CN110439017B - Superconductive magnetic suspension type vibration and photovoltaic double-power-generation self-powered shockproof house - Google Patents

Abstract

The invention discloses a superconducting magnetic suspension type vibration and photovoltaic double-power-generation self-adaptive shockproof house, which comprises: the system comprises a superconductive magnetic suspension vibration damping and power generation type self-adaptive shockproof column pile array grid body, a photovoltaic generator, an intelligent controller, a refrigerator and a circuit, a storage battery and a circuit, a sensor, a bearing house plate and a house; building a house on a house foundation formed by the superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile array grid body and the bearing house plate; superconductive magnetic suspension damping and power generation type self-adaptation shockproof stake includes: superconducting magnetic suspension vibration micro-nano friction and thermal temperature difference composite power generation type self-adaptive shockproof column pile and superconducting magnetic suspension vibration induction power generation type self-adaptive shockproof column pile. The superconducting magnetic suspension shock absorbers are arranged on the column pile body array to form a superconducting magnetic suspension shock absorber array, a superconducting magnetic suspension shock absorber grid body controlled by an intelligent controller is formed together, and a house built on the superconducting magnetic suspension shock absorber grid body is provided with a self-adaptive earthquake shock absorption structure.

Description

Superconductive magnetic suspension type vibration and photovoltaic double-power-generation self-powered shockproof house

Technical Field

The invention belongs to the technical field of house shockproof and vibration reduction, and particularly relates to a superconducting magnetic suspension type vibration and photovoltaic double-power-generation self-powered shockproof house.

Background

The damage caused by earthquake disaster can be effectively reduced by improving the earthquake resistant grade of the house, and casualties caused by the earthquake disaster can be effectively avoided.

At present, the urban building engineering quakeproof methods mainly comprise two methods: one method is to adopt a method for effectively damping and isolating the house building structure, and the damping and isolating technology comprises active control damping, suspension foundation isolation, ball isolation, swinging support isolation, rubber cushion block isolation, roll shaft isolation, energy consumption isolation, sliding support isolation and the like; the other method is to effectively resist earthquake through the building structure, and the method comprises a frequency spectrum method, a time-resolved analysis method, a random vibration method, a bottom shear method, a matrix decomposition method and the like. In the traditional shock resistance and shock absorption, people adopt more technical methods: a layer of balls is arranged between a building and a foundation, and when an earthquake occurs, the balls can move under the action of the earthquake to reduce the influence of the earthquake on the overall structure of the house; the shock absorption is realized by installing a rubber pad; the impact of earthquake shear waves is cut off by burying shielding plates or digging a deep groove around a building.

At present, how to further improve the shockproof and shock attenuation technological effect in house, how to further improve and optimize the shockproof and shock-absorbing structure in house, how to further improve the validity and the security of taking precautions against earthquakes and shock attenuation, how to gather and utilize the vibration energy that the earthquake produced at shockproof and shock-absorbing in-process, these problems remain to be solved by people.

Disclosure of Invention

Aiming at the defects in the technical aspect of vibration prevention and damping at present, the invention provides a superconducting magnetic suspension type vibration and photovoltaic double-power-generation self-adaptive vibration prevention house so as to improve the effectiveness and safety of vibration prevention and damping.

The invention provides a superconducting magnetic suspension type vibration and photovoltaic double-power-generation self-adaptive shockproof house, which comprises: the system comprises a superconductive magnetic suspension vibration damping and power generation type self-adaptive shockproof column pile array grid body, a photovoltaic generator, an intelligent controller, a storage battery and circuit, a bearing house plate and a house; the superconductive magnetic suspension vibration damping and power generation type self-adaptive shockproof column pile array grid body has an integral linkage structure, and comprises: a plurality of superconducting magnetic suspension vibration damping and power generation type self-adaptive shockproof column piles; the superconducting magnetic suspension vibration-damping and power-generating type self-adaptive shockproof column piles are orderly arranged and distributed according to certain geological environment conditions, and 90-95% of the superconducting magnetic suspension vibration-damping and power-generating type self-adaptive shockproof column piles are driven into the ground surface layer through a mechanical device, penetrate through a loose soil layer and are fixed after being inserted into a firm rock layer to form a column pile body array; a plurality of superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column piles exposed out of the ground surface are fixedly connected through a connecting mechanism; the bearing house plate is assembled at the top end of the superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile array grid body exposed out of the surface layer; the building is built on a building foundation formed by the superconducting magnetic suspension vibration damping and power generation type self-adaptive shockproof column pile array grid body and the bearing building plate; the lowest end of the house is connected with the upper end of the bearing house plate; the photovoltaic generator is assembled at the top end of the house; the intelligent controller and the storage battery are placed in and installed in the house; the buildings built on the building foundation formed by the superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile array grid body and the bearing building plates jointly form the superconducting magnetic suspension vibration and photovoltaic double-power generation type self-adaptive shockproof building.

In the above scheme, the superconductive magnetic suspension damping and power generation type self-adaptation shockproof column pile includes: superconducting magnetic suspension vibration micro-nano friction and thermal temperature difference composite power generation type self-adaptive shockproof column pile; little nanometer friction of superconductive magnetic suspension vibration and compound power generation type self-adaptation shockproof stake of hot difference in temperature include: the superconducting magnetic suspension shock absorber comprises a superconducting magnetic suspension shock absorber, a column pile body, an upper bearing plate, an H-shaped cylindrical bearing body, a lower bearing plate and a sensor; the H-shaped cylindrical bearing body is formed by additionally arranging a bearing partition plate in the middle of the cylindrical bearing body; the upper end of each column pile body of the superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile array grid body is provided with a superconducting magnetic suspension vibration reducer; the superconducting magnetic suspension shock absorbers assembled at the upper ends of the plurality of column pile bodies form a superconducting magnetic suspension shock absorber array, a superconducting magnetic suspension shock absorber grid body controlled by an intelligent controller is formed together, and a house built on the superconducting magnetic suspension shock absorber grid body has a self-adaptive earthquake shock absorption structure; the superconducting magnetic levitation vibration absorber comprises: the refrigeration and cold conduction device comprises a superconducting magnetic suspension coil, a refrigeration and cold conduction mechanism, a heat insulation shielding screen, a permanent magnet box, a circuit and a connecting wire; the refrigeration and cold guide mechanism comprises: a refrigerator, a cold head, a cold conduction flexible wire, a cold conduction barrel and a cold conduction sheet; the refrigerator is placed in and installed in a house; the superconducting magnetic suspension coil is assembled on the bearing partition plate in the H-shaped cylindrical bearing body; a cold conducting sheet is assembled between the superconducting magnetic suspension coil and the superconducting magnetic suspension coil which are assembled in the H-shaped cylindrical bearing body; the peripheral side surfaces of the outer periphery of the superconducting magnetic suspension coil assembled in the H-shaped cylindrical bearing body are tightly connected with the cold guide cylinder; the cold guide sheet is tightly connected with the cold guide cylinder; the cold guide cylinder is connected with the cold head through a cold guide flexible wire; the cold head is connected with the refrigerator through a cold conducting flexible wire; the refrigerator is connected with the storage battery through a circuit and a connecting lead; the superconducting magnetic suspension coil array is connected with the storage battery through a circuit and a connecting lead; heat insulation shielding screens are assembled on the peripheral side surfaces and the upper part of the cold guide cylinder outside the superconducting magnetic suspension coil; the permanent magnet is assembled in the permanent magnet box; the permanent magnet box is fixedly assembled below the bearing partition plate in the middle of the H-shaped cylindrical bearing body, and a certain distance is kept between the permanent magnet box and the lower part of the bearing partition plate in the middle of the H-shaped cylindrical bearing body to serve as a space capable of performing magnetic suspension activity; the upper end of the H-shaped cylindrical bearing body is provided with an upper bearing plate; the lower end of the H-shaped cylindrical bearing body is provided with a lower bearing plate; the lower bearing plate is provided with a sensor; the upper bearing plate is connected with the lower end of the bearing house plate; and the lower bearing plate is connected with the upper part of the column pile body.

