DE102011008485A1 - Method for obtaining and storing electric energy by mobile current generators in connection with intrinsic energy and external energy, involves displacing railway track from higher platform in incline - Google Patents

Abstract

The method involves displacing a railway track from a higher platform in an incline. The railway track is guided to a deeper placed platform. The generator car (1) has track wheels and rigid axles, which are placed in bearings. The axles have toothed wheels, which are driven by toothed wheels in a transmission with clutch and by the current generators. The electrical energy generated in the generator cars is discharged by electric devices onto the roof of the generator cars through overhead lines. An independent claim is also included for a device for obtaining and storing electric energy by mobile current generators in connection with intrinsic energy and external energy.

Description

State of the art:

Nuclear power plants are unpredictable, dangerous and pose lasting problems, not least because of the residues to be stored.

Reservoirs can store energy. They liberate and silt up, forming breeding herds for many pathogens and diseases that cause illness. Their high hydraulic pressure can move whole mountains; This causes cracks and leaks. If a dam wall breaks down, many people die in a short time and damage occurs at unprecedented heights that hardly anyone can afford. Infrastructures are destroyed and are difficult to rebuild. Harvests are lost. Agricultural land and forest land are destroyed.

Alternative energies can not store generated electrical energy so that they can not become current at night.

Pumped storage power plants with upper and lower reservoirs require water, which does not exist anywhere in the world.

Wind turbines on the sea are at the mercy of the forces of nature. Transporting the energy produced is dangerous, expensive, requires long cable runs at enormous construction and maintenance costs, and high current levels are lost when transported through the cables. Wind is not always available.

The power of the sun is also not always available, especially at night, not in heavy sandstorms or blizzards, and not in heavy rain or fog.

Task:

Electrical energy should be available day and night and in all weather and weather conditions. The aforementioned defects and dangers should be able to be eliminated. Electrical energy should always be available where there is no or too little water, or if the sun or wind power can not be used at times or are not available. Expensive turbines (water or steam turbines) should be largely dispensed with.

The aim is to integrate a combination of all available and already developed technical methods into the method claimed here. Gravity should be used.

Solution of the tasks:

From a platform built on the ground surface 2 Para. 15 leads a railroad track Ziff. 17 down to a lower platform. Para. 16 and from there in a grinder and / or over switches to an even deeper than 17 first in a further gradient. 18 in the direction of Platform Ziff. 15 back to then in a slope of the track Ziff. 19 with the help of cable drums 5 Para. 21 with generator Ziff. 22 or a locomotive Ziff. 25 via points Ziff. 20 in the old starting position Ziff. 15 to get back. The lowered track systems are in a U-shaped shaft Ziff. 14 relocated; the shaft can be covered at the top. 3 also shows schematically the track course. From the platform Ziff. 15 starting to roll without a drive only by the gravity generator car 1 on the tracks Ziff. 17 down towards the lower platform 16 , The axes move 1 Para. 6 ) Gears Ziff. 7 , and about this a transmission with clutch Ziff. 8th which power generators ( 9 ) drives. The electrical energy generated in this case is moved via between the tracks laid induction rails Ziff. 13 , or via inductive loops Ziff. 12 , or over power lines 6 Para. 25 . 26 . 27 and directed via electric locomotives to the power consumers and / or to the public power grid.

On the platform 2 Para. 15 and 5 Para. 15 is at least one cable reel 5 Para. 21 stored, which via couplings and flanges power generators Ziff. 22 drives, taking a rope 6 Para. 24 from the cable reel point. 21 to a generator cart 1 leads and is attached there. Then drives one or more attached generator cars 1 in the downhill on track 17 downhill to the platform Ziff 16 , so pulls the car Ziff. 1 the cable 6 Para. 24 behind it, so that the cable reel is put into a rotary motion while the current generator 6 Para. 22 drives from where the generated electrical energy also be routed to the public network or to consumers. The cable Ziff. 24 runs over cable rollers 5 Para. 23 , Over pulleys pull the car 1 the rope point 24 also around the curves on the platform Ziff. 16 around and on the way to the track Ziff 18 . 2 ,

Before the generator car on track Ziff 19 2 to platform no. 15 can be pulled back, via couplings, the drives from the drives in the gears 1 Para. 8th and 9 be separated.

The live electrical systems communicate with the public power grid and / or alternative power sources. At night, the power-generating generator cars move 1 in the track gradient Ziff. 17 and on track 18 back to the slope in the track Ziff. 19 2 , By day, the generator cars 1 with the help of electrical energy and generators 5 Para. 22 on the platform Ziff. 15 pulled back to then go back down at night and again generate electrical energy. The generator cars can also drive from a locomotive to the platform 15 be pulled up, then foreign energy is used.

