CN112993836A

CN112993836A - Intelligent power supply and distribution box type transformer substation

Info

Publication number: CN112993836A
Application number: CN202110227539.0A
Authority: CN
Inventors: 凌细英
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-03-02
Filing date: 2021-03-02
Publication date: 2021-06-18

Abstract

The invention provides an intelligent power supply and distribution box-type substation which comprises an energy collection chamber, wherein a distribution chamber is arranged at the bottom of the energy collection chamber, a temporary power generation chamber is arranged at the bottom of the distribution chamber, an expander is arranged on the left side surface of the energy collection chamber, the bottom surface of the expander is communicated with the top end of a first longitudinal guide pipe, the bottom end of the first longitudinal guide pipe is communicated with the rear part of the upper surface of a transverse guide pipe, the front part of the lower surface of the transverse guide pipe is communicated with the top end of a second longitudinal guide pipe, an impeller is arranged in the transverse guide pipe, the right side surface of the impeller is fixedly connected with the left end of a first input shaft, a first input wheel is fixed at the right end of the first input shaft, the periphery of the lower part of the first input wheel is in contact with the inner periphery of the lower part of. The technical scheme disclosed by the invention effectively solves the technical problems that the prior art does not have the capability of recovering external energy and cannot realize intelligent automatic power distribution, temporary power supply and the like, and is beneficial to popularization and application.

Description

Intelligent power supply and distribution box type transformer substation

Technical Field

The invention relates to the technical field of transformer substations, in particular to an intelligent power supply and distribution box type transformer substation.

Background

The box-type transformer substation is also called a prefabricated substation or a prefabricated substation, is a high-voltage switch device, a distribution transformer and a low-voltage distribution device, is factory prefabricated indoor and outdoor compact distribution equipment which are integrated according to a certain wiring scheme, namely, the functions of transformer voltage reduction, low-voltage distribution and the like are organically combined together and installed in a moisture-proof, rust-proof, dust-proof, rat-proof, fire-proof, anti-theft, heat-insulating, totally-closed and movable steel structure box, is particularly suitable for urban network construction and transformation, and is a brand-new transformer substation which is built up after civil construction of the transformer substation. The box-type transformer substation is suitable for mines, factory enterprises, oil-gas fields and wind power stations, replaces the original civil power distribution room and power distribution station, and becomes a novel complete set of power transformation and distribution device.

The invention of the intelligent power supply and distribution box-type substation brings various conveniences to production and life of people, and the intelligent power supply and distribution box-type substation plays an important role in modern production and life. However, the existing intelligent power supply and distribution box-type substation often does not have the capability of recovering external energy and cannot realize the technical problems of intelligent automatic power distribution, temporary power supply and the like, so in view of the above, research and improvement are performed on the structure and the defects in the prior art, and a novel intelligent power supply and distribution box-type substation is provided, which can effectively solve the problems and is beneficial to the future popularization and application of the device.

Disclosure of Invention

The invention aims to provide an intelligent power supply and distribution box-type substation, which solves the technical problems that the prior art does not have the capability of recovering external energy and cannot realize intelligent automatic power distribution, temporary power supply and the like.

In order to achieve the purpose, the invention provides an intelligent power supply and distribution box-type substation, which comprises an energy collection chamber, wherein a power distribution chamber is arranged at the bottom of the energy collection chamber, a temporary power generation chamber is arranged at the bottom of the power distribution chamber, an expander is arranged on the left side surface of the energy collection chamber, the bottom surface of the expander is communicated with the top end of a first longitudinal conduit, the bottom end of the first longitudinal conduit is communicated with the rear part of the upper surface of a transverse conduit, the front part of the lower surface of the transverse conduit is communicated with the top end of a second longitudinal conduit, an impeller is arranged in the transverse conduit, the right side surface of the impeller is fixedly connected with the left end of a first input shaft, a first input wheel is fixed at the right end of the first input shaft, the lower outer periphery of the first input wheel is contacted with the lower inner periphery of a first transmission belt, the upper inner periphery of the first transmission belt is contacted with the upper outer periphery of a first driven wheel, the right side surface of the first driven wheel is fixedly connected with the left end of the synthetic shaft, a cam disc is arranged in the middle of the synthetic shaft, the periphery of the lower portion of the cam disc is in contact with the top surface of a lower rubber block, a lower spring is arranged on the bottom surface of the lower rubber block, the periphery of the upper portion of the cam disc is in contact with the bottom surface of an upper rubber block, the top surface of the upper rubber block is fixedly connected with the bottom end of the upper spring, the top end of the upper spring is fixedly connected with the middle of the lower surface of the piezoelectric ceramic plate, a second driven wheel is fixed at the right end of the synthetic shaft, the periphery of the upper portion of the second driven wheel is in contact with the inner periphery of the upper portion of a second transmission belt, the inner periphery of the lower portion of the second transmission belt is in contact with the outer periphery of the lower portion of a second input wheel, the right side surface of the second input wheel is fixedly connected with the left end of a second input shaft, and a fan is fixed at the right end of the second input shaft.

The top in collection ability room be provided with solar panel, solar panel's the lower surface about the part be provided with first end piece, second end piece respectively, piezoceramics piece's the lower surface about the part be provided with third end piece, fourth end piece respectively, the bottom of bottom and the third end piece of first end piece between establish ties through the wire have first diode, first battery, second diode, the upside of first diode be the positive pole, the downside of second diode be the positive pole, the bottom of bottom and the fourth end piece between establish ties through the wire have third diode, second battery, fourth diode, the downside of third diode be the positive pole, the upside of fourth diode be the positive pole.

The inner left surface of the distribution room is fixed with a transverse guide rod, the outer periphery of the middle part of the transverse guide rod is in contact with the inner periphery of the guide sleeve, the bottom end of the guide sleeve is fixedly connected with the top end of the displacement rod, the bottom end of the left side surface of the displacement rod is provided with a first return spring, the bottom of the right side surface of the displacement rod is provided with an electricity outlet box, the inner left side surface of the electricity outlet box is provided with a power supply, the right side surface of the power supply is provided with a positive electricity outlet column and a negative electricity outlet column, the right side surface of the electricity outlet box is provided with a positive end piece and a negative end piece, a fuse is connected in series between the positive electricity outlet column and the positive end piece through a wire, a protective resistor is connected in series between the negative electricity outlet column and the negative end piece through a wire, an electric appliance is fixed on the inner right surface of the distribution room, and the electric appliance is positioned right of the electricity outlet box, the left surface of using electrical apparatus be provided with positive pole slot, negative pole slot, the downside of using electrical apparatus be fixed with first longitudinal wall, the bottom mounting of first longitudinal wall have first permanent magnet, the left side magnetic pole magnetism of first permanent magnet be the N utmost point.

