5. electronic boards, to photosensors of movement, installed on the adams ring
6. DS / DS converter with galvanic isolation
7. Sensors with electronic motion and start-up boards
8. Total electron matching motion
9. Controller with battery charger.
10. Materials, recommendations, description and assembly schemes for self-assembly
On FCA conditions, Odessa costs 4,500 US dollars.At 10 kW (4 pcs VEGA for 2.5 kW each) the cost will be 13 000 US dollars.You can sign a contract and purchase 1 pcs for testing.
Preparation of the components of the model - within 14 days after prepayment.
Product Code 8502Delivery anywhere in the world.Price FOB Odessa, Ukraine
MATERIALS FOR THE MATTER OF THE QUESTION
The principle of the VEGA electric generator
* Information taken from open sources!
The principle of the VEGA generator is to use a hybrid system that converts kinetic and electromagnetic energy into a strong current ripple, in other words, converts kinetic and electromagnetic energy into high-current pulses. The brushless and direct drive of the multipole generator of direct rotation is used in the work. When generating VEGA generators, generators from 1 to 5 kW with an external rotor, ie, E, are used. The generator body rotates. The generator housing is made in such a way as to protect all components and mechanisms from the harmful effects of the external environment. Thus, dust, moisture, salt and chemical compounds do not affect the device in any way, which ensures a high level of device reliability. On external diameter, NdFeB magnets are mechanically fixed on the rotor of the generator, the field strength of which is selected individually, depending on the model and the speed of rotation of the generator, at which the inertia of the flywheel's motion develops.
As a system of rotation of the regenerative rotor, a module of 8-ohm accelerating electromagnetic coils is used. The opening time is fixed and equal to 1.8 degrees, while the value does not depend on the speed of the rotor. "CEMF" (counting electromagnetic force) is the force used to regenerate the pulse amplitude of 350 V. The efficiency of regeneration is achieved in this case of the order of 300%. A synchronous generator, in which the N-pole of the magnet faces outwards, provides a continuous rotation controlled by the running action of a set of accelerating electromagnetic coils having a certain geometric shape. The peaks of the negative voltage of high voltage on the collecting coils transmit energy to the batteries in order to ensure their constant rotation. At the same time, the coils act like a wind wheel. The three-phase current generated by the generator is sent to the controller, where the converted energy is output as high-current intermittent pulses to charge the inverter's batteries.
The propulsion design: 12 sections of twin coils, in the section one pusher. Another collective (generator by Adams). Inside is a 20-pole vertical synchronous generator with three-phase output 380V, maximum power at 250 rpm 1 kW. On the flywheel housing of the generator, six bars with magnets are fixed which form 6 rotor pulses of the propulsor.
The pulse interval in VEGE = 1.8 degrees, Only 21.6 degrees, on all coils (12), i.e. 10.8 degrees "one-time"(6 poles and 6 coils).A horizon of 360 degrees, between impulses of 60 degreesthose. Pulse duty ratio 3 (100).The system spins the generator with an integrated flywheel. This allowed us to untwist the system and take out the output power for the battery chargeUp to 150 watts per second, without external power sources.
The experience of Ukrainian seekers to create their own design on the idea of VEGA.
"It all started with the acquisition of the Vega generator from Verano Verkhovna-O. In Odessa. But since it is forbidden to install windmills in the city, the idea was to develop a generator without the use of masts and blades. We decided to use coils and magnets. The generator of Odessa citizens managed to untwist.
Now the generator produces 500 volts of variation between the phases. But it is limited in power - only one kilowatt. Buying from Odessa more powerful generators did not - it's very expensive. We are working to increase the power of the existing generator, there are some ideas.
Then an idea appeared on the same principle to create a universal rotator for the rotation of both generators and motors (especially asynchronous ones, which can easily be converted into a generator). We assembled the installation that you saw in the photo and video. 240 coils, 120 internal, 120 external and five disks of 30 magnets.
The control circuit of the coils is the same as for the Odessa generator.We already have a result - 1680 revolutions per shaft, 24 volts power, working current 20 amperes, a torque force of about 100 kg on the shaft.If you rotate only internal coils - on each of them the external voltage changes 7 volts. If the external - on each internal, up to 2.5 volts, varies.Due to the large inertia (especially with the flywheel) it is easy to switch to the self-winding plant, even from external ones, though from internal coils. Connected through a belt generator of 4.2 kW, weighed 3.4 kW - pulls easily. Now we create a connection through the coupling directly to the shaft. Let's do it - I'll show it.At a load of 3.4 kW per generator consumes about 500 watts.
Now we are processing the flywheel. It must be at least 3R of the radius of the disks. I added something else. For those who repeat, an important factor: the diameter of neodymium magnets is approximately equal to the diameter of the outer coils, the distance between the disk with magnets and coils is as small as possible.This inscription is incorrect. Coils should be made from existing magnets with a speed of up to 12 volts, external - 24 volts. The diameter of the outer coils should be approximately equal to the diameter of the magnet.
And tried on the small magnets - the result is bad.Yes, click here the prince. But thrusts are used for self-drinking and jerking for rotation.One photo contains two photocells TCST1103.On a circular disk with magnets opposite each magnet, there is a petal along the circumference of up to 3 cm in length. The photocells are arranged in such a way that the petal overlaps the photocell when a magnet of 1-2 mm passes through the center of the coil. The control panel of the photocell is activated. This is on the chip 555. The signal from the chip goes to the transistor switches that feed the coils. One transistor switch controls three coils on one side and three coils located opposite, on the other side. The coils are 120 degrees. Be sure to change the polarity at the beginning and end on the opposite coils, otherwise it will not repulse, but will stick.