Depending on the power requirements at night can be correspondingly many or a few generator cars 1 be used, as if you were driving up stationary turbines and generators; These tasks are now carried out by the generator cars 1 without using turbines.

The electric locomotive Ziff. 25 6 can relate electrical energy from outside to the car 1 to platform no. 15 to pull back. Corresponding reversing devices are shown in the electrical system.

The generator cars 1 can also be in chambers 7 Para. 29 to be operated with the complete other facilities with tracks, induction loops, induction rails, overhead lines, the chambers 7 Para. 29 are embedded in a mountain to protect the electrical equipment from falling rocks, avalanches of any kind, and from flooding. The chambers Ziff 29 7 can be locked from the outside. In the chambers Ziff. 29 all required technical devices are shown as well as drainage pipes. The chambers Ziff. 29 spiral down from an upper point on the mountain. At night, the generator cars roll by gravity 1 down and forward the electrical energy generated in the process to the public grid and / or to the power consumers. During the day the cars will be 1 using the power from the public grid or from alternative energy sources pulled back to the mountain top, using locomotives or cable reels 5 Para. 21 and generators para. 22 be used.

The plants and methods claimed here are used where previously known other methods can not or only insufficiently used, and where the storage of electrical energy is not or only insufficiently made available.

Achievable benefits:

The claimed here methods and technical equipment can be used where there is no or almost no water, so that hydropower plants, steam turbines or water storage power plants can not be operated or only limited.

Alternative sources of energy can be supplemented by being able to use them as long as they work, so when wind or sun can be used, the energy of which can now be stored for retrieval, especially at night, using the methods claimed here.

The methods claimed here are not exposed to excessive wind loads and not heavy storms with sand and snow and always remain functional. Even rockfalls, landslides, floods can not hinder or destroy the facilities. The storage of electrical energy and their subsequent retrieval is environmentally friendly and without any pollutant emissions. There are no harmful residues. The transport routes of the energy generated are short and avoid long transport routes with losses and expensive, complex transport technology such as high-voltage masts over long distances, and expensive maintenance. The systems no longer need to be researched and can be used immediately. Small regions worldwide can now be urbanized and already existing structurally poor regions can now be developed relatively quickly.

The methods and systems claimed here can also be used in mountains, where they travel long distances, ie generate long-term electrical energy; The systems are protected in chambers from rockfall and avalanches of any kind. The runways of the generator cars are very long and take place at high speeds, while the paths back to the starting points, almost perpendicular to the mountain top or obliquely high to the platform, are short and take place at low speed; this has a positive effect on the current account. The lower end of the chambers 7 Para. 29 is so high above the terrain below the mountain that floods can not penetrate into the chambers, so that the plants can reliably produce and deliver electrical energy. Patent application: "Method and technology for the generation and storage of electrical energy by mobile power generators in conjunction with own and external energy." digits Figures ff. 1-7 Name to the numbers ... 1 1 Mobile generator cart 2 1 rail wheels 3 1 rail 4 1 rail sleepers 5 1 Bearings for the wheel axle 6 1 wheel axle 7 1 gear 8th 1 gear transmission 9 1 generators 10 1 Ballastgutbehälter 11 1 Removable housing part 12 1 induction loops 13 1 induction rail 14 2 U-shaped shaft, can be covered at the top. 15 2 Upper, higher ramp 16 2 Lower, lower ramp 17 2 Downward leading track 18 2 Downhill track, even lower than 17 19 2 Upward leading rail 20 2 switch 21 5 cable drum 22 5 power generator 23 5 cable reel 24 6 rope 25 6 Electric locomotive, locomotive. 26 6 Current high line 27 6 Masts for the power transmission lines 28 7 Massif, terrestrial elevations. Mountain. 29 7 Chambers in the mountain, ring-shaped around the mountain, spiraling.

Claims (1)