The inside of electricity distribution room be provided with the magnetic force case, the top surface of magnetic force case and the bottom surface fixed connection who goes out the electronic box, the bottom of magnetic force case be provided with the iron core, the iron core be located the positive left side of first permanent magnet, the middle part periphery parcel of iron core have the coil, the upper surface of coil be provided with first electricity-drawing piece, second electricity-drawing piece, the top surface of first electricity-drawing piece pass through wire and the left side electric connection of left position semi-ring, the top surface of second electricity-drawing piece pass through wire and the right side electric connection of right position semi-ring, the right side of left position semi-ring and the cylindrical left part periphery contact of positive pole, the cylindrical right part periphery contact of right position semi-ring, positive pole cylinder, negative pole cylinder between establish ties through the wire and have a first power, the left side of first power be the positive pole, left position semi-ring, negative pole cylinder, The top end of the right semi-ring is fixedly connected with the left part and the right part of the lower surface of the insulating transverse connecting rod respectively.

The temporary power generation chamber is internally provided with an upper triangular rack and a lower triangular rack, the left and right parts of the lower surface of the upper triangular rack are respectively fixedly connected with the top ends of a first compression spring and a second compression spring, the bottom ends of the first compression spring and the second compression spring are fixedly connected with the upper surface of a movable cross arm, the left and right parts of the upper surface of the lower triangular rack are respectively fixedly connected with the bottom ends of a third compression spring and a fourth compression spring, the top ends of the third compression spring and the fourth compression spring are fixedly connected with the lower surface of the movable cross arm, the left end and the right end of the movable cross arm respectively extend out of the left side surface and the right side surface of the temporary power generation chamber, and the right end of the movable cross arm is fixed with a handle.

The temporary power generation chamber is internally provided with a gear ring, the upper inner periphery of the gear ring is in contact and meshing with the upper outer periphery of an upper planetary gear, the lower inner periphery of the gear ring is in contact and meshing with the lower outer periphery of a lower planetary gear, the upper part and the lower part of the right side surface of the gear ring are respectively provided with an upper permanent magnet and a lower permanent magnet, the left side surface of the upper planetary gear is fixedly provided with an upper transmission shaft, the left end of the upper transmission shaft is fixedly provided with a second bevel gear, the rear part of the second bevel gear is in contact and meshing with the right part of a first bevel gear, the rear surface of the first bevel gear is fixedly provided with an upper triangular gear, the bottom of the upper triangular gear is in contact and meshing with the top of an upper triangular rack, the left side surface of the lower planetary gear is fixedly provided with a lower transmission shaft, the rear part of the fourth bevel gear is in contact and meshing with the right part of the third bevel gear, a lower triangular gear is fixed on the rear surface of the third bevel gear, and the top of the lower triangular gear is in contact and meshing with the bottom of the lower triangular rack.

The temporary power generation room is internally provided with an electricity utilization box, the electricity utilization box is internally provided with an inductor, a power distribution positive electrode block and a power distribution negative electrode block, the upper side surface of the inductor is electrically connected with the right end of a second conductor column through a lead, the left end of the second conductor column is electrically connected with the bottom end of an upper conductor rod, the top end of the upper conductor rod is electrically connected with the left end of a first conductor column, the lower side surface of the inductor is electrically connected with the right end of a third conductor column through a lead, the left end of the third conductor column is electrically connected with the top end of a lower conductor column, the bottom end of the lower conductor column is electrically connected with the left end of a fourth conductor column, a fifth diode is connected in series between the right end of the first conductor column and the left end of the power distribution positive electrode block through a lead, the upper side surface of the fifth diode is a positive electrode, and a sixth diode is connected in series between the right end of the fourth conductor column and the left end of the power distribution negative electrode block through a lead, the upper side surface of the sixth diode is an anode.

Solar panel, piezoceramics piece, iron core, ring gear, coil etc. be the equipment of existing equipment, consequently, specific model and specification are not repeated.

The invention has the beneficial effects that:

1. the components of the intelligent power supply and distribution box-type substation are reliably connected, detection and maintenance are very convenient, the realization cost is low, and a solar panel, a piezoelectric ceramic plate, an iron core, a gear ring, a coil and the like which are involved in equipment are all assembled by the existing equipment, so that the intelligent power supply and distribution box-type substation is beneficial to popularization and application in the technical field of future substations;

2. the intelligent power supply and distribution box type substation innovatively realizes the recovery effect on external energy, converts external wind energy, water energy and solar energy into electric energy for storage, and is beneficial to energy conservation and environmental protection, particularly, the left side surface of the energy collecting chamber is provided with the flaring device, the bottom surface of the flaring device is communicated with the top end of the first longitudinal conduit, the bottom end of the first longitudinal conduit is communicated with the rear part of the upper surface of the transverse conduit, the front part of the lower surface of the transverse conduit is communicated with the top end of the second longitudinal conduit, the impeller is arranged in the transverse conduit, the right side surface of the impeller is fixedly connected with the left end of the first input shaft, the right end of the first input shaft is fixedly provided with the first input wheel, the lower periphery of the first input wheel is contacted with the lower inner periphery of the first transmission belt, the upper inner periphery of the first transmission belt is contacted with the upper periphery of the first driven wheel, the right side surface of the first driven wheel is fixedly connected with the left side surface of the synthetic shaft, the middle part of the synthetic shaft is provided with a cam disc, the lower part periphery of the cam disc is contacted with the top surface of the lower rubber block, the bottom surface of the lower rubber block is provided with a lower spring, the upper part periphery of the cam disc is contacted with the bottom surface of the upper rubber block, the top surface of the upper rubber block is fixedly connected with the bottom end of the upper spring, the top end of the upper spring is fixedly connected with the middle part of the lower surface of the piezoelectric ceramic plate, the right end of the synthetic shaft is fixedly provided with a second driven wheel, the upper part periphery of the second driven wheel is contacted with the upper part inner periphery of a second transmission belt, the lower part inner periphery of the second transmission belt is contacted with the lower part periphery of a second input wheel, the right side surface of the second input wheel is fixedly connected with the left side surface of the second input shaft, the right end of the, the left part and the right part of the lower surface of the solar panel are respectively provided with a first end plate and a second end plate, the left part and the right part of the lower surface of the piezoelectric ceramic plate are respectively provided with a third end plate and a fourth end plate, a first diode, a first storage battery and a second diode are connected in series between the bottom end of the first end plate and the bottom end of the third end plate through leads, the upper side of the first diode is an anode, the lower side of the second diode is an anode, a third diode, a second storage battery and a fourth diode are connected in series between the bottom end of the second end plate and the bottom end of the fourth end plate through leads, the lower side of the third diode is an anode, the upper side of the fourth diode is a cathode, further, when the outside rains, rainwater flows into the transverse conduit through the expander and the first longitudinal conduit to drive the impeller to rotate, power is transmitted to the first input wheel through the first input shaft, and the first transmission, the fan is driven to rotate by external wind current, power is transmitted to the second input wheel through the second input shaft, the second transmission belt drives the synthetic shaft to rotate through the second driven wheel, then the cam disc rotates and presses the piezoelectric ceramic plate to repeatedly vibrate through the upper rubber block and the upper spring, and current generated by the piezoelectric ceramic plate and current converted by the solar panel are stored in the first storage battery and the second storage battery after rectification, so that electric energy storage is realized;