In the above-mentioned scheme, little nanometer friction of superconductive magnetic suspension vibration and compound power generation type shockproof stake of hot difference in temperature still include: a superconducting magnetic suspension vibration micro-nano friction and thermal temperature difference composite generator; the superconducting magnetic suspension vibration micro-nano friction and thermal temperature difference combined generator is formed by combining a superconducting magnetic suspension vibration micro-nano friction generator and a superconducting magnetic suspension vibration thermal temperature difference generator; the superconducting magnetic suspension vibration micro-nano friction generator is composed of an upper friction material, a lower friction material and a conductive electrode; the upper friction material and the lower friction material are friction materials with back surfaces provided with induction electrodes; the upper friction material and the lower friction material are respectively made of two different high polymer materials; the two different high molecular polymer materials are respectively provided with the same amount of heterogeneous charges; carrying out micro-nano structuring treatment on the surfaces of the high molecular polymer material and the conductive electrode; the micro-nano structured treatment mode is as follows: the surface of the high molecular polymer material and the conductive electrode is treated by one of the following methods: dry etching, wet etching, photoetching, Inductively Coupled Plasma (ICP) reactive ion etching, assembling micro-nano wire arrays or micro-nano rod arrays and nano patterns; the conductive electrode includes: an upper electrode and a lower electrode; the conductive electrode is made of one of the following materials: au, Ag, Al, Cu, ITO; the superconducting magnetic suspension vibration thermal differential temperature generator comprises: the heat conduction layer, the hot end, the thermoelectric layer, the cold end and the radiating fin; the thermoelectric layer takes a thermoelectric power generation sheet as a substrate; the thermoelectric power generation pieces are connected in series-parallel connection to form a power generation module; the frame-shaped gap between the single thermoelectric generation piece and the single thermoelectric generation piece is filled up by a heat insulation material; the cold end is connected with the radiating fin; one side of the hot end is connected with the thermoelectric layer; the other side of the hot end is connected with the heat conducting layer; the heat conducting layer is connected with an upper electrode of the superconducting magnetic suspension vibration micro-nano friction generator; the upper electrode is connected with an upper friction material with a micro-nano structure; the superconducting magnetic suspension vibration thermal differential temperature generator and an upper friction material with a micro-nano structure in the superconducting magnetic suspension vibration micro-nano friction generator form a composite integral structure together; the formed composite integral structure is fixedly assembled at the lower part of the H-shaped cylindrical bearing body through a connecting piece; the lower electrode of the superconducting magnetic suspension vibration micro-nano friction generator is connected with a lower friction material with a micro-nano structure; the lower friction material with the micro-nano structure and the lower electrode are fixedly assembled on the outer side surface of the permanent magnet box; the surface of the lower friction material with the micro-nano structure corresponds to the surface of the upper friction material with the micro-nano structure, when the magnetic suspension damping effect is started due to the earthquake vibration of the self-adaptive shockproof house, the vibration energy of the self-adaptive shockproof house can drive the superconducting magnetic suspension vibration micro-nano friction generator to generate a micro-nano friction power generation effect, and the heat generated by the micro-nano friction can drive the superconducting magnetic suspension vibration thermo-differential generator to generate a thermal temperature difference power generation effect.

In the above scheme, the superconductive magnetic suspension damping and power generation type self-adaptation shockproof column pile includes: a superconductive magnetic suspension vibration induction power generation type self-adaptive shockproof column pile; the superconductive magnetic suspension vibration induction power generation type self-adaptive shockproof column pile comprises: the superconducting magnetic suspension vibration generator comprises a superconducting magnetic suspension vibration absorber, a superconducting magnetic suspension vibration induction generator, a column pile body, an upper bearing plate, an H-shaped cylindrical bearing body, a lower bearing plate and a sensor; the H-shaped cylindrical bearing body is formed by additionally arranging a bearing partition plate in the middle of the cylindrical bearing body; the upper ends of a plurality of column pile bodies of the superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile array grid body are all provided with superconducting magnetic suspension vibration absorbers; the superconducting magnetic suspension shock absorbers assembled at the upper ends of the plurality of column pile bodies form a superconducting magnetic suspension shock absorber array, a superconducting magnetic suspension shock absorber grid body controlled by an intelligent controller is formed together, and a house built on the superconducting magnetic suspension shock absorber grid body has a self-adaptive earthquake shock absorption structure; the superconducting magnetic levitation vibration absorber comprises: the refrigeration and cold conduction device comprises a superconducting magnetic suspension coil, a refrigeration and cold conduction mechanism, a heat insulation shielding screen, a permanent magnet box, a circuit and a connecting wire; the refrigeration and cold guide mechanism comprises: a refrigerator, a cold head, a cold conduction flexible wire, a cold conduction barrel and a cold conduction sheet; the refrigerator is placed in and installed in a house; the superconducting magnetic suspension coil is assembled on the bearing partition plate in the H-shaped cylindrical bearing body; a cold conducting sheet is assembled between the superconducting magnetic suspension coil and the superconducting magnetic suspension coil which are assembled in the H-shaped cylindrical bearing body; the peripheral side surfaces outside the superconducting magnetic suspension coil assembled in the H-shaped cylindrical bearing body are tightly connected with the cold guide cylinder; the cold guide sheet is tightly connected with the cold guide cylinder; the cold guide cylinder is connected with the cold head through a cold guide flexible wire; the cold head is connected with the refrigerator through a cold conducting flexible wire; the refrigerator is connected with the storage battery through a circuit and a connecting lead; the superconducting magnetic suspension coil is connected with the storage battery through a circuit and a connecting lead; heat insulation shielding screens are assembled on the peripheral side surfaces and the upper part of the cold guide cylinder outside the superconducting magnetic suspension coil; the permanent magnet is assembled in the permanent magnet box; the permanent magnet box is fixedly assembled below the bearing partition plate in the middle of the H-shaped cylindrical bearing body, is positioned above the middle of the lower bearing plate, and keeps a certain distance from the lower part of the bearing partition plate in the middle of the H-shaped cylindrical bearing body to be used as a space capable of performing magnetic suspension activity; the upper end of the H-shaped cylindrical bearing body is provided with an upper bearing plate; the lower end of the H-shaped cylindrical bearing body is provided with a lower bearing plate; the upper bearing plate is connected with the lower end of the bearing house plate; the lower bearing plate is connected with the upper part of the column pile body.

In the above scheme, the superconductive magnetic suspension vibration induction power generation type self-adaptive shockproof column pile further comprises: a superconducting magnetic suspension vibration induction generator; the superconducting magnetic suspension vibration induction generator comprises: a superconducting magnetic levitation vibration induction coil; the superconducting magnetic suspension vibration induction coil is assembled at the lower part of the H-shaped cylindrical bearing body; when the self-adaptive shockproof house starts the magnetic suspension shock absorption effect due to earthquake vibration, the superconducting magnetic suspension vibration induction coil assembled at the lower part of the H-shaped cylindrical bearing body and the permanent magnet move relatively, and the upper vibration energy and the lower vibration energy can drive the permanent magnet to continuously cut the superconducting magnetic suspension vibration induction coil; the superconducting magnetic suspension vibration induction coil generates induction current to generate a power generation effect of the superconducting magnetic suspension vibration induction coil; the superconducting magnetic suspension vibration induction coil is connected with the storage battery through a circuit.

In the above scheme, the photovoltaic generator mainly includes: the photovoltaic power generation system comprises a photovoltaic power generation panel array, a current converter and a load part; the photovoltaic power generation panel array is an array formed by fixing a plurality of photovoltaic power generation panels by using a photovoltaic power generation panel fixing frame; the photovoltaic power generation panel adopts one of the following: photovoltaic power generation chip boards, photovoltaic power generation films and photovoltaic power generation tiles; the photovoltaic power generation panel array is fixedly assembled at the top end of the house by a photovoltaic power generation panel fixing frame; the photovoltaic generator is connected with the storage battery through a circuit.

In the above aspect, the sensor includes: seismic sensors, vibration sensors, temperature sensors; the intelligent controller comprises: the system comprises a computer processor, a data information memory, a data information receiver and a data information transmitter; the data information receiver and the data information transmitter are respectively connected with the data information memory; the data information memory, the data information receiver and the data information transmitter are respectively connected with the computer processor; the computer processor includes: a computer chip; the intelligent controller is respectively connected with the superconducting magnetic suspension vibration reduction and power generation type column pile array grid body, the photovoltaic generator, the refrigerator and circuit, the storage battery and circuit, the sensor and the house.

The working process of the superconducting magnetic suspension type vibration and photovoltaic double-power-generation self-adaptive shockproof house comprises the following steps:

when the intelligent controller receives the sent earthquake prediction information; the intelligent controller instructs the superconducting magnetic suspension type vibration and photovoltaic double power generation self-adaptive shockproof house to start an assembled refrigerator to work; the refrigerator starts to work and the working temperature of the cold head of the refrigerator is rapidly reduced through the cold conducting flexible wire; connecting a cold guide cylinder and a cold guide sheet of a cold head of the refrigerator to quickly reduce the temperature of a superconducting magnetic suspension coil in a superconducting magnetic suspension shock absorber installed on the superconducting magnetic suspension vibration micro-nano friction and thermal temperature difference composite power generation type self-adaptive shock-proof column pile; the superconducting magnetic suspension coil in the superconducting magnetic suspension shock absorber reaches the required working temperature due to the continuous working of the refrigerating machine, and the superconducting magnetic suspension shock absorber array arranged on the superconducting magnetic suspension shock absorption and power generation type self-adaptive shockproof column pile array grid body is in a preparation working stage.

When each seismic sensor assembled on the superconducting magnetic suspension vibration damping and power generation type self-adaptive shockproof column pile array grid body transmits detected seismic vibration data information to an intelligent controller, the intelligent controller performs operation processing on the received seismic vibration data information in different sections below a house foundation; then the intelligent controller instructs to start the superconducting magnetic suspension shock absorber array arranged in the superconducting magnetic suspension shock absorption and power generation type self-adaptive shockproof column pile array grid body to work, the storage battery provides different working voltages or working currents for each superconducting magnetic suspension coil under the low-temperature condition through a connecting circuit, and each different superconducting magnetic suspension coil in the superconducting magnetic suspension shock absorber array generates different magnetic suspension magnetic fields; at the moment, the action force of the magnetic field generated by each superconducting magnetic suspension coil and the magnetic force of the permanent magnet assembled in the permanent magnet boxes on the upper parts of different column bodies respectively generate the action of mutual repulsion between the action force of the magnetic field and the magnetic force, so that a corresponding synergistic magnetic suspension effect is generated; the superconducting magnetic suspension shock absorber array generates a synergistic comprehensive magnetic suspension acting force to respectively drive the H-shaped cylindrical bearing bodies to leave the surfaces of the permanent magnet boxes at the upper parts of the respective column pile bodies, so that a plurality of H-shaped cylindrical bearing bodies are suspended on the surfaces of the permanent magnet boxes at the upper parts of the respective column pile bodies, and bearing house plates and building houses on the superconducting magnetic suspension shock absorption and power generation type self-adaptive shock-proof column pile array grid bodies are also suspended on the surfaces of series permanent magnet boxes at the upper parts of the column pile body arrays to generate a self-adaptive seismic shock absorption effect, so that the damage of huge acting force generated by an earthquake to the whole building houses is prevented or reduced.

