), and the power consumption amount calculation system (21) comprises a useful current detector (27), a total power consumption voltage detector (28), a power consumption power calculator (29) and a power consumption time detector (30).

3. The operational procedure of the community power generation apparatus according to claim 2, wherein the generator component control system (22) comprises an initialization module (31), a detection selection module (32), an operation module (33) and a data storage module (34), the operation module (33) further comprises a detection operation module (35), a data interaction module (36) and a reconfiguration module (37), and the initialization module (31), the detection selection module (32), the operation module (33) and the data storage module (34) form a completed closed loop.

4. The operation procedure of the community power generation device according to claim 3, wherein the power generation amount calculation system (20) and the power consumption amount calculation system (21) are electrically connected to the detection selection module (32), and the initialization module (31) is electrically connected to the controller (19).

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