3. the power distribution room is innovatively designed to realize a non-contact intelligent automatic power distribution function, intelligent non-contact power distribution can be performed on electrical equipment, the operation safety of a user is guaranteed, specifically, a transverse guide rod is fixed on the left surface inside the power distribution room, the outer periphery of the middle part of the transverse guide rod is in contact with the inner periphery of a guide sleeve, the bottom end of the guide sleeve is fixedly connected with the top end of a displacement rod, a first return spring is arranged at the bottom end of the left side surface of the displacement rod, a power outlet box is arranged at the bottom of the right side surface of the displacement rod, a power supply device is arranged on the left side surface inside the power outlet box, a positive power outlet column and a negative power outlet column are arranged on the right side surface of the power supply device, a positive end piece and a negative end piece are arranged on the right side surface of the power outlet box, and a fuse is connected in series between the positive power outlet column and the positive end piece through, a protection resistor is connected in series between the negative electricity outlet column and the negative end piece through a lead, a useful electric appliance is fixed on the right surface in the power distribution chamber, the useful electric appliance is positioned right and right of the electricity outlet box, the left side surface of the useful electric appliance is provided with a positive slot and a negative slot, the lower side surface of the useful electric appliance is fixed with a first longitudinal arm, the bottom end of the first longitudinal arm is fixed with a first permanent magnet, the left magnetic pole magnetism of the first permanent magnet is N pole, the inside of the power distribution chamber is provided with a magnetic box, the top surface of the magnetic box is fixedly connected with the bottom surface of the electricity outlet box, the bottom of the magnetic box is provided with an iron core, the iron core is positioned right and left of the first permanent magnet, the periphery of the middle part of the iron core is wrapped with a coil, the upper surface of the coil is provided with a first electricity-leading sheet and a second electricity-leading sheet, the top surface of the first electricity-leading sheet is electrically connected, the right side surface of the left semi-ring is contacted with the left periphery of the anode cylinder, the left side surface of the right semi-ring is contacted with the right periphery of the cathode cylinder, a first power supply is connected in series between the anode cylinder and the cathode cylinder through a lead, the left side of the first power supply is an anode, the top ends of the left semi-ring and the right semi-ring are respectively fixedly connected with the left part and the right part of the lower surface of the insulating transverse connecting rod, furthermore, when the electrical appliance needs to distribute power, the user rotates the insulating transverse connecting rod to make the left half ring contact with the cathode cylinder and the right half ring contact with the anode cylinder, so that the direction of the internal current of the coil is changed, the electromagnetic repulsion force of the first permanent magnet is converted into electromagnetic attraction force to pull the electric box, the displacement rod and the guide sleeve to move rightwards along the transverse guide rod, the positive pole end piece and the negative pole end piece are respectively communicated with the positive pole slot and the negative pole slot in a contact mode, and the electric appliance is electrified to realize a non-contact power distribution function;

4. the intelligent power supply and distribution box-type substation can realize an emergency temporary power supply function based on a temporary power generation chamber, when the original power is insufficient, a user can input transverse motion to a movable cross arm to realize temporary power generation, specifically, an upper triangular rack and a lower triangular rack are arranged in the temporary power generation chamber, the left and right parts of the lower surface of the upper triangular rack are fixedly connected with the top ends of a first compression spring and a second compression spring respectively, the bottom ends of the first compression spring and the second compression spring are fixedly connected with the upper surface of the movable cross arm, the left and right parts of the upper surface of the lower triangular rack are fixedly connected with the bottom ends of a third compression spring and a fourth compression spring respectively, the top ends of the third compression spring and the fourth compression spring are fixedly connected with the lower surface of the movable cross arm, and the left end and the right end of the movable cross arm are respectively connected with the left end, the right end, the left end and the right end of, The right side surface of the temporary power generation chamber extends out, a handle is fixed at the right end of the movable cross arm, a gear ring is arranged in the temporary power generation chamber, the upper inner periphery of the gear ring is in contact and meshing with the upper outer periphery of an upper planetary gear, the lower inner periphery of the gear ring is in contact and meshing with the lower outer periphery of a lower planetary gear, the upper part and the lower part of the right side surface of the gear ring are respectively provided with an upper permanent magnet and a lower permanent magnet, the left side surface of the upper planetary gear is fixed with an upper transmission shaft, the left end of the upper transmission shaft is fixed with a second bevel gear, the rear part of the second bevel gear is in contact and meshing with the right part of the first bevel gear, the rear surface of the first bevel gear is fixed with an upper triangular gear, the bottom of the upper triangular gear is in contact and meshing with the top of an upper triangular rack, a lower triangular gear is fixed on the rear surface of the third bevel gear, the top of the lower triangular gear is in contact engagement with the bottom of the lower triangular rack, an electric box is arranged in the temporary power generation chamber, an inductor, a power distribution positive electrode block and a power distribution negative electrode block are arranged in the electric box, the upper side surface of the inductor is electrically connected with the right end of the second conductor column through a lead, the left end of the second conductor column is electrically connected with the bottom end of the upper conductor rod, the top end of the upper conductor rod is electrically connected with the left end of the first conductor column, the lower side surface of the inductor is electrically connected with the right end of the third conductor column through a lead, the left end of the third conductor column is electrically connected with the top end of the lower conductor column, the bottom end of the lower conductor column is electrically connected with the left end of the fourth conductor column, a fifth diode is connected in series between the right end of the first conductor column and the left end of the power distribution positive electrode block through a lead, and the upper, a sixth diode is connected in series between the right end of the fourth conductor column and the left end of the distribution negative pole block through a lead, the upper side surface of the sixth diode is a positive pole, and further, when the movable cross arm is pushed to move leftwards, the upper triangular rack is driven to move leftwards through the first compression spring and the second compression spring to drive the upper triangular gear to rotate clockwise, the motion is transmitted to the upper transmission shaft through the first bevel gear and the second bevel gear and is input to the gear ring through the upper planetary gear, when the movable cross arm is pushed to move rightwards, the lower triangular rack is driven to move rightwards through the third compression spring and the fourth compression spring to drive the lower triangular gear to rotate clockwise, the motion is transmitted to the lower transmission shaft through the third bevel gear and the fourth bevel gear and is input to the gear ring through the lower planetary gear, and the gear ring drives the upper permanent magnet and the magnetic induction line of the lower permanent magnet to, The lower conductor column generates induced current which is transmitted to the power distribution positive pole block and the power distribution negative pole block after rectification so as to realize temporary power supply.

In addition to the objects, features and advantages described above, other objects, features and advantages of the present invention are also provided. The present invention will be described in further detail below.

Drawings

FIG. 1 is a schematic diagram of an axial side projection structure of the overall structure of the device of the present invention.

Fig. 2 is a front view of the overall structure of the device of the present invention.

Fig. 3 is a left side view of the overall structure of the device of the present invention.

FIG. 4 is a schematic top view of the overall structure of the device of the present invention.