Under the influence of earthquake acting force, the column-pile body array can also generate violent vibration; the connection mechanism is adopted to connect and fix the array formed by the plurality of superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column piles exposed out of the ground surface, so that a superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile grid body with an integral linkage structure is formed, and huge acting force generated by earthquake can be decomposed; the building construction is arranged on a building foundation formed by the superconducting magnetic suspension vibration-damping and power-generation type self-adaptive shockproof column pile array grid body and the bearing building plate and forms an integral linkage structure, so that a self-adaptive earthquake damping effect is generated, and the damage of huge transverse sliding force of an earthquake to the integral structure of the building is prevented or reduced; under the common influence of the earthquake acting force and the magnetic suspension acting force which are changed constantly, the relative positions of the H-shaped cylindrical bearing bodies and the permanent magnet boxes are changed constantly, so that the superconducting magnetic suspension vibration micro-nano friction and thermal temperature difference composite generator assembled on the lower surfaces of the H-shaped cylindrical bearing bodies is driven to generate electricity.

Because the superconducting magnetic suspension vibration micro-nano friction generator is composed of two polymer materials with metal electrodes plated on the back surfaces, when the surfaces of the two different polymer materials are in tight contact, the surfaces of the two contact surfaces can carry equal-quantity different-sign friction charges due to the difference of the friction electric polarities. Due to the action of seismic vibration force, when the contact surfaces of two polymer materials are separated from left to right, friction charges which are not shielded in the plane of the contact surfaces generate an electric field, so that the upper flat plate has higher potential, and the lower flat plate has lower potential; driven by the potential difference, electrons flow from the lower electrode to the upper electrode to offset the triboelectric potential difference. When the two plates are overlapped again under the action of the external vibration force, electrons of the upper electrode return to the lower electrode due to the reduction of the potential difference. The superconducting magnetic suspension vibration micro-nano friction generator outputs alternating current electric pulse signals repeatedly, so that the power generation effect is realized; because the superconducting magnetic suspension vibration micro-nano friction generator has a micro-nano surface structure and a large specific surface area, the friction contact area of the surface of the superconducting magnetic suspension vibration micro-nano friction generator can be increased, the power generation efficiency of the superconducting magnetic suspension vibration micro-nano friction generator can be improved, and the power generation output performance of the superconducting magnetic suspension vibration micro-nano friction generator can be improved. The superconducting magnetic suspension vibration micro-nano friction generator transmits the generated energy generated by micro-nano friction into a storage battery for storage through a rectifying circuit and a device.

When vibration generated by earthquake causes friction between two polymer materials of the superconducting magnetic suspension vibration micro-nano friction generator, the back surfaces of which are plated with metal electrodes, a certain amount of friction heat generation effect can be generated, and at the moment, heat generated by the friction is transmitted to the hot end of the superconducting magnetic suspension vibration heat differential generator through a heat conduction layer which is tightly contacted with an upper electrode; the cold end of the superconducting magnetic suspension vibration thermal differential temperature generator is connected with the heat dissipation layer, so that the temperature is low; at the moment, a certain temperature difference is formed between the hot end and the cold end of the thermal temperature difference generator, and the thermal temperature difference generator is driven to generate a power generation effect. The superconducting magnetic suspension vibration thermal thermoelectric generator transmits the generated electric energy to a storage battery for storage through a circuit and related devices.

Assembling a photovoltaic power generation plate of a photovoltaic generator on the top of the superconducting magnetic suspension type vibration and photovoltaic double-power generation self-adaptive shockproof house when solar radiation is carried out; the photovoltaic power generation plate converts the light energy of sunlight into electric energy to generate a photovoltaic power generation effect; the photovoltaic generator transmits the photovoltaic power generation electric energy to the storage battery for storage through a circuit and related devices.

The self-adaptive shockproof house with the superconducting magnetic suspension type vibration and photovoltaic double power generation has the following beneficial effects:

a. the invention adopts a connecting mechanism to connect and fix an array formed by a plurality of superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column piles exposed out of the ground surface to form a superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile array grid body with an integral linkage structure; as the building construction forms an integral linkage structure on the building foundation formed by the superconducting magnetic suspension vibration-damping and power-generation type self-adaptive shockproof column pile array grid body and the bearing building plate, the self-adaptive earthquake damping effect can be generated, and the damage of the huge transverse sliding force of the earthquake to the integral structure of the building is prevented or reduced.

b. The superconducting magnetic suspension vibration absorber and power generation type self-adaptive shockproof column pile array grid body is adopted, the upper ends of a plurality of column pile bodies are respectively provided with the superconducting magnetic suspension vibration absorber, the plurality of superconducting magnetic suspension vibration absorbers form a superconducting magnetic suspension vibration absorber array, the superconducting magnetic suspension vibration absorber grid body controlled by an intelligent controller is formed together, and a house built on the superconducting magnetic suspension vibration absorber grid body is provided with a self-adaptive earthquake damping structure; the intelligent controller can respectively provide different working voltages or working currents for the superconducting magnetic suspension coils in different intervals through operation processing according to vibration information sent by the seismic sensors in different intervals of the house foundation, so that the superconducting magnetic suspension vibration absorbers in different intervals generate different magnetic suspension magnetic fields; at the moment, different magnetic field acting forces generated by the superconducting magnetic suspension coils in different intervals and the magnetic force of the permanent magnet in the permanent magnet box assembled at the upper part of the column pile body in different intervals can generate a repulsive force between the acting forces and the magnetic force to generate a superconducting magnetic suspension effect, so that the house built on the superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile array grid body and the bearing house plate is away from the violent earthquake ground surface to generate a self-adaptive earthquake damping effect, and the damage of huge destructive force generated by the earthquake to the whole building house is prevented or reduced.

c. The invention adopts a superconducting magnetic suspension vibration micro-nano friction and thermal temperature difference composite generator, which comprises: combining a superconducting magnetic suspension vibration micro-nano friction generator with a superconducting magnetic suspension vibration thermal thermoelectric generator; the superconducting magnetic suspension vibration micro-nano friction generator can convert friction energy generated by the surface contact of two different polymer materials caused by earthquake vibration into electric energy, and the surface micro-nano structural treatment is adopted to enhance the surface micro-nano friction generating efficiency; the superconducting magnetic suspension vibration thermoelectric generator can collect and utilize heat generated by micro-nano friction on the surface of the superconducting magnetic suspension vibration thermoelectric generator and generate a thermoelectric generation effect; electric energy generated by the superconducting magnetic suspension vibration micro-nano friction generator and the superconducting magnetic suspension vibration thermal temperature difference generator is transmitted to a storage battery for storage, and electric energy capable of self-powering is provided for electrical equipment and devices in a house.

d. The superconducting magnetic suspension vibration induction coil is assembled at the lower part of the H-shaped cylindrical bearing body; when the device starts the magnetic suspension damping effect due to earthquake vibration, the superconducting magnetic suspension vibration induction coil assembled at the lower part of the H-shaped cylindrical bearing body and the permanent magnet move relatively, and the upper vibration energy and the lower vibration energy can drive the permanent magnet to continuously cut the superconducting magnetic suspension vibration induction coil; the superconducting magnetic suspension vibration induction coil generates induction current to generate a power generation effect of the superconducting magnetic suspension vibration induction coil; the superconducting magnetic suspension vibration induction coil transmits the generated electric energy to a storage battery for storage through a circuit.

Drawings

FIG. 1 is a schematic diagram of the main structure of a superconducting magnetic suspension type vibration and photovoltaic dual power generation self-adaptive shockproof house of the invention;

FIG. 2 is a schematic structural diagram of a superconducting magnetic suspension vibration micro-nano friction and thermal temperature difference composite power generation type self-adaptive shockproof column pile;

FIG. 3 is a schematic structural diagram of a superconducting magnetic suspension vibration micro-nano friction and thermal temperature difference composite generator according to the present invention;

fig. 4 is a schematic structural diagram of the superconducting magnetic suspension vibration induction power generation type adaptive shockproof column pile.

In the figure: the self-adaptive shockproof house-1 with double power generation of superconducting magnetic suspension type vibration and photovoltaic, a superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile array grid-2, a photovoltaic power generator-3, a bearing house plate-4, a house-5, a ground surface layer-6, a loose soil layer-7, a firm rock layer-8, a connecting mechanism-9, a superconducting magnetic suspension vibration micro-nano friction and thermal temperature difference composite power generation type self-adaptive shockproof column pile-10, a superconducting magnetic suspension vibration induction power generation type self-adaptive shockproof column pile-11, a superconducting magnetic suspension vibration damper-12, a superconducting magnetic suspension vibration micro-nano friction and thermal temperature difference composite power generator-13, a column pile body-14, an upper bearing plate-15, an H-shaped cylindrical bearing body-16, a lower bearing plate-17, a superconducting magnetic suspension coil-18, a superconducting magnetic suspension coil-15, an H-shaped cylindrical bearing body-16, a lower, The device comprises a heat insulation shielding screen-19, a permanent magnet-20, a permanent magnet box-21, a cold head-22, a cold conducting flexible wire-23, a cold conducting cylinder-24, a cold conducting sheet-25, a superconducting magnetic suspension vibration micro-nano friction generator-26, a superconducting magnetic suspension vibration thermal thermoelectric generator-27, an upper friction material-28, a lower friction material-29, a micro-nano structure-30, an upper electrode-31, a lower electrode-32, a heat conducting layer-33, a hot end-34, a thermoelectric layer-35, a cold end-36, a heat radiating fin-37, a connecting piece-38, a seismic sensor-39, a superconducting magnetic suspension vibration induction generator-40 and a superconducting magnetic suspension vibration induction coil-41.