Method and technology for the generation and storage of electrical energy by mobile power generators in conjunction with intrinsic and external energy, characterized in that from a higher platform ( 2 Para. 15 ) a railroad track 1 Para. 3 and 2 Para. 17 is laid on a slope, with the railway track 2 Para. 17 to a lowered platform 2 Clause 16 leads. Furthermore, characterized in that of the platform Ziff. 15 from at least one generator car 1 Para. 1 on the track Ziff 17 without drive and only by gravity to the platform Ziff. 16 running, and characterized in that the generator carriage according to 1 Para. 1 Track wheels Item no. 2 and rigid axes Ziff. 6 shows which ones in camps para. 5 are stored. Furthermore characterized in that the axes 1 Para. 6 Gears Point 7 show which of the gears in a gearbox with clutch Ziff. 8th and about these power generators para. 9 and 9 drive. Furthermore, characterized in that the generator car ziff 1 on the transmission structure a further structure for receiving ballast goods Ziff. 10 , and a removable housing cover Ziff 11 show. Furthermore characterized in that between the rails 1 Clause 3 and 2 Para. 17 such as 4 Para. 13 Induction rails and / or induction loops 4 Para. 12 are laid. Furthermore, characterized in that the electrical energy generated in the generator car also via electrical devices on the roof of the generator cars to overhead lines 6 Para. 25 . 26 can be dissipated. Furthermore characterized in that the track 2 Para. 17 from the lowered platform point 16 , off in a curve and / or over points then deeper than the level for track Ziff. 17 in a downward slope leads. Para. 18 , then near the platform Ziff. 15 in a slope Ziff. 19 to run aground, the track section Ziff. 19 to the starting platform point. 15 leading back, whereby also switches 2 Para. 20 are shown. The entire track system 2 Para. 17 . 18 . 19 , is wholly or partly in a u-fömigen shaft Ziff. 14 relocated; the U-slot is covered at the top, with the cover plates being removable. 3 shows the top view of the railway tracks with the downward of Ziff. 15 according to para. 16 leading track Ziff. 17 , with the lower-lying downhill track Ziff, 18 from point 16 and from here the direction to the launch platform Ziff 15 , The 4 shows the induction rail Ziff. 13 and the induction loop Ziff 12 and the change of direction of the tracks. Furthermore, characterized in that on the launch platform 5 Clause 15 at least one cable drum Ziff. 21 with power generator Ziff. 22 is shown, wherein at least one cable Ziff. 24 6 via cable rollers 5 and 6 Clause 23 to a generator car Ziff. 1 5 and 6 leads. Furthermore, characterized in that according to 6 Clause 25 an electric locomotive is guided on the tracks, which in the flow of energy through the induction rails 1 Para. 13 , or via the induction loops Ziff. 12 , and / or over a catenary 6 Para. 26 communicates with the power lines on masts Ziff. 27 are stored. Furthermore, characterized in that according to 7 generator wagons Ziff. 1 on rails Ziff. 3 in chambers 7 Para. 29 operated, the chambers Ziff. 29 in a mountain range, mountain or in terrestrial elevations are circular and spirally laid around the mountain from top to bottom. About a short return as possible, the generator cars 1 brought back from below to the mountain top. The chambers Ziff. 29 are lockable from the outside. In the chambers Ziff. 29 Drainage pipes, electrical cables and utilities are laid as well as induction loops, induction rails, electrical overhead lines, as well as all required current-carrying equipment, devices, facilities. Furthermore, characterized in that all systems, vehicles, cable drums with their generators, or devices 1 - 7 generate electrical energy and deliver it to electricity consumers, to the public grid, but on the other hand also electrical energy from the public grid or energy sources from solar thermal / Voltaiktechnik, wind turbines or hydropower plants, from biogas plants or other energy-generating facilities relate and use. Furthermore, characterized in that the systems according to the preceding claims generate energy, deliver, and can save. Furthermore, characterized in that the generator cars 1 on an electric locomotive 6 Para. 25 can be coupled, and that the electric locomotive Ziff 25 like the generator wagons Ziff 1 can also generate electrical energy via their axles with gearboxes and their own generators, and can deliver this energy to the outside, but that the generators also absorb energy from outside and the locomotive or the generators 5 Para. 22 with their cable drums Ziff. 21 can drive. For this purpose, all the necessary electrical equipment and devices in the locomotive, in their environment and in the entire system are arranged. Furthermore, characterized in that the drives and outputs of the gears or the transmission in the generator car and in the locomotive have clutches over which the drive can be separated from the output. Furthermore, characterized in that several generator cars have fixed connections over which they can be firmly coupled together without jerks. The generator cars also have hooks for attachment to at least one pull rope. 6 Para. 23 . 24 , Furthermore, characterized in that the generator cars 1 via a pull rope 6 Para. 24 on her way over track 17 the cable drum 5 Para. 21 and thus the power generator Ziff. 22 can drive. Furthermore, characterized in that the generator cars 1 over track 19 of at least one cable drum 5 Para. 21 and using the power generator Ziff. 22 to platform no. 15 can be pulled up to over a turnout 2 Para. 20 in the starting track 17 einzuscheren. All transmissions of all vehicles are separable via couplings to engage or disengage. Characterized in that gravity is used by the plants with their procedures and technical facilities. The paths of the generator car 1 and 7 are long, the paths back to the starting points are shorter. Also between the respective cable drum Ziff. 21 and the generator Ziff. 21 Couplings and, on a case-by-case basis, gearboxes are shown.

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