Fig. 5 is a schematic view of the internal structure of the energy collecting chamber according to the present invention.

Fig. 6 is a schematic view of the internal structure of the power distribution room according to the present invention.

Fig. 7 is a schematic view of the internal structure of the power outlet box according to the present invention.

Fig. 8 is a schematic view of the internal structure of the magnetic box according to the present invention.

Fig. 9 is a schematic view of the internal structure of the temporary power generation chamber according to the present invention.

Fig. 10 is a schematic view of the internal structure of the electric box according to the present invention.

1. Energy collecting chamber, 2, power distribution chamber, 3, temporary power generation chamber, 4, solar panel, 5, expander, 6, first longitudinal conduit, 7, transverse conduit, 8, second longitudinal conduit, 9, impeller, 10, first input shaft, 11, fan, 12, second input shaft, 13, first input wheel, 14, first transmission belt, 15, first driven wheel, 16, composite shaft, 17, cam disc, 18, second driven wheel, 19, second input wheel, 20, second transmission belt, 21, lower rubber block, 22, lower spring, 23, upper rubber block, 24, upper spring, 25, ceramic plate, 26, lead, 27, first terminal plate, 28, second terminal plate, 29, first diode, 30, first accumulator, 31, second diode, 32, third terminal plate, 33, fourth terminal plate, 34, third diode, 35, second accumulator, 36, A fourth diode 37, a transverse guide rod 38, a guide sleeve 39, a displacement rod 40, a first return spring 41, a power outlet box 42, a positive terminal plate 43, a negative terminal plate 44, a magnetic box 45, an iron core 46, a consumer 47, a positive slot 48, a negative slot 49, a first trailing arm 50, a first permanent magnet 51, a power supply 52, a positive power outlet column 53, a negative power outlet column 54, a fuse 55, a protective resistor 56, a first power leading plate 57, a second power leading plate 58, a left half ring 59, a right half ring 60, a first power supply 61, a positive cylinder 62, a negative cylinder 63, an insulating transverse connecting rod 64, a first compression spring 65, a second compression spring 66, a third spring 67, a fourth compression spring 68, an upper triangle rack 69, a lower triangle rack 71, a lower triangle rack 70, an upper gear 71, a lower triangle rack 70, a lower triangle rack 69, a third compression spring, a fourth compression spring 68, a third compression spring, a fourth compression spring, a third, First bevel gear, 72, second bevel gear, 73, upper transmission shaft, 74, upper planetary gear, 75, ring gear, 76, lower triangular gear, 77, third bevel gear, 78, fourth bevel gear, 79, lower transmission shaft, 80, lower planetary gear, 81, upper permanent magnet, 82, lower permanent magnet, 83, moving crossbar, 84, handle, 85, power box, 86, upper conductor bar, 87, first conductor column, 88, second conductor column, 89, lower conductor column, 90, third conductor column, 91, fourth conductor column, 92, inductor, 93, fifth diode, 94, sixth diode, 95, distribution positive pole block, 96, distribution negative pole block, 97, coil.

Detailed Description

The invention is described in detail below with reference to the attached drawing figures:

referring to fig. 1 to 10, the intelligent power supply and distribution box type substation provided by the invention comprises an energy collection chamber 1, a distribution chamber 2 is arranged at the bottom of the energy collection chamber 1, a temporary power generation chamber 3 is arranged at the bottom of the distribution chamber 2, a flaring device 5 is arranged on the left side surface of the energy collection chamber 1, the bottom surface of the flaring device 5 is communicated with the top end of a first longitudinal conduit 6, the bottom end of the first longitudinal conduit 6 is communicated with the rear part of the upper surface of a transverse conduit 7, the front part of the lower surface of the transverse conduit 7 is communicated with the top end of a second longitudinal conduit 8, an impeller 9 is arranged inside the transverse conduit 7, the right side surface of the impeller 9 is fixedly connected with the left end of a first input shaft 10, a first input wheel 13 is fixed at the right end of the first input shaft 10, the lower outer periphery of the first input wheel 13 is contacted with the lower inner periphery of a first transmission belt 14, the upper portion of the first driving belt 14 is in contact with the upper portion of the first driven wheel 15, the right side of the first driven wheel 15 is fixedly connected with the left end of the synthetic shaft 16, the middle of the synthetic shaft 16 is provided with a cam disc 17, the lower portion of the cam disc 17 is in contact with the top surface of a lower rubber block 21, the bottom surface of the lower rubber block 21 is provided with a lower spring 22, the upper portion of the cam disc 17 is in contact with the bottom surface of an upper rubber block 23, the top surface of the upper rubber block 23 is fixedly connected with the bottom end of the upper spring 24, the top end of the upper spring 24 is fixedly connected with the middle of the lower surface of a piezoelectric ceramic plate 25, the right end of the synthetic shaft 16 is fixed with a second driven wheel 18, the upper portion of the second driven wheel 18 is in contact with the upper portion of the second driving belt 20, the lower portion of the second driving belt 20 is in contact with the lower portion of the second input wheel 19, the right side surface of the second input wheel 19 is fixedly connected with the left side surface of the second input shaft 12, the right end of the second input shaft 12 extends out of the right side surface of the energy collecting chamber 1, and the right end of the second input shaft 12 is fixed with the fan 11.

Furthermore, a solar panel 4 is arranged on the top of the energy collecting chamber 1, a first end plate 27 and a second end plate 28 are respectively arranged on the left and right parts of the lower surface of the solar panel 4, the left and right parts of the lower surface of the piezoelectric ceramic piece 25 are respectively provided with a third end piece 32 and a fourth end piece 33, a first diode 29, a first storage battery 30 and a second diode 31 are connected in series between the bottom end of the first terminal plate 27 and the bottom end of the third terminal plate 32 through a lead 26, the upper side of the first diode 29 is an anode, the lower side of the second diode 31 is an anode, a third diode 34, a second storage battery 35 and a fourth diode 36 are connected in series between the bottom end of the second end piece 28 and the bottom end of the fourth end piece 33 through a lead 26, the lower side of the third diode 34 is a positive electrode, and the upper side of the fourth diode 36 is a positive electrode. Furthermore, the device can realize the recovery effect of external energy, convert external wind energy, water energy and solar energy into electric energy for storage, is energy-saving and environment-friendly, when the external rain falls, rainwater flows into the transverse conduit 7 through the flaring device 5 and the first longitudinal conduit 6 to drive the impeller 9 to rotate, power is transmitted to the first input wheel 13 through the first input shaft 10, the first transmission belt 14 drives the synthetic shaft 16 to rotate through the first driven wheel 15, external wind flow drives the fan 11 to rotate, power is transmitted to the second input wheel 19 through the second input shaft 12, the second transmission belt 20 drives the synthetic shaft 16 to rotate through the second driven wheel 18, further, the cam disc 17 rotates and presses the piezoelectric ceramic plate 25 to repeatedly oscillate through the upper rubber block 23 and the upper spring 24, current generated by the piezoelectric ceramic plate 25 and current converted by the solar panel 4 are stored in the first storage battery 30 after rectification effect, And a second battery 35 to store electric energy.