Detailed Description

For a more clear understanding of the technical features, objects and effects of the present invention, embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

Example 1: superconducting magnetic suspension vibration micro-nano friction and thermal temperature difference composite power generation type shockproof column pile

In this embodiment: the main structural schematic diagram of the superconducting magnetic suspension type vibration and photovoltaic dual-power generation self-adaptive shockproof house 1 is shown in figure 1, the structural schematic diagram of the superconducting magnetic suspension vibration micro-nano friction and thermal temperature difference composite power generation type self-adaptive shockproof column pile is shown in figure 2, and the structural schematic diagram of the superconducting magnetic suspension vibration micro-nano friction and thermal temperature difference composite power generator is shown in figure 3.

The self-adaptive shockproof house 1 (shown in figure 1) with the superconducting magnetic suspension type vibration and photovoltaic dual power generation comprises a superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile array grid body 2, a photovoltaic power generator 3, an intelligent controller, a storage battery and circuit, a bearing house plate 4 and a house 5; superconductive magnetic suspension damping and power generation type self-adaptation shockproof column pile array grid 2 includes: a plurality of superconductive magnetic suspension vibration-damping and power-generation type self-adaptive shockproof column piles are orderly arranged and distributed according to certain geological environment conditions, and 90-95% of the superconductive magnetic suspension vibration-damping and power-generation type self-adaptive shockproof column piles are driven into the lower surface of a ground surface layer 6 through a mechanical device, penetrate through a loose soil layer 7 until penetrating into a firm rock layer 8 for fixation (see figure 2), so that a column pile body array is formed; a plurality of superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile arrays exposed out of the ground surface are connected and fixed by adopting a connecting mechanism 9 to form a superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile array grid body 2 with an integral linkage structure; the bearing house plate 4 is assembled at the top end of the superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile array grid body 2 exposed out of the ground surface layer 6; the house 5 is built on a house foundation formed by the superconducting magnetic suspension vibration damping and power generation type self-adaptive shockproof column pile array grid body 2 and the bearing house plate 4; the photovoltaic generator 3 is assembled at the top end of the house; the intelligent controller and the storage battery are placed in and installed in the house 5; the house 5 is built on a house foundation formed by the superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile array grid body 2 and the bearing house plate 4, and the superconducting magnetic suspension vibration and photovoltaic double power generation type self-adaptive shockproof house 1 is built together.

The superconducting magnetic suspension vibration-damping and power-generation type self-adaptive shockproof column pile of embodiment 1 includes: a superconducting magnetic suspension vibration micro-nano friction and thermal temperature difference composite power generation type self-adaptive shockproof column pile 10 (see fig. 2); little nanometer friction of superconductive magnetic suspension vibration and compound power generation type self-adaptation shockproof stake 10 of hot temperature difference includes: the superconducting magnetic suspension vibration generator comprises a superconducting magnetic suspension vibration absorber 12, a superconducting magnetic suspension vibration micro-nano friction and thermal temperature difference composite generator 13 (shown in figure 3), a column pile body 14, an upper bearing plate 15, an H-shaped cylindrical bearing body 16, a lower bearing plate 17 and a sensor; the H-shaped cylindrical bearing body 16 is formed by additionally arranging a bearing partition plate in the middle of the cylindrical bearing body; the superconducting magnetic suspension shock absorber 12 is assembled at the upper end of the column pile body 14; the upper ends of a plurality of column pile bodies 14 of the superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile array grid body 2 are all provided with superconducting magnetic suspension vibration absorbers 12; a plurality of superconducting magnetic suspension shock absorbers 12 assembled at the upper ends of a plurality of pile bodies 14 form an array, which jointly form a superconducting magnetic suspension shock absorber grid body controlled by an intelligent controller, and a house 5 built on the superconducting magnetic suspension shock absorber grid body has a self-adaptive earthquake shock absorption structure; a superconducting magnetic levitation vibration absorber 12 (see fig. 2) comprising: superconducting magnetic suspension coil 18, refrigeration and cold conduction mechanism, heat insulation shielding screen 19, permanent magnet 20, permanent magnet box 21, circuit and connecting wire; refrigeration and lead cold machine to construct includes: a refrigerator, a cold head 22, a cold conducting flexible wire 23, a cold conducting cylinder 24 and a cold conducting sheet 25; the refrigerator is put into and installed in the house 5; the superconducting magnetic suspension coil 18 is assembled on the bearing partition plate in the H-shaped cylindrical bearing body 16; a cold conducting sheet 25 is arranged between the superconducting magnetic suspension coil 18 and the superconducting magnetic suspension coil 18 which are arranged in the H-shaped cylindrical bearing body 16; the peripheral side surfaces outside the superconducting magnetic suspension coil 18 assembled in the H-shaped cylindrical bearing body 16 are tightly connected with a cold guide cylinder 24; the cold guide sheet 25 is tightly connected with the cold guide cylinder 24; the cold conducting cylinder 24 is connected with the cold head 22 through a cold conducting flexible wire 23; the cold head 22 is connected with the refrigerator through a cold conducting flexible wire 23; the refrigerator is connected with the storage battery through a circuit and a connecting lead; the superconducting magnetic suspension coil 18 is connected with the storage battery through a circuit and a connecting wire; the heat insulation shielding screen 19 is assembled on the peripheral side surface and the upper part of the cold guide cylinder 24 outside the superconducting magnetic suspension coil 18; the permanent magnet 20 is fitted in a permanent magnet case 21; the permanent magnet box 21 is fixedly assembled below a bearing partition plate at the middle part in the H-shaped cylindrical bearing body 16, and a certain distance is kept between the permanent magnet box and the lower part of the bearing partition plate at the middle part in the H-shaped cylindrical bearing body 16 to be used as a space capable of performing magnetic suspension activity; the upper end of the H-shaped cylindrical bearing body 16 is provided with an upper bearing plate 15; the lower end of the H-shaped cylindrical bearing body 16 is provided with a lower bearing plate 17; the upper bearing plate 15 is connected with the lower end of the bearing house plate 4; the upper end of the bearing house plate 4 is connected with the lowest end of the building house 5; the lower bearing plate 17 is connected with the upper part of the column pile body 14; the seismic sensor 39 is of the type: SLJ-100 (prepared by the engineering mechanics research of the Chinese earthquake Bureau) earthquake sensor; the seismic sensors 39 are mounted alongside the lower bearing plate 17.

Superconducting magnetic suspension vibration micro-nano friction and thermal temperature difference composite power generator 13 (see fig. 3) in superconducting magnetic suspension vibration micro-nano friction and thermal temperature difference composite power generation type self-adaptive shockproof column pile 10, includes: the superconducting magnetic suspension vibration micro-nano friction generator is formed by compounding a superconducting magnetic suspension vibration micro-nano friction generator 26 and a superconducting magnetic suspension vibration thermal temperature difference generator 27; the superconducting magnetic suspension vibration micro-nano friction generator 26 (see fig. 3) comprises: upper friction material 28, lower friction material 29 and conductive electrode: the upper friction material 28 and the lower friction material 29 are friction materials with back surfaces provided with induction electrodes; the upper friction material 28 and the lower friction material 29 are respectively made of two different high molecular polymer materials; the two different high molecular polymer materials are respectively provided with the same amount of heterogeneous charges; the surface of the high molecular polymer material can be subjected to micro-nano structured 30 treatment; the micro-nano structured 30 treatment mode is as follows: micro-nano patterns are respectively prepared on the surfaces of the two materials by dry etching to increase the micro-nano friction effect; the conductive electrode includes: upper and lower electrodes 31 and 32; the conductive electrode material adopts: and Au. Two high molecular polymer materials are respectively adopted: kapton film and PET film; preparing Au conductive electrodes on the outer sides of the two films by a magnetron sputtering method; the superconducting magnetic suspension vibration thermal thermoelectric generator 27 comprises: heat conducting layer 33, hot end 34, thermoelectric layer 35, cold end 36 and heat sink 37; the thermoelectric layer 35 uses a thermoelectric generation sheet as a substrate; the thermoelectric power generation pieces are connected in series-parallel to form a power generation module; the frame-shaped gap between the single thermoelectric generation piece and the single thermoelectric generation piece is filled up by the heat insulation material; cold end 36 and heat sink 37 are connected; one side of the hot side 34 is connected to the thermoelectric layer 35; the other side of the hot end 34 is connected with the heat conducting layer 33; the heat conducting layer 33 is connected with the upper electrode 31 of the superconducting magnetic suspension vibration micro-nano friction generator 26 (see fig. 3); the upper electrode 31 is connected with an upper friction material 28 with a micro-nano structure; the superconducting magnetic suspension vibration thermal thermoelectric generator 27 and the upper friction material 28 with the micro-nano structure in the superconducting magnetic suspension vibration micro-nano friction generator 26 jointly form a composite integral structure; the formed composite integral structure is fixedly assembled at the lower part of the H-shaped cylindrical bearing body 16 through a connecting piece 38; the lower electrode 32 of the superconducting magnetic suspension vibration micro-nano friction generator 26 is connected with a lower friction material 29 with a micro-nano structure; the lower friction material 29 with the micro-nano structure and the lower electrode 32 are fixedly assembled on the outer side surface of the permanent magnet box 21; the surface of the lower friction material 29 with the micro-nano structure corresponds to the surface of the upper friction material 28 with the micro-nano structure, when the magnetic suspension shock absorption effect is started due to the earthquake shock of the device, the vibration energy of the device can drive the superconducting magnetic suspension vibration micro-nano friction generator 26 to generate the micro-nano friction power generation effect, and the heat generated by the micro-nano friction can drive the superconducting magnetic suspension vibration thermal thermoelectric generator 27 to generate the thermal temperature difference power generation effect.