From 1 to 12 there are coils, on both sides of the disk. At points 2, 4, 6, 8, 10, 12 there are magnets and along the edges of the petals that overlap the photocells.The coils are frameless, tightened with threads and wrapped in scotch tape. We have import diodes but Schottky will do.All magnets work on repulsion from coilsWe have a diameter of a disk with magnets 400 mm. But, in the process of testing, they noticed that 500 mm would be better. We observe the influence of the coil on the coil, which is next to each other because of the proximity of the distance. As the diameter of the disk with magnets increases, the distance between the coils will immediately increase.We started with 4 completed with 2 photocells. I am preparing the final schemes and sizes of all the elements, I will definitely set them up.The dimensions will depend on the power of your rotator. "
For those who have a desire to get a generator of free energy for themselves, in the form of a permanent operating autonomous device of a charger without fuel, I advise you to pay attention to MG VEGA.Constructively (in the control system) some restrictions are introduced. The main thing is the limitation of the accelerating part (from 360 degrees of horizon in acceleration, participation takes only 33.6 degrees -2.7 degrees of coil response time). The purpose of tuning the generated frequency, at a working frequency of the converter 400 V, variable memory-24 V constant. The operating frequency of the generator (24 poles) is 280 rpm to get 50 Hz. In this case, the charger is set to the required charging current for the battery. For example, 7A * 27V = 189W, so how much you get the charge energy per day, consider yourself. Since the charging limit works, we have a weak load on the generator.But 280 revolutions (Grief-takers and this bar did not reach) is not enough for the full-scale operation of the circuit-breaker circuit of the Adams generator.It is necessary to accelerate, at least, up to 800 rpm. Next we think for ourselves
Further my ideas as arranged scheme of the Motor-Generator VEGA
A) Part of the engine with recuperation B) Part of the Power Generator with memory
НBelow, the complete scheme of the project is presented: Autonomous without the fuel system of the Charging Device for personal use, with an Axial-type generator for 20 poles, magnetic fields, three-phase, 60V between phases. The flywheel is integrated into the rotor of the generator, and the main mass is - 3R of the magnetic coupling radius of the generator coils. There is also a variant of using stator coils from car generators, which saves space.
But why a battery is needed, if there is a generator with a power of 1 kW, it's better than 5. Why buy without a fuel generator, if you still need a battery-an accumulation system.
The product is manufactured and calculated for a pre-set mode, self-contained without a fuel charger with a fixed output power. The authors of the device simply did this on the basis of their own vertical 20-pole generator for the wind turbine. Its task - to maintain the battery charge at the calculated level during the day, and not to turn on / off on demand. In this case, all misunderstandings, losers believe that there is VEGA, - the battery is not required. Here, with the capacity of VEGA - battery ballast, significantly reduced..
Next, compare the indicators:Generator VEGA with a generator of 1 kW and solar panels per 1 kWInformation on the efficiency of solar panels from the resource of the project "Alteko" KievССЫЛКА
And so we have a result on solar panels:
СоSolar panels produce solar energy only during the daytime.And give out their passport power, only if there is a clear sky and the sun's rays fall at a right angle.With the fall of the sun at corners, power and power generation drop noticeably, and at nightfall. The panels will of course work in the summer from dawn to dusk, but in the morning and in the evening the output will be quite small, in the amount of only 20-30% of the total daily output, and 70% of the energy will be generated in the interval from 9 to 16 hours. 1 kW (1000 watts) for a summer sunny day will give for the period from 9 to 16 hours 7 kWh of electricity, and 210 kWh per month. Plus another 3 kW (30%) for the morning and evening, but let it be a reserve so as it is possible to partly cloud. And the panels we have installed permanently, and the angle of incidence of the sun's rays varies, from this naturally the panels will not give out their power by 100%. I think it's clear that if the array of panels is 2kW, then the output will be 420kWh per month.And if there is one socket per 100 watts, then per day it will give only 700 watts of energy, and a month 21 kW. It's nice to have 210kWh per month with an array of only 1kW, but it's not that simple. Firstly, there's no such thing that all 30 days in a month are sunny, so you need to look at the weather archive for the region and find out how many roughly cloudy days are by months. As a result, probably 5-6 days will definitely be overcast, when the solar panels and half of the electricity will not produce. So you can safely cross out 4 days, and it will no longer be 210 kWh, but 186 kWhч
We have a working, almost ideal, output figure for the amount of electricity produced for 31 days, or 186 kWh per month. We decompose this indicator into average values.
An average of 6 kWh per day,
An average of 0.25 (kWh) per hour,
On average 0.00416 (kWh) per minute,
On average 0.0000694 (kWh) per second, equal to 249.84 watts * s
Which corresponds to the average output power of the panels 0.25 kW from 1 kWкВт
Вложим сравнительные данные с показателями БТГ ВЕГА
As a result, we have 111.6 kWh of guaranteed energy per month without corrections for wind, sun, day, night, rain, etc.
"Medium", and, in fact, the constant output power of the motor generator VEGA is very much even possible to raise to 0.5 - 0.7 kW, but this is another story.
ALL GOOD, PEACE AND ENERGY FREEDOM
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