Referring to fig. 1 to 10, further, a transverse guide rod 37 is fixed on the left inner surface of the distribution room 2, the outer periphery of the middle portion of the transverse guide rod 37 contacts the inner periphery of the guide sleeve 38, the bottom end of the guide sleeve 38 is fixedly connected with the top end of the displacement rod 39, a first return spring 40 is arranged at the bottom end of the left side surface of the displacement rod 39, an electricity outlet box 41 is arranged at the bottom of the right side surface of the displacement rod 39, a power supply 51 is arranged on the left inner surface of the electricity outlet box 41, a positive electricity outlet column 52 and a negative electricity outlet column 53 are arranged on the right side surface of the power supply 51, a positive end piece 42 and a negative end piece 43 are arranged on the right side surface of the electricity outlet box 41, a fuse 54 is connected in series between the positive electricity outlet column 52 and the positive end piece 42 through a wire 26, a protection resistor 55 is connected in series between the negative electricity outlet column 53 and the negative end piece 43 through a wire 26, the inside right fixed surface of electricity distribution room 2 have electric appliance 46, be located out electric box 41 right-hand with electric appliance 46, the left surface of using electric appliance 46 be provided with anodal slot 47, negative pole slot 48, the downside of using electric appliance 46 be fixed with first longitudinal wall 49, the bottom mounting of first longitudinal wall 49 have first permanent magnet 50, first permanent magnet 50's left side magnetic pole magnetism be the N utmost point.

Further, a magnetic box 44 is disposed inside the power distribution room 2, a top surface of the magnetic box 44 is fixedly connected with a bottom surface of the power outlet box 41, an iron core 45 is disposed at a bottom of the magnetic box 44, the iron core 45 is located right left of the first permanent magnet 50, a coil 97 is wrapped at a middle outer periphery of the iron core 45, a first lead tab 56 and a second lead tab 57 are disposed on an upper surface of the coil 97, a top surface of the first lead tab 56 is electrically connected with a left side surface of the left half ring 58 through a lead 26, a top surface of the second lead tab 57 is electrically connected with a right side surface of the right half ring 59 through a lead 26, a right side surface of the left half ring 58 is in contact with a left outer periphery of the positive cylinder 61, a left side surface of the right half ring 59 is in contact with a right outer periphery of the negative cylinder 62, and a first power supply 60 is connected in series between the positive cylinder 61 and the negative cylinder 62 through a lead 26, the left side of the first power supply 60 is a positive electrode, and the top ends of the left half ring 58 and the right half ring 59 are fixedly connected with the left part and the right part of the lower surface of the insulated transverse connecting rod 63 respectively. Furthermore, the device can realize a non-contact intelligent automatic power distribution function to ensure the operation safety of a user, when the electrical appliance 46 needs to be connected with electricity, the user rotates the insulating transverse connecting rod 63 to enable the left half ring 58 to be in contact with the negative pole cylinder 62 and the right half ring 59 to be in contact with the positive pole cylinder 61, then the direction of the internal current of the coil 97 is changed, the electromagnetic repulsion force on the first permanent magnet 50 is converted into the electromagnetic attraction force, the electrical box 41, the displacement rod 39 and the guide sleeve 38 are pulled to move rightwards along the transverse guide rod 37, then the positive pole end piece 42 and the negative pole end piece 43 are respectively in contact communication with the positive pole slot 47 and the negative pole slot 48, and the electrical appliance 46 obtains electricity to realize the non-contact power distribution.

Referring to fig. 1 to 10, an upper rack bar 68 and a lower rack bar 69 are provided inside the temporary power generation chamber 3, the upper rack bar 68 is fixedly connected to the top ends of the first compression spring 64 and the second compression spring 65 at the left and right lower surfaces thereof, the bottom ends of the first compression spring 64 and the second compression spring 65 are fixedly connected to the upper surface of the movable crossbar 83, the lower rack bar 69 is fixedly connected to the bottom ends of the third compression spring 66 and the fourth compression spring 67 at the left and right upper surfaces thereof, the top ends of the third compression spring 66 and the fourth compression spring 67 are fixedly connected to the lower surface of the movable crossbar 83, the left and right ends of the movable crossbar 83 extend from the left and right side surfaces of the temporary power generation chamber 3, and the handle 84 is fixed to the right end of the movable crossbar 83.

Further, a ring gear 75 is provided inside the temporary power generation chamber 3, an upper inner circumference of the ring gear 75 is in contact engagement with an upper outer circumference of an upper planetary gear 74, a lower inner circumference of the ring gear 75 is in contact engagement with a lower outer circumference of a lower planetary gear 80, an upper permanent magnet 81 and a lower permanent magnet 82 are provided respectively at upper and lower portions of a right side surface of the ring gear 75, an upper transmission shaft 73 is fixed to a left side surface of the upper planetary gear 74, a second bevel gear 72 is fixed to a left end of the upper transmission shaft 73, a rear portion of the second bevel gear 72 is in contact engagement with a right portion of a first bevel gear 71, an upper triangular gear 70 is fixed to a rear surface of the first bevel gear 71, a bottom portion of the upper triangular gear 70 is in contact engagement with a top portion of an upper triangular rack 68, and a lower transmission shaft 79 is fixed to a left side surface of the lower planetary gear 80, a fourth bevel gear 78 is fixed to the left end of the lower transmission shaft 79, the rear portion of the fourth bevel gear 78 is in contact engagement with the right portion of the third bevel gear 77, a lower triangular gear 76 is fixed to the rear surface of the third bevel gear 77, and the top portion of the lower triangular gear 76 is in contact engagement with the bottom portion of the lower triangular rack 70.

Furthermore, the temporary power generation chamber 3 is internally provided with a power utilization box 85, the power utilization box 85 is internally provided with an inductor 92, a power distribution positive electrode block 95 and a power distribution negative electrode block 96, the upper side surface of the inductor 92 is electrically connected with the right end of the second conductor column 88 through a lead 26, the left end of the second conductor column 88 is electrically connected with the bottom end of the upper conductor rod 86, the top end of the upper conductor rod 86 is electrically connected with the left end of the first conductor column 87, the lower side surface of the inductor 92 is electrically connected with the right end of the third conductor column 90 through a lead 26, the left end of the third conductor column 90 is electrically connected with the top end of the lower conductor column 89, the bottom end of the lower conductor column 89 is electrically connected with the left end of the fourth conductor column 91, a fifth diode 93 is connected in series between the right end of the first conductor column 87 and the left end of the power distribution positive electrode block 95 through a lead 26, the upper side of the fifth diode 93 is a positive electrode, a sixth diode 94 is connected in series between the right end of the fourth conductor column 91 and the left end of the distribution negative electrode block 96 through a lead 26, and the upper side of the sixth diode 94 is a positive electrode. Furthermore, the device of the present invention can realize an emergency temporary power supply function, when the original power is insufficient, the power generation is temporarily performed by inputting a lateral motion to the moving traverse 83, when the moving traverse 83 moves leftward, the upper triangular rack 68 is driven leftward by the first pressure receiving spring 64 and the second pressure receiving spring 65, the upper triangular gear 70 is driven to rotate clockwise, the motion is transmitted to the upper transmission shaft 73 through the first bevel gear 71 and the second bevel gear 72, and is input to the ring gear 75 through the upper planetary gear 74, when the moving traverse 83 moves rightward, the lower triangular rack 69 is driven rightward by the third pressure receiving spring 66 and the fourth pressure receiving spring 67, the lower triangular gear 76 is driven to rotate clockwise, the motion is transmitted to the lower transmission shaft 79 through the third bevel gear 77 and the fourth bevel gear 78, and is input to the ring gear 75 through the lower planetary gear 80, the ring gear 75 drives the magnetic induction lines of the upper permanent magnet 81 and the lower permanent magnet 82 to cut the upper conductor rod 86 and the lower conductor post 89, and the generated induced current is transmitted to the power distribution positive pole block 95 and the power distribution negative pole block 96 after rectification so as to realize temporary power supply.