The photovoltaic generator 3 is assembled at the top end of the house 5; the photovoltaic generator 3 mainly comprises: the photovoltaic power generation panel array comprises a photovoltaic power generation panel array, an inverter and a load part; the photovoltaic power generation panel array is an array formed by fixing a plurality of photovoltaic power generation panels by using a photovoltaic power generation panel fixing frame; photovoltaic power generation board adopts: a photovoltaic power generation chip board; the photovoltaic power generation panel of this embodiment 1 employs: monocrystalline silicon photovoltaic cell subassembly, its type is: STP 175-24/AC. The photovoltaic power generation panel array is fixedly assembled at the top end of the house 5 by a photovoltaic power generation panel fixing frame; the photovoltaic generator is connected with the storage battery through a circuit. A sensor, employing: a seismic sensor 39; an intelligent controller comprising: the system comprises a computer processor, a data information memory, a data information receiver and a data information transmitter; the data information receiver and the data information transmitter are respectively connected with the data information memory; the data information memory, the data information receiver and the data information transmitter are respectively connected with the computer processor; the computer processor includes: a computer chip; the intelligent controller is respectively connected with the superconducting magnetic suspension vibration reduction and power generation type column pile array grid body 2, the photovoltaic generator 3, the refrigerator and circuit, the storage battery and circuit, the seismic sensor 39 and the house 5.

The working process of the self-adaptive shockproof house 1 with magnetic suspension type vibration and photovoltaic double power generation in the embodiment 1 is as follows:

when the intelligent controller receives the sent earthquake prediction information; the intelligent controller instructs the superconducting magnetic suspension type vibration and photovoltaic double power generation self-adaptive shockproof house 1 to start an assembled refrigerator to work; the refrigerator starts to work and the working temperature of the cold head 22 of the refrigerator is rapidly reduced through the cold conducting flexible wire; connecting a cold guide cylinder 24 and a cold guide sheet 25 of a cold head 22 of the refrigerator to quickly reduce the temperature of a superconducting magnetic suspension coil 18 in a superconducting magnetic suspension shock absorber 12 installed on the superconducting magnetic suspension vibration micro-nano friction and thermal temperature difference composite power generation type self-adaptive shockproof stud 10; due to the continuous operation of the refrigerating machine, the superconducting magnetic suspension coil 18 in the superconducting magnetic suspension damper 12 reaches the required operating temperature, and the superconducting magnetic suspension damper 12 array is already in the preparation working stage.

When the seismic sensor 39 assembled on the superconducting magnetic suspension vibration reduction and power generation type adaptive shockproof column pile array grid body 2 transmits seismic vibration data information detected by the seismic sensor 39 of the superconducting magnetic suspension vibration reduction and power generation type adaptive shockproof column piles to the intelligent controller respectively, and the intelligent controller performs operation processing on the received seismic vibration data information respectively; then the intelligent controller instructs to start the superconducting magnetic suspension shock absorber 12 array to work, the storage battery provides different working voltages or working currents to the superconducting magnetic suspension coils 18 under the low-temperature condition through a connecting circuit, and the superconducting magnetic suspension coils 18 generate different magnetic suspension magnetic fields respectively; at this time, different magnetic field acting forces generated by the plurality of superconducting magnetic suspension coils 18 interact with the magnetic force of the permanent magnet 20 assembled in the permanent magnet box 21 on the upper part of the array of the plurality of stud bodies 14, so that the two are mutually repelled to respectively generate different magnetic suspension effects; the generated comprehensive magnetic suspension acting force drives the H-shaped cylindrical bearing bodies 16 to respectively leave the surfaces of the permanent magnet boxes 21 at the upper parts of the array of the post bodies 14, so that the H-shaped cylindrical bearing bodies 16 are suspended on the surfaces of the permanent magnet boxes 21 at the upper parts of the array of the post bodies 14, and the bearing house plate 4 and the building house 5 on the superconducting magnetic suspension vibration damping and power generation type self-adaptive shockproof post array grid body 2 are also suspended on the surfaces of the series of permanent magnet boxes 21 at the upper parts of the array of the post bodies, thereby generating a self-adaptive earthquake damping effect and preventing or reducing the damage of huge acting force generated by earthquake to the whole building house 5.

Under the influence of earthquake action force, the array of the pile bodies 14 can also generate violent vibration; the connection mechanism 9 is adopted to connect and fix the array formed by the plurality of superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column piles exposed out of the ground surface, so that the superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile grid body 2 with an integral linkage structure is formed; the house 5 is built on a house foundation formed by the superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile array grid body 2 and the bearing house plate 4 and forms an integral linkage structure, so that the self-adaptive earthquake damping effect is achieved, and the damage of huge transverse sliding force of an earthquake to the house 5 structure is prevented or reduced; under the common influence of the earthquake acting force and the magnetic suspension acting force which change constantly, the relative positions of the H-shaped cylindrical bearing bodies 16 and the permanent magnet boxes 21 are changed constantly, so that the superconducting magnetic suspension vibration micro-nano friction and thermal temperature difference composite generator 13 assembled on the lower surface of the H-shaped cylindrical bearing bodies 16 is driven to generate electricity respectively.

Because the superconducting magnetic suspension vibration micro-nano friction generator 26 is composed of two polymer materials with metal electrodes plated on the back surfaces, when the surfaces of the two polymer materials are in tight contact, the surfaces of the two contact surfaces can carry equal-quantity different-sign friction charges due to the difference of the friction electric polarities. Due to the action of seismic vibration force, when the contact surfaces of two polymer materials are separated from left to right, friction charges which are not shielded in the plane of the contact surfaces generate an electric field, so that the upper flat plate has higher potential, and the lower flat plate has lower potential; driven by the potential difference, electrons flow from the lower electrode 32 to the upper electrode 31 to cancel out the electrostatic potential difference of the triboelectric charges. When the two plates are overlapped again by the external vibration force, the electrons of the upper electrode 31 will return to the lower electrode 32 due to the decrease of the potential difference. By repeating the above steps, the superconducting magnetic suspension vibration micro-nano friction generator 26 outputs an alternating current electric pulse signal, so that a power generation effect is realized; because the superconducting magnetic suspension vibration micro-nano friction generator 26 has a micro-nano surface structure and a large specific surface area, the friction contact area of the surface of the vibration micro-nano friction generator 26 can be increased, the power generation efficiency of the superconducting magnetic suspension vibration micro-nano friction generator 26 can be improved, and the power generation output performance of the superconducting magnetic suspension vibration micro-nano friction generator can be improved. The superconducting magnetic suspension vibration micro-nano friction generator 26 transmits the generated energy generated by micro-nano friction into a storage battery for storage through a rectifying circuit and devices.

When the superconducting magnetic suspension vibration generated by earthquake causes the two polymer materials of the superconducting magnetic suspension vibration micro-nano friction generator 26, the back surfaces of which are plated with metal electrodes, to generate friction heat generating effect with a certain amount, and at the moment, the heat generated by friction is transmitted to the hot end 34 of the superconducting magnetic suspension vibration thermal differential generator 27 through the heat conducting layer 33 which is in close contact with the upper electrode 31; because the cold end 36 of the superconducting magnetic suspension vibration thermal thermoelectric generator 27 is connected with the heat dissipation layer 37, the temperature is low; at this time, a certain temperature difference is formed between the hot end 34 and the cold end 36 of the superconducting magnetic suspension vibration thermoelectric generator 27, and the superconducting magnetic suspension vibration thermoelectric generator 27 is driven to generate a power generation effect. The superconducting magnetic suspension vibration thermal thermoelectric generator 27 transmits the generated electric energy to a storage battery for storage through a circuit and related devices.

When solar radiation is arranged on the top of the superconducting magnetic suspension type vibration and photovoltaic double-power-generation self-adaptive shockproof house 1, a photovoltaic power generation panel array of a photovoltaic power generator 3 is assembled; the photovoltaic power generation panel array is illuminated to generate photoproduction direct current. The DC current is passed through the DC/DC converter to power the in-house load, which is based on the fact that the in-house load is a DC load. When the load in the house is an alternating current load or a power grid, the load in the house needs to be converted into alternating current through a DC/AC converter before being supplied to the load in the house. The storage battery in the house is used for realizing power balance: when the illumination is sufficient and the output electric energy is larger than the load requirement in the house, the redundant electric energy is stored; when the light is insufficient, the storage battery pack in the house maintains the power supply of the load in the house through discharging.

Example 2: self-adaptive shockproof column pile 11 adopting superconducting magnetic suspension vibration induction power generation

Example 2: the main structural schematic diagram of the superconducting magnetic suspension type vibration and photovoltaic double-power generation self-adaptive shockproof house 1 is shown in figure 1, and the structural schematic diagram of the superconducting magnetic suspension vibration induction power generation self-adaptive shockproof column pile 11 is shown in figure 4.

The self-adaptive shockproof house 1 (shown in figure 1) with the superconducting magnetic suspension type vibration and photovoltaic dual power generation comprises a superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile array grid body 2, a photovoltaic power generator 3, an intelligent controller, a storage battery and circuit, a bearing house plate 4 and a house 5; superconductive magnetic suspension damping and power generation type self-adaptation shockproof column pile array grid 2 includes: a plurality of superconductive magnetic suspension vibration-damping and power-generation type self-adaptive shockproof column piles are orderly arranged and distributed according to certain geological environment conditions, and 90-95% of the superconductive magnetic suspension vibration-damping and power-generation type self-adaptive shockproof column piles are driven into the lower surface of a ground surface layer 6 through a mechanical device, penetrate through a loose soil layer 7 until penetrating into a firm rock layer 8 for fixation (see figure 2), so that a column pile body array is formed; a plurality of superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile arrays exposed out of the ground surface are connected and fixed by adopting a connecting mechanism 9 to form a superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile array grid body 2 with an integral linkage structure; the bearing house plate 4 is assembled at the top end of the superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile array grid body 2 exposed out of the surface layer; the house 5 is built on a house foundation formed by the superconducting magnetic suspension vibration damping and power generation type self-adaptive shockproof column pile array grid body 2 and the bearing house plate 4; the photovoltaic generator 3 is assembled at the top end of the house; the intelligent controller and the storage battery are placed in and installed in the house 5; the house 5 is built on a house foundation formed by the superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile array grid body 2 and the bearing house plate 4, and the superconducting magnetic suspension vibration and photovoltaic double power generation type self-adaptive shockproof house 1 is built together.

The superconducting magnetic suspension vibration-damping and power-generation type adaptive shockproof column pile of the embodiment 2 adopts a superconducting magnetic suspension vibration-induction power-generation type adaptive shockproof column pile 11 (see fig. 4); superconductive magnetic suspension vibration induction power generation type self-adaptation shockproof stake 11 includes: the superconducting magnetic suspension vibration absorber 12, the superconducting magnetic suspension vibration induction generator 40, the column body 14, the upper bearing plate 15, the H-shaped cylindrical bearing body 16, the lower bearing plate 17 and the sensor; the H-shaped cylindrical bearing body 16 is formed by additionally arranging a bearing partition plate in the middle of the cylindrical bearing body; the superconducting magnetic suspension shock absorber 12 is assembled at the upper end of the column pile body 14; the superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile array grid body 2 is characterized in that superconducting magnetic suspension vibration absorbers 12 are assembled at the upper ends of a plurality of column pile bodies 14 to jointly form a superconducting magnetic suspension vibration absorber grid body controlled by an intelligent controller, and a house 5 built on the superconducting magnetic suspension vibration absorber grid body is provided with a self-adaptive earthquake damping structure; a superconducting magnetic levitation vibration absorber 12 (see fig. 4) comprising: superconducting magnetic suspension coil 18, refrigeration and cold conduction mechanism, heat insulation shielding screen 19, permanent magnet 20, permanent magnet box 21, circuit and connecting wire; refrigeration and lead cold machine to construct includes: a refrigerator, a cold head 22, a cold conducting flexible wire 23, a cold conducting cylinder 24 and a cold conducting sheet 25; the refrigerator is put into and installed in the house 5; the superconducting magnetic suspension coil 18 is assembled on the bearing partition plate in the H-shaped cylindrical bearing body 16; a cold conducting sheet 25 is arranged between the superconducting magnetic suspension coil 18 and the superconducting magnetic suspension coil 18 which are arranged in the H-shaped cylindrical bearing body 16; the peripheral side surfaces outside the superconducting magnetic suspension coil 18 assembled in the H-shaped cylindrical bearing body 16 are tightly connected with a cold guide cylinder 24; the cold guide sheet 25 is tightly connected with the cold guide cylinder 24; the cold conducting cylinder 24 is connected with the cold head 22 through a cold conducting flexible wire 23; the cold head 22 is connected with the refrigerator through a cold conducting flexible wire 23; the refrigerator is connected with the storage battery through a circuit and a connecting lead; the superconducting magnetic suspension coil 18 is connected with the storage battery through a circuit and a connecting wire; the heat insulation shielding screen 19 is assembled on the peripheral side surface and the upper part of the cold guide cylinder 24 outside the superconducting magnetic suspension coil 18; the permanent magnet 20 is fitted in a permanent magnet case 21; the permanent magnet box 21 is assembled and fixed below a bearing partition plate in the middle of the H-shaped cylindrical bearing body 16, is positioned above the middle of the lower bearing plate 17, and keeps a certain distance from the lower part of the bearing partition plate in the middle of the H-shaped cylindrical bearing body 16 to be used as a space capable of performing magnetic suspension activity; the upper end of the H-shaped cylindrical bearing body 16 is provided with an upper bearing plate 15; the lower end of the H-shaped cylindrical bearing body 16 is provided with a lower bearing plate 17; the upper bearing plate 15 is connected with the lower end of the bearing house plate 4; the upper end of the bearing house plate 4 is connected with the lowest end of the building house 5; the lower bearing plate 17 is connected to the upper portion of the pile body 14.

The superconducting magnetic suspension vibration induction generator 40 mainly comprises: a superconducting magnetic levitation vibration induction coil 41; the superconducting magnetic suspension vibration induction coil 41 is assembled at the inner side of the lower part of the H-shaped cylindrical bearing body 16; when the device starts the magnetic suspension damping effect due to earthquake vibration, the superconducting magnetic suspension vibration induction coil 41 assembled at the lower part of the H-shaped cylindrical bearing body 16 and the permanent magnet 20 move relatively, and the upper vibration energy and the lower vibration energy of the superconducting magnetic suspension vibration induction coil 41 can drive the permanent magnet 20 to continuously cut; the superconducting magnetic suspension vibration induction coil 41 generates induction current to generate a power generation effect of the superconducting magnetic suspension vibration induction coil; the superconducting magnetic suspension vibration induction coil 41 is connected with the storage battery through a circuit.

The photovoltaic generator 3 is assembled at the top end of the house 5; the photovoltaic generator 3 mainly comprises: the photovoltaic power generation system comprises a photovoltaic power generation panel array, a current converter and a load part; the photovoltaic power generation panel array is an array formed by fixing a plurality of photovoltaic power generation panels by using a photovoltaic power generation panel fixing frame; photovoltaic power generation board adopts: monocrystalline silicon photovoltaic cell subassembly, its type is: STP 175-24/AC. The photovoltaic power generation panel array is fixedly assembled at the top end of the house 5 by a photovoltaic power generation panel fixing frame; the photovoltaic generator is connected with the storage battery through a circuit. A sensor, employing: a seismic sensor 39; the seismic sensor 39 is of the type: SLJ-100 (prepared by the engineering mechanics research of the Chinese earthquake Bureau) earthquake sensor; the seismic sensors 39 are mounted alongside the lower bearing plate 17.

An intelligent controller comprising: the system comprises a computer processor, a data information memory, a data information receiver and a data information transmitter; the data information receiver and the data information transmitter are respectively connected with the data information memory; the data information memory, the data information receiver and the data information transmitter are respectively connected with the computer processor; the computer processor includes: a computer chip; and the intelligent controller is respectively connected with the superconducting magnetic suspension vibration reduction and power generation type column pile array grid body 2, the photovoltaic generator 3, the refrigerator and circuit, the storage battery and circuit, the seismic sensor 39 and the house 5.

In this embodiment 2, the working process of the self-adaptive shockproof house 1 with magnetic suspension type vibration and photovoltaic dual power generation is as follows:

when the intelligent controller receives the sent earthquake prediction information; the intelligent controller instructs the superconducting magnetic suspension type vibration and photovoltaic double power generation self-adaptive shockproof house 1 to start an assembled refrigerator to work; the refrigerator starts to work and the working temperature of the cold head 22 of the refrigerator is rapidly reduced through the cold conducting flexible wire 23; the temperature of the superconducting magnetic suspension coil 18 in the superconducting magnetic suspension shock absorber 12 arranged on the superconducting magnetic suspension vibration-induced power generation type self-adaptive shockproof column pile 11 is quickly reduced by connecting the cold guide cylinder 24 and the cold guide sheet 25 of the cold head 22 of the refrigerator; due to the continuous operation of the refrigerating machine, the superconducting magnetic suspension coil 18 in the superconducting magnetic suspension damper 12 reaches the required operating temperature, and the superconducting magnetic suspension damper 12 array is already in the preparation working stage.

When the seismic vibration data information detected by a plurality of seismic sensors 39 in different sections of the assembly of the superconducting magnetic suspension vibration damping and power generation type self-adaptive shockproof column pile array grid body 2 is respectively transmitted to an intelligent controller, the intelligent controller respectively performs operation processing on the received seismic vibration data information; then the intelligent controller instructs to start the superconducting magnetic suspension shock absorber 12 array to work, the storage battery provides different working voltages or working currents for the superconducting magnetic suspension coils 18 which are already under the low-temperature condition through a connecting circuit, and the superconducting magnetic suspension coils 18 generate different magnetic suspension magnetic fields; at this time, the magnetic field acting force generated by the plurality of superconducting magnetic suspension coils 18 and the magnetic force of the permanent magnet 20 in the permanent magnet box 21 arranged at the upper part of the plurality of stud bodies 14 generate the mutual repulsion action between the magnetic field acting force and the permanent magnet, so as to generate the magnetic suspension effect; the generated comprehensive magnetic suspension acting force drives the H-shaped cylindrical bearing bodies 16 to leave the surfaces of the permanent magnet boxes 21 at the upper parts of the array of the columnar piles respectively, so that the H-shaped cylindrical bearing bodies 16 are suspended on the surfaces of the permanent magnet boxes 21 at the upper parts of the array of the columnar piles 14, and the bearing house plate 4 and the building house 5 on the superconducting magnetic suspension vibration damping and power generation type self-adaptive shockproof columnar pile array grid body 2 are also suspended on the surfaces of the series of permanent magnet boxes 21 at the upper parts of the array of the columnar piles to generate a self-adaptive earthquake damping effect, thereby preventing or reducing the damage of the huge acting force generated by the earthquake to the whole building house 5.