The solar panel 4, the piezoelectric ceramic piece 25, the iron core 45, the gear ring 75, the coil 97 and the like are all assembled by existing equipment, and therefore specific models and specifications are not described in detail.

The working principle of the invention is as follows:

the invention provides an intelligent power supply and distribution box-type substation, which comprises an energy collection chamber 1, wherein the bottom of the energy collection chamber 1 is provided with a power distribution chamber 2, the bottom of the power distribution chamber 2 is provided with a temporary power generation chamber 3, the left side surface of the energy collection chamber 1 is provided with a flaring device 5, the bottom surface of the flaring device 5 is communicated with the top end of a first longitudinal conduit 6, the bottom end of the first longitudinal conduit 6 is communicated with the rear part of the upper surface of a transverse conduit 7, the front part of the lower surface of the transverse conduit 7 is communicated with the top end of a second longitudinal conduit 8, an impeller 9 is arranged inside the transverse conduit 7, the right side surface of the impeller 9 is fixedly connected with the left end of a first input shaft 10, the right end of the first input shaft 10 is fixedly provided with a first input wheel 13, the lower outer periphery of the first input wheel 13 is contacted with the lower inner periphery of a first transmission belt 14, the upper portion of the first driving belt 14 is in contact with the upper portion of the first driven wheel 15, the right side of the first driven wheel 15 is fixedly connected with the left end of the synthetic shaft 16, the middle of the synthetic shaft 16 is provided with a cam disc 17, the lower portion of the cam disc 17 is in contact with the top surface of a lower rubber block 21, the bottom surface of the lower rubber block 21 is provided with a lower spring 22, the upper portion of the cam disc 17 is in contact with the bottom surface of an upper rubber block 23, the top surface of the upper rubber block 23 is fixedly connected with the bottom end of the upper spring 24, the top end of the upper spring 24 is fixedly connected with the middle of the lower surface of a piezoelectric ceramic plate 25, the right end of the synthetic shaft 16 is fixed with a second driven wheel 18, the upper portion of the second driven wheel 18 is in contact with the upper portion of the second driving belt 20, the lower portion of the second driving belt 20 is in contact with the lower portion of the second input wheel 19, the right side surface of the second input wheel 19 is fixedly connected with the left side surface of the second input shaft 12, the right end of the second input shaft 12 extends out of the right side surface of the energy collection chamber 1, the right end of the second input shaft 12 is fixed with the fan 11, the top of the energy collection chamber 1 is provided with the solar panel 4, the left and right parts of the lower surface of the solar panel 4 are respectively provided with a first end plate 27 and a second end plate 28, the left and right parts of the lower surface of the piezoelectric ceramic plate 25 are respectively provided with a third end plate 32 and a fourth end plate 33, a first diode 29, a first storage battery 30 and a second diode 31 are connected in series between the bottom end of the first end plate 27 and the bottom end of the third end plate 32 through a lead 26, the upper side of the first diode 29 is a positive pole, and further, the device can achieve the effect of recovering external energy, and can recover external wind energy, water energy and external wind energy and external water energy, When the external rains, rainwater flows into the transverse conduit 7 through the flaring device 5 and the first longitudinal conduit 6 to drive the impeller 9 to rotate, power is transmitted to the first input wheel 13 through the first input shaft 10, the first driving belt 14 drives the synthetic shaft 16 to rotate through the first driven wheel 15, external wind current drives the fan 11 to rotate, power is transmitted to the second input wheel 19 through the second input shaft 12, the second driving belt 20 drives the synthetic shaft 16 to rotate through the second driven wheel 18, further, the cam disc 17 rotates and presses the piezoelectric ceramic plate 25 to repeatedly oscillate through the upper rubber block 23 and the upper spring 24, and current generated by the piezoelectric ceramic plate 25 and current converted by the solar panel 4 are stored in the first storage battery 30 and the second storage battery 35 after rectification, so that the electric energy storage is realized.

A transverse guide rod 37 is fixed on the left surface of the interior of the distribution room 2, the outer periphery of the middle of the transverse guide rod 37 is in contact with the inner periphery of the guide sleeve 38, the bottom end of the guide sleeve 38 is fixedly connected with the top end of the displacement rod 39, a first return spring 40 is arranged at the bottom end of the left side surface of the displacement rod 39, an electricity outlet box 41 is arranged at the bottom of the right side surface of the displacement rod 39, a power supply 51 is arranged on the left side surface of the interior of the electricity outlet box 41, a positive electricity outlet column 52 and a negative electricity outlet column 53 are arranged on the right side surface of the power supply 51, a positive end piece 42 and a negative end piece 43 are arranged on the right side surface of the electricity outlet box 41, a fuse 54 is connected in series between the positive electricity outlet column 52 and the positive end piece 42 through a conducting wire 26, a protective resistor 55 is connected in series between the negative electricity outlet column 53 and the negative end piece 43 through a conducting wire 26, an electrical appliance 46 is fixed on the right surface of the interior, the utility model discloses a power distribution cabinet, including power distribution cabinet, iron core 45, first permanent magnet 50, first magnetic pole, second magnetic pole, coil 97, first lead electric piece 56, second lead electric piece 57, left side electric connection of first lead electric piece 56, left side semi-ring 58, last electric piece 56, left side electric connection of wire 26 and left position semi-ring 58, the top surface of the second conducting sheet 57 is electrically connected with the right side surface of the right half ring 59 through the conducting wire 26, the right side surface of the left half ring 58 is in contact with the left periphery of the anode cylinder 61, the left side surface of the right half ring 59 is in contact with the right periphery of the cathode cylinder 62, the first power supply 60 is connected in series between the anode cylinder 61 and the cathode cylinder 62 through the conducting wire 26, the left side of the first power supply 60 is the anode, further, the inventive device can realize the non-contact intelligent automatic power distribution function to ensure the operation safety of a user, when the electrical appliance 46 needs to be connected, the user rotates the insulating cross connecting rod 63 to enable the left half ring 58 to be in contact with the cathode cylinder 62 and the right half ring 59 to be in contact with the anode cylinder 61, further, the internal current direction of the coil 97 is changed, the electromagnetic repulsion force to the first permanent magnet 50 is converted into the electromagnetic attraction force, the power box 41, the displacement rod 39 and the guide sleeve 38 are pulled to move rightwards along the transverse guide rod 37, then the positive pole end piece 42 and the negative pole end piece 43 are respectively communicated with the positive pole slot 47 and the negative pole slot 48 in a contact mode, the electric appliance 46 is powered, and the non-contact power distribution function is achieved.