Under the influence of earthquake action force, the array of the pile bodies 14 can also generate violent vibration; the connection mechanism 9 is adopted to connect and fix the array formed by the plurality of superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column piles exposed out of the ground surface, so that the superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile grid body 2 with an integral linkage structure is formed; the house 5 is built on a house foundation formed by the superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile array grid body 2 and the bearing house plate 4 and forms an integral linkage structure, so that the self-adaptive earthquake damping effect is achieved, and the damage of huge transverse sliding force of an earthquake to the house 5 structure is prevented or reduced; under the common influence of the earthquake acting force and the magnetic suspension acting force which are changed constantly, the relative positions of the H-shaped cylindrical bearing bodies 16 and the permanent magnet boxes 21 are changed constantly, so that the superconducting magnetic suspension vibration induction generators 40 assembled at the lower parts of the H-shaped cylindrical bearing bodies 16 are driven to generate electricity respectively; the magnetic field formed by the permanent magnets 20 assembled in the plurality of permanent magnet boxes 21 is in a constantly cutting relationship with the plurality of superconducting magnetically levitated vibration induction coils 18, and the plurality of superconducting magnetically levitated vibration induction coils 18 generate an induction power generation effect. The superconducting magnetic suspension vibration induction generators 40 transmit the generated energy to the storage battery for storage through the rectifying circuit and devices.

When solar radiation is arranged on the top of the superconducting magnetic suspension type vibration and photovoltaic double-power-generation self-adaptive shockproof house 1, a photovoltaic power generation panel array of a photovoltaic power generator 3 is assembled; the photovoltaic power generation panel array is illuminated to generate photoproduction direct current. The DC current is passed through the DC/DC converter to power the in-house load, which is based on the fact that the in-house load is a DC load. When the load in the house is an alternating current load or a power grid, the load in the house needs to be converted into alternating current through a DC/AC converter before being supplied to the load in the house. The storage battery in the house is used for realizing power balance: when the illumination is sufficient and the output electric energy is larger than the load requirement in the house, the redundant electric energy is stored; when the light is insufficient, the storage battery pack in the house maintains the power supply of the load in the house through discharging.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (6)

1. Two power generation's of superconductive magnetic suspension type vibration and photovoltaic self-adaptation house that takes precautions against earthquakes, its characterized in that includes: the system comprises a superconductive magnetic suspension vibration damping and power generation type self-adaptive shockproof column pile array grid body, a photovoltaic generator, an intelligent controller, a storage battery and circuit, a bearing house plate and a house; the superconductive magnetic suspension vibration damping and power generation type self-adaptive shockproof column pile array grid body has an integral linkage structure, and comprises: a plurality of superconducting magnetic suspension vibration damping and power generation type self-adaptive shockproof column piles; the superconducting magnetic suspension vibration-damping and power-generating type self-adaptive shockproof column piles are orderly arranged and distributed according to certain geological environment conditions, and 90-95% of the superconducting magnetic suspension vibration-damping and power-generating type self-adaptive shockproof column piles are driven into the ground surface layer, penetrate through a loose soil layer and penetrate into a firm rock layer to be fixed, so that a column pile body array is formed; the plurality of superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column piles exposed out of the surface layer are fixedly connected through a connecting mechanism; the bearing house plate is assembled at the top end of the superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile array grid body exposed out of the surface layer; the building is built on a building foundation formed by the superconducting magnetic suspension vibration damping and power generation type self-adaptive shockproof column pile array grid body and the bearing building plate; the lowest end of the house is connected with the upper end of the bearing house plate; the photovoltaic generator is assembled at the top end of the house; the intelligent controller and the storage battery are placed in and installed in the house;

the superconductive magnetic suspension vibration damping and power generation type self-adaptive shockproof column pile comprises: superconducting magnetic suspension vibration micro-nano friction and thermal temperature difference composite power generation type self-adaptive shockproof column pile; little nanometer friction of superconductive magnetic suspension vibration and compound power generation type self-adaptation shockproof stake of hot difference in temperature include: the superconducting magnetic suspension shock absorber comprises a superconducting magnetic suspension shock absorber, a column pile body, an upper bearing plate, an H-shaped cylindrical bearing body, a lower bearing plate and a sensor; the H-shaped cylindrical bearing body is formed by additionally arranging a bearing partition plate in the middle of the cylindrical bearing body; the upper end of each column pile body of the superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile array grid body is provided with a superconducting magnetic suspension vibration reducer; the upper bearing plate is assembled at the upper end of the H-shaped cylindrical bearing body; the lower bearing plate is assembled at the lower end of the H-shaped cylindrical bearing body; the sensor is assembled on the lower bearing plate; the upper bearing plate is connected with the lower end of the bearing house plate; the lower bearing plate is connected with the upper part of the column pile body; the superconducting magnetic suspension shock absorbers assembled at the upper ends of the plurality of column pile bodies form a superconducting magnetic suspension shock absorber array, a superconducting magnetic suspension shock absorber grid body controlled by an intelligent controller is formed together, and a house built on the superconducting magnetic suspension shock absorber grid body has a self-adaptive earthquake shock absorption structure; the superconducting magnetic levitation vibration absorber comprises: the refrigeration and cold conduction device comprises a superconducting magnetic suspension coil, a refrigeration and cold conduction mechanism, a heat insulation shielding screen, a permanent magnet box, a circuit and a connecting wire; the refrigeration and cold guide mechanism comprises: a refrigerator, a cold head, a cold conduction flexible wire, a cold conduction barrel and a cold conduction sheet; the refrigerator is placed in and installed in a house; the superconducting magnetic suspension coil is assembled on the bearing partition plate in the H-shaped cylindrical bearing body; a cold conducting sheet is assembled between the superconducting magnetic suspension coil and the superconducting magnetic suspension coil which are assembled in the H-shaped cylindrical bearing body; the peripheral side surfaces of the outer periphery of the superconducting magnetic suspension coil assembled in the H-shaped cylindrical bearing body are tightly connected with the cold guide cylinder; the cold guide sheet is tightly connected with the cold guide cylinder; the cold guide cylinder is connected with the cold head through a cold guide flexible wire; the cold head is connected with the refrigerator through a cold conducting flexible wire; the refrigerator is connected with the storage battery through a circuit and a connecting lead; the superconducting magnetic suspension coil array is connected with the storage battery through a circuit and a connecting lead; heat insulation shielding screens are assembled on the peripheral side surfaces and the upper part of the cold guide cylinder outside the superconducting magnetic suspension coil; the permanent magnet is assembled in the permanent magnet box; the permanent magnet box is fixedly assembled below the bearing partition plate in the middle of the H-shaped cylindrical bearing body, and a certain distance is kept between the permanent magnet box and the lower part of the bearing partition plate in the middle of the H-shaped cylindrical bearing body to serve as a space capable of performing magnetic suspension activity; little nanometer friction of superconductive magnetic suspension vibration and compound power generation type self-adaptation shockproof stake of hot difference in temperature still include: a superconducting magnetic suspension vibration micro-nano friction and thermal temperature difference composite generator; the superconducting magnetic suspension vibration micro-nano friction and thermal temperature difference combined generator is formed by combining a superconducting magnetic suspension vibration micro-nano friction generator and a superconducting magnetic suspension vibration thermal temperature difference generator; the superconducting magnetic suspension vibration micro-nano friction generator is composed of an upper friction material, a lower friction material and a conductive electrode; the upper friction material and the lower friction material are friction materials with back surfaces provided with induction electrodes; the upper friction material and the lower friction material are respectively made of two different high polymer materials; the two different high molecular polymer materials are respectively provided with the same amount of heterogeneous charges; carrying out micro-nano structuring treatment on the surfaces of the high molecular polymer material and the conductive electrode; the micro-nano structured treatment mode is as follows: the surface of the high molecular polymer material and the conductive electrode is treated by one of the following methods: dry etching, wet etching, photo etching, inductively coupled plasma reactive ion etching, assembling a micro-nano wire array or a micro-nano rod array; the conductive electrode includes: an upper electrode and a lower electrode; the conductive electrode is made of one of the following materials: au, Ag, Al, Cu, ITO; the superconducting magnetic suspension vibration thermal differential temperature generator comprises: the heat conduction layer, the hot end, the thermoelectric layer, the cold end and the radiating fin; the thermoelectric layer takes a thermoelectric power generation sheet as a substrate; the thermoelectric power generation pieces are connected in series-parallel connection to form a power generation module; the frame-shaped gap between the single thermoelectric generation piece and the single thermoelectric generation piece is filled up by a heat insulation material; the cold end is connected with the radiating fin; one side of the hot end is connected with the thermoelectric layer; the other side of the hot end is connected with the heat conducting layer; the heat conducting layer is connected with an upper electrode of the superconducting magnetic suspension vibration micro-nano friction generator; the upper electrode is connected with an upper friction material with a micro-nano structure; the superconducting magnetic suspension vibration thermal differential temperature generator and an upper friction material with a micro-nano structure in the superconducting magnetic suspension vibration micro-nano friction generator form a composite integral structure together; the formed composite integral structure is fixedly assembled at the lower part of the H-shaped cylindrical bearing body through a connecting piece; the lower electrode of the superconducting magnetic suspension vibration micro-nano friction generator is connected with a lower friction material with a micro-nano structure; the lower friction material with the micro-nano structure and the lower electrode are fixedly assembled on the outer side surface of the permanent magnet box; the surface of the lower friction material with the micro-nano structure corresponds to the surface of the upper friction material with the micro-nano structure, when the magnetic suspension damping effect is started due to the earthquake vibration of the self-adaptive shockproof house, the vibration energy of the self-adaptive shockproof house can drive the superconducting magnetic suspension vibration micro-nano friction generator to generate a micro-nano friction power generation effect, and the heat generated by the micro-nano friction can drive the superconducting magnetic suspension vibration thermo-differential generator to generate a thermal temperature difference power generation effect.