An upper triangular rack 68 and a lower triangular rack 69 are arranged in the temporary power generation chamber 3, the left and right parts of the lower surface of the upper triangular rack 68 are respectively fixedly connected with the top ends of a first pressure spring 64 and a second pressure spring 65, the bottom ends of the first pressure spring 64 and the second pressure spring 65 are respectively fixedly connected with the upper surface of a movable cross arm 83, the left and right parts of the upper surface of the lower triangular rack 69 are respectively fixedly connected with the bottom ends of a third pressure spring 66 and a fourth pressure spring 67, the top ends of the third pressure spring 66 and the fourth pressure spring 67 are respectively fixedly connected with the lower surface of the movable cross arm 83, the left end and the right end of the movable cross arm 83 respectively extend out from the left side surface and the right side surface of the temporary power generation chamber 3, a handle 84 is fixed at the right end of the movable cross arm 83, a gear ring 75 is arranged in the temporary power generation chamber 3, the upper part of the gear ring 75 is contacted with the upper periphery of the upper planetary gear 74, the inner periphery of the lower part of the ring gear 75 is in contact and meshing with the outer periphery of the lower part of the lower planetary gear 80, the upper and lower parts of the right side surface of the ring gear 75 are respectively provided with an upper permanent magnet 81 and a lower permanent magnet 82, the left side surface of the upper planetary gear 74 is fixed with an upper transmission shaft 73, the left end of the upper transmission shaft 73 is fixed with a second bevel gear 72, the rear part of the second bevel gear 72 is in contact and meshing with the right part of the first bevel gear 71, the rear surface of the first bevel gear 71 is fixed with an upper triangular gear 70, the bottom of the upper triangular gear 70 is in contact and meshing with the top of the upper triangular rack 68, the left side surface of the lower planetary gear 80 is fixed with a lower transmission shaft 79, the left end of the lower transmission shaft 79 is fixed with a fourth bevel gear 78, the rear part of the fourth bevel gear 78 is in contact and meshing with the, a lower triangular gear 76 is fixed on the rear surface of the third bevel gear 77, the top of the lower triangular gear 76 is in contact engagement with the bottom of the lower triangular rack 70, an electric box 85 is arranged inside the temporary power generation chamber 3, an inductor 92, a distribution positive electrode block 95 and a distribution negative electrode block 96 are arranged inside the electric box 85, the upper side surface of the inductor 92 is electrically connected with the right end of the second conductor column 88 through a lead 26, the left end of the second conductor column 88 is electrically connected with the bottom end of the upper conductor column 86, the top end of the upper conductor column 86 is electrically connected with the left end of the first conductor column 87, the lower side surface of the inductor 92 is electrically connected with the right end of the third conductor column 90 through a lead 26, the left end of the third conductor column 90 is electrically connected with the top end of the lower conductor column 89, and the bottom end of the lower conductor column 89 is electrically connected with the left end of the fourth conductor column 91, the fifth diode 93 is connected in series between the right end of the first conductor column 87 and the left end of the distribution positive pole block 95 through the lead 26, and further, the device of the invention can realize an emergency temporary power supply function, when the original power is insufficient, the temporary power generation is realized by inputting the transverse motion to the moving cross arm 83, when the moving cross arm 83 moves leftwards, the upper triangular rack 68 is driven to move leftwards through the first compression spring 64 and the second compression spring 65, the upper triangular gear 70 is driven to rotate clockwise, the motion is transmitted to the upper transmission shaft 73 through the first bevel gear 71 and the second bevel gear 72, the motion is input to the gear ring 75 through the upper planetary gear 74, when the moving cross arm 83 moves rightwards, the lower triangular rack 69 is driven to move rightwards through the third compression spring 66 and the fourth compression spring 67, the lower triangular gear 76 is driven to rotate clockwise, and the motion is driven to move rightwards through the third bevel gear 77, the fourth bevel gear 78 is transmitted to the lower transmission shaft 79, and is input to the gear ring 75 through the lower planetary gear 80, and then the gear ring 75 drives the magnetic induction lines of the upper permanent magnet 81 and the lower permanent magnet 82 to cut the upper conductor rod 86 and the lower conductor column 89, and the generated induced current is transmitted to the power distribution positive pole block 95 and the power distribution negative pole block 96 after rectification, so that temporary power supply is realized.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The intelligent power supply and distribution box-type substation is characterized by comprising an energy collection chamber (1), wherein a power distribution chamber (2) is arranged at the bottom of the energy collection chamber (1), a temporary power generation chamber (3) is arranged at the bottom of the power distribution chamber (2), an expander (5) is arranged on the left side surface of the energy collection chamber (1), the bottom surface of the expander (5) is communicated with the top end of a first longitudinal conduit (6), the bottom end of the first longitudinal conduit (6) is communicated with the rear part of the upper surface of a transverse conduit (7), the front part of the lower surface of the transverse conduit (7) is communicated with the top end of a second longitudinal conduit (8), an impeller (9) is arranged in the transverse conduit (7), the right side surface of the impeller (9) is fixedly connected with the left end of a first input shaft (10), a first input wheel (13) is fixed at the right end of the first input shaft (10), the lower part periphery of first input wheel (13) and the lower part of first drive belt (14) interior circumference contact, the upper portion of first drive belt (14) interior circumference and the upper portion periphery contact of first driven wheel (15), the right flank of first driven wheel (15) and the left end fixed connection of synthetic shaft (16), the middle part of synthetic shaft (16) be provided with cam disc (17), the lower part periphery of cam disc (17) and the top surface contact of lower rubber block (21), the bottom surface of lower rubber block (21) be provided with down spring (22), the upper portion periphery of cam disc (17) and the bottom surface contact of upper rubber block (23), the top surface of upper rubber block (23) and the bottom fixed connection of upper spring (24), the top of upper spring (24) and the middle part fixed connection of the lower surface of piezoceramics piece (25), the right-hand member of synthetic axle (16) be fixed with second driven wheel (18), the upper portion periphery of second driven wheel (18) and the upper portion inner peripheral contact of second drive belt (20), the lower part inner peripheral contact of second drive belt (20) and the lower part periphery contact of second input wheel (19), the right flank of second input wheel (19) and the left end fixed connection of second input shaft (12), the right-hand member of second input shaft (12) stretch out the right flank of collection ability room (1), the right-hand member of second input shaft (12) be fixed with fan (11).

2. The intelligent power supply and distribution box-type substation of claim 1, characterized in that: the solar energy collecting chamber is characterized in that a solar panel (4) is arranged at the top of the energy collecting chamber (1), a first end piece (27) and a second end piece (28) are respectively arranged at the left part and the right part of the lower surface of the solar panel (4), a third end piece (32) and a fourth end piece (33) are respectively arranged at the left part and the right part of the lower surface of the piezoelectric ceramic piece (25), a first diode (29), a first storage battery (30) and a second diode (31) are respectively connected in series between the bottom end of the first end piece (27) and the bottom end of the third end piece (32) through a lead (26), the upper side of the first diode (29) is an anode, the lower side of the second diode (31) is an anode, a third diode (34), a second storage battery (35) and a fourth diode (36) are respectively connected in series between the bottom end of the second end piece (28) and the bottom end of the fourth end piece (33) through a lead (26), the lower side of the third diode (34) is an anode, and the upper side of the fourth diode (36) is an anode.

3. The intelligent power supply and distribution box-type substation of claim 1, characterized in that: the inside left surface of electricity distribution room (2) be fixed with horizontal guide arm (37), the middle part periphery of horizontal guide arm (37) and the interior peripheral contact of uide bushing (38), the top fixed connection of bottom and displacement pole (39) of uide bushing (38), the bottom of the left surface of displacement pole (39) be provided with first return spring (40), the bottom of the right flank of displacement pole (39) be provided with go out electronic box (41), the inside left surface of going out electronic box (41) be provided with power supply ware (51), the right flank of power supply ware (51) be provided with positive play electric post (52), negative play electric post (53), the right flank of play electronic box (41) be provided with positive pole end piece (42), negative pole end piece (43), positive play electric post (52) and positive pole end piece (42) between establish ties there is fuse (54) through wire (26), negative pole (53) and negative pole end piece (43) between have protective resistance (55) through wire (26) series connection, the inside right side fixed surface of electricity distribution room (2) have electric apparatus (46), be located the positive right-hand of electricity distribution box (41) with electric apparatus (46), the left surface of electric apparatus (46) be provided with anodal slot (47), negative pole slot (48), the downside of electric apparatus (46) be fixed with first trailing arm (49), the bottom mounting of first trailing arm (49) have first permanent magnet (50), the left side magnetic pole magnetism of first permanent magnet (50) be the N utmost point.

4. The intelligent power supply and distribution box-type substation of claim 1, characterized in that: the inside of electricity distribution room (2) be provided with magnetic box (44), the top surface of magnetic box (44) and the bottom surface fixed connection of play electronic box (41), the bottom of magnetic box (44) be provided with iron core (45), iron core (45) be located the positive left side of first permanent magnet (50), the middle part periphery of iron core (45) parcel have coil (97), the upper surface of coil (97) be provided with first electricity conduction piece (56), second electricity conduction piece (57), the top surface of first electricity conduction piece (56) pass through wire (26) and the left side electric connection of left position semi-ring (58), the top surface of second electricity conduction piece (57) pass through wire (26) and the right side electric connection of right position semi-ring (59), the right side of left position semi-ring (58) and the left part periphery contact of positive pole cylinder (61), the left side of right position semi-ring (59) and the right part periphery contact cylinder of negative pole (62), the positive pole cylinder (61), negative pole cylinder (62) between establish ties through wire (26) have first power (60), the left side of first power (60) be the positive pole, the top of left position semi-ring (58), right position semi-ring (59) respectively with the left and right parts fixed connection of the lower surface of insulating horizontal connecting rod (63).

5. The intelligent power supply and distribution box-type substation of claim 1, characterized in that: an upper triangular rack (68) and a lower triangular rack (69) are arranged in the temporary power generation chamber (3), the left and right parts of the lower surface of the upper triangular rack (68) are respectively fixedly connected with the top ends of a first compression spring (64) and a second compression spring (65), the bottom ends of the first compression spring (64) and the second compression spring (65) are fixedly connected with the upper surface of the movable cross arm (83), the left and right parts of the upper surface of the lower triangular rack (69) are respectively fixedly connected with the bottom ends of a third compression spring (66) and a fourth compression spring (67), the top ends of the third compression spring (66) and the fourth compression spring (67) are fixedly connected with the lower surface of the movable cross arm (83), the left end and the right end of the movable cross arm (83) respectively extend out of the left side surface and the right side surface of the temporary power generation chamber (3), and a handle (84) is fixed at the right end of the movable cross arm (83).

6. The intelligent power supply and distribution box-type substation of claim 1, characterized in that: the temporary power generation chamber (3) is internally provided with a gear ring (75), the upper inner periphery of the gear ring (75) is in contact and meshing with the upper outer periphery of an upper planetary gear (74), the lower inner periphery of the gear ring (75) is in contact and meshing with the lower outer periphery of a lower planetary gear (80), the upper part and the lower part of the right side surface of the gear ring (75) are respectively provided with an upper permanent magnet (81) and a lower permanent magnet (82), the left side surface of the upper planetary gear (74) is fixedly provided with an upper transmission shaft (73), the left end of the upper transmission shaft (73) is fixedly provided with a second bevel gear (72), the rear part of the second bevel gear (72) is in contact and meshing with the right part of a first bevel gear (71), the rear surface of the first bevel gear (71) is fixedly provided with an upper triangular gear (70), and the bottom of the upper triangular gear (70) is in contact and meshing with the top of an upper, a lower transmission shaft (79) is fixed on the left side surface of the lower planetary gear (80), a fourth bevel gear (78) is fixed on the left end of the lower transmission shaft (79), the rear part of the fourth bevel gear (78) is in contact meshing with the right part of the third bevel gear (77), a lower triangular gear (76) is fixed on the rear surface of the third bevel gear (77), and the top of the lower triangular gear (76) is in contact meshing with the bottom of the lower triangular rack (70).

7. The intelligent power supply and distribution box-type substation of claim 1, characterized in that: the temporary power generation chamber (3) is internally provided with an electric box (85), the electric box (85) is internally provided with an inductor (92), a power distribution positive electrode block (95) and a power distribution negative electrode block (96), the upper side surface of the inductor (92) is electrically connected with the right end of a second conductor column (88) through a lead (26), the left end of the second conductor column (88) is electrically connected with the bottom end of an upper conductor rod (86), the top end of the upper conductor rod (86) is electrically connected with the left end of a first conductor column (87), the lower side surface of the inductor (92) is electrically connected with the right end of a third conductor column (90) through the lead (26), the left end of the third conductor column (90) is electrically connected with the top end of a lower conductor column (89), and the bottom end of the lower conductor column (89) is electrically connected with the left end of a fourth conductor column (91), a fifth diode (93) is connected in series between the right end of the first conductor column (87) and the left end of the power distribution positive electrode block (95) through a lead (26), the upper side face of the fifth diode (93) is a positive electrode, a sixth diode (94) is connected in series between the right end of the fourth conductor column (91) and the left end of the power distribution negative electrode block (96) through a lead (26), and the upper side face of the sixth diode (94) is a positive electrode.