2. The superconducting magnetic suspension type vibration and photovoltaic dual power generation adaptive shockproof house according to claim 1, wherein the photovoltaic power generator mainly comprises: the photovoltaic power generation system comprises a photovoltaic power generation panel array, a current converter and a load part; the photovoltaic power generation panel array is an array formed by fixing a plurality of photovoltaic power generation panels by using a photovoltaic power generation panel fixing frame; the photovoltaic power generation panel adopts one of the following: photovoltaic power generation chip boards, photovoltaic power generation films and photovoltaic power generation tiles; the photovoltaic power generation panel array is fixedly assembled at the top end of the house by a photovoltaic power generation panel fixing frame; the photovoltaic generator is connected with the storage battery through a circuit.

3. The superconducting magnetic levitation type vibration and photovoltaic dual generation adaptive earthquake-proof house according to claim 1, wherein the sensor comprises: seismic sensors, vibration sensors, temperature sensors; the intelligent controller comprises: the system comprises a computer processor, a data information memory, a data information receiver and a data information transmitter; the data information receiver and the data information transmitter are respectively connected with the data information memory; the data information memory, the data information receiver and the data information transmitter are respectively connected with the computer processor; the computer processor includes: a computer chip; the intelligent controller is respectively connected with the superconducting magnetic suspension vibration reduction and power generation type column pile array grid body, the photovoltaic generator, the storage battery and circuit, the sensor and the house.

4. Two power generation's of superconductive magnetic suspension type vibration and photovoltaic self-adaptation house that takes precautions against earthquakes, its characterized in that includes: the system comprises a superconductive magnetic suspension vibration damping and power generation type self-adaptive shockproof column pile array grid body, a photovoltaic generator, an intelligent controller, a storage battery and circuit, a bearing house plate and a house; the superconductive magnetic suspension vibration damping and power generation type self-adaptive shockproof column pile array grid body has an integral linkage structure, and comprises: a plurality of superconducting magnetic suspension vibration damping and power generation type self-adaptive shockproof column piles; the superconducting magnetic suspension vibration-damping and power-generating type self-adaptive shockproof column piles are orderly arranged and distributed according to certain geological environment conditions, and 90-95% of the superconducting magnetic suspension vibration-damping and power-generating type self-adaptive shockproof column piles are driven into the ground surface layer, penetrate through a loose soil layer and penetrate into a firm rock layer to be fixed, so that a column pile body array is formed; the plurality of superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column piles exposed out of the surface layer are fixedly connected through a connecting mechanism; the bearing house plate is assembled at the top end of the superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile array grid body exposed out of the surface layer; the building is built on a building foundation formed by the superconducting magnetic suspension vibration damping and power generation type self-adaptive shockproof column pile array grid body and the bearing building plate; the lowest end of the house is connected with the upper end of the bearing house plate; the photovoltaic generator is assembled at the top end of the house; the intelligent controller and the storage battery are placed in and installed in the house;

the superconductive magnetic suspension vibration damping and power generation type self-adaptive shockproof column pile comprises: a superconductive magnetic suspension vibration induction power generation type self-adaptive shockproof column pile; the superconductive magnetic suspension vibration induction power generation type self-adaptive shockproof column pile comprises: the superconducting magnetic suspension shock absorber comprises a superconducting magnetic suspension shock absorber, a column pile body, an upper bearing plate, an H-shaped cylindrical bearing body, a lower bearing plate and a sensor; the H-shaped cylindrical bearing body is formed by additionally arranging a bearing partition plate in the middle of the cylindrical bearing body; the upper ends of a plurality of column pile bodies of the superconducting magnetic suspension vibration reduction and power generation type self-adaptive shockproof column pile array grid body are all provided with superconducting magnetic suspension vibration absorbers; the superconducting magnetic suspension shock absorbers assembled at the upper ends of the plurality of column pile bodies form a superconducting magnetic suspension shock absorber array, a superconducting magnetic suspension shock absorber grid body controlled by an intelligent controller is formed together, and a house built on the superconducting magnetic suspension shock absorber grid body has a self-adaptive earthquake shock absorption structure; the superconducting magnetic levitation vibration absorber comprises: the refrigeration and cold conduction device comprises a superconducting magnetic suspension coil, a refrigeration and cold conduction mechanism, a heat insulation shielding screen, a permanent magnet box, a circuit and a connecting wire; the refrigeration and cold guide mechanism comprises: a refrigerator, a cold head, a cold conduction flexible wire, a cold conduction barrel and a cold conduction sheet; the refrigerator is placed in and installed in a house; the superconducting magnetic suspension coil is assembled on the bearing partition plate in the H-shaped cylindrical bearing body; a cold conducting sheet is assembled between the superconducting magnetic suspension coil and the superconducting magnetic suspension coil which are assembled in the H-shaped cylindrical bearing body; the peripheral side surfaces outside the superconducting magnetic suspension coil assembled in the H-shaped cylindrical bearing body are tightly connected with the cold guide cylinder; the cold guide sheet is tightly connected with the cold guide cylinder; the cold guide cylinder is connected with the cold head through a cold guide flexible wire; the cold head is connected with the refrigerator through a cold conducting flexible wire; the refrigerator is connected with the storage battery through a circuit and a connecting lead; the superconducting magnetic suspension coil is connected with the storage battery through a circuit and a connecting lead; heat insulation shielding screens are assembled on the peripheral side surfaces and the upper part of the cold guide cylinder outside the superconducting magnetic suspension coil; the permanent magnet is assembled in the permanent magnet box; the permanent magnet box is fixedly assembled below the bearing partition plate in the middle of the H-shaped cylindrical bearing body, is positioned above the middle of the lower bearing plate, and keeps a certain distance from the lower part of the bearing partition plate in the middle of the H-shaped cylindrical bearing body to be used as a space capable of performing magnetic suspension activity; the upper bearing plate is assembled at the upper end of the H-shaped cylindrical bearing body; the lower bearing plate is assembled at the lower end of the H-shaped cylindrical bearing body; the upper bearing plate is connected with the lower end of the bearing house plate; the lower bearing plate is connected with the upper part of the column pile body; the superconductive magnetic suspension vibration induction power generation type self-adaptive shockproof column pile further comprises: a superconducting magnetic suspension vibration induction generator; the superconducting magnetic suspension vibration induction generator comprises: a superconducting magnetic levitation vibration induction coil; the superconducting magnetic suspension vibration induction coil is assembled at the lower part of the H-shaped cylindrical bearing body; when the self-adaptive shockproof house starts the magnetic suspension shock absorption effect due to earthquake vibration, the superconducting magnetic suspension vibration induction coil assembled at the lower part of the H-shaped cylindrical bearing body and the permanent magnet move relatively, and the upper vibration energy and the lower vibration energy can drive the permanent magnet to continuously cut the superconducting magnetic suspension vibration induction coil; the superconducting magnetic suspension vibration induction coil generates induction current to generate a power generation effect of the superconducting magnetic suspension vibration induction coil; the superconducting magnetic suspension vibration induction coil is connected with the storage battery through a circuit.

5. The adaptive vibration-proof house for superconducting magnetic levitation type vibration and photovoltaic dual power generation as claimed in claim 4, wherein the photovoltaic generator mainly comprises: the photovoltaic power generation system comprises a photovoltaic power generation panel array, a current converter and a load part; the photovoltaic power generation panel array is an array formed by fixing a plurality of photovoltaic power generation panels by using a photovoltaic power generation panel fixing frame; the photovoltaic power generation panel adopts one of the following: photovoltaic power generation chip boards, photovoltaic power generation films and photovoltaic power generation tiles; the photovoltaic power generation panel array is fixedly assembled at the top end of the house by a photovoltaic power generation panel fixing frame; the photovoltaic generator is connected with the storage battery through a circuit.

6. The superconducting magnetic levitation type vibration and photovoltaic dual generation adaptive earthquake-proof house according to claim 4, wherein the sensor comprises: seismic sensors, vibration sensors, temperature sensors; the intelligent controller comprises: the system comprises a computer processor, a data information memory, a data information receiver and a data information transmitter; the data information receiver and the data information transmitter are respectively connected with the data information memory; the data information memory, the data information receiver and the data information transmitter are respectively connected with the computer processor; the computer processor includes: a computer chip; the intelligent controller is respectively connected with the superconducting magnetic suspension vibration reduction and power generation type column pile array grid body, the photovoltaic generator, the storage battery and circuit, the sensor and the house.

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