Kuidas saab elektrit tasuta ? https://elektritsaabtasuta.blogspot.com/2016/11/kuidas-saab-elektrit-tasuta.html Isegi lapsed meisterdavad endile elektrituulikuid ja päikesepaneele sest peale tasuvusaega annavad nood elektrit ja kütet tasuta jpms: http://elektritsaabtasuta.blogspot.ie/2012/06/polve-peal-meisterdatud-elektrituulikud.html
Thursday, November 26, 2015
Thursday, November 19, 2015
Tuesday, November 17, 2015
Wednesday, November 11, 2015
Saturday, November 7, 2015
Lembit Merila elektritraktoril on prototüübid Venemaal ja mujal maailmas,kodus ise meisterdatud elektritraktorid päästavad Eesti küla diktatuurist mis on hävitamas Eesti rahvust.
1:
Электротрактор
2:
elektro traktor 380 volt
http://elektritsaabtasuta.blogspot.ie/2015/06/lembit-merila-ehitas-elektritarktori.html
Lembit Merila ehitas elektritarktori kahe kuuga...
Lembit Merila Elektritraktor
see on imeline faktor
Kütet ta ei vaja
mootori mürina asemel saadab laste hõisete kaja
Hooldiskulusid ta ei tunne
aga küladesse toob 6nne
Pagendatud eestlased toob kodumaale
kus Teeme Ära rajab kodusid metsa servale vaiksesse laande
viib võõrpangad Eestist välja
kustutab meie laste nälja
http://elektritsaabtasuta.blogspot.ie/2014/10/lembit-merila-ehitas-elektritarktori.html
http://elektritsaabtasuta.blogspot.ie/2010/01/elektritraktori-tegi-ta-valmis-kahe.html
Omatehtud elektrilised võidusõidumasinad.
Datsun 1200 White Zombie DC Electric Car - YouTube
http://www.youtube.com/watch?v=1zhKMzMZ_eM
Black Current III - YouTube
http://www.youtube.com/watch?v=4zNJTgagUEo
Horvaat ehitas hävinud mootoriga BMWst võimsa võidusõidumasina | Reporter
http://www.reporter.ee/2011/02/05/horvaat-ehitas-havinud-mootoriga-bmwst-voimsa-voidusoidumasina/
http://forte.delfi.ee/news/militaaria/selline-nagi-valja-maailma-esimene-trollibuss-uks-siemensi-imedest-aastal-1882?id=71339743
Karjääriekskavaatorid töötavad ka elektriga, kaabliga v6i õhuliiniga.
Venelastel oli lahedaid elektrimasinaid.
Mõned nagu kohe sellised mille peale ei tulekski, et seda vooluga tööle panna.
Päris jaburad monsterid :
http://forum.tempt.ee/topic.php?topic=589
Электротрактор ВИЭСХ 1950
Электротрактор ХТЗ-2511 | 5 ЧАСОВ РАБОТЫ В ТРАНС. РЕЖИМЕ!!!!
Thursday, November 5, 2015
Электротрактор ХТЗ-2511 | 5 ЧАСОВ РАБОТЫ В ТРАНС. РЕЖИМЕ!!!!
https://www.youtube.com/watch?v=vzo6BMZhemg
Электротрактор ХТЗ-2511 | 5 ЧАСОВ РАБОТЫ В ТРАНС ...
https://www.youtube.com/watch?v=vzo6BMZhemg
Jul 4, 2014 - Uploaded by Aleksandr Troitskiy
Электротрактор ХТЗ-2511 | 5 ЧАСОВ РАБОТЫ В ТРАНС. РЕЖИМЕ! ... «
AgroWładek Tv
1 year ago
Он является электродвигателем?
Aleksandr Troitskiy
1 year ago
Да.
ого техника! почти на 400кг.тяжелее т-25,посмотреть бы его в работе
Спасибо за такой фильм Красивая трактора !.
Siemens and Bungartz electric powered machinery
http://www.bungartz.nl/elektra.html
Note: only self-propulsed machinery, no cable drawn ploughs etc. are covered on this page!
For other makes see my other page
1912 Siemens 50 hp electric rotary cultivator. This tractor was also made with internal combustion engine, see my Siemens 4 wheel tractors page.
A very early 25 hp electric powered model was shown to the public at the 1914 DLG-show in Hannover.
Early Siemens 4 hp (2 kW) electric rotary cultivator, 1000 of these were manufactured. The cable pole could easily be replaced to other plots. The pole was 6 m high, the cable had a lenght of 25 m, enabling tillage of a 1200 m2 field from each pole position. A trailer behind the tiller was available to transport the pole and the power cables from one field to another.
Where the machinery was not too far from the power supply, it could be directly connected to the electricity wires, which had 120, 210, 380 or 500 Volts AC, or 110, 220, 440 or 500 Volts DC. Siemens-Schuckert supplied special hooks, closing automatically to ensure a good contact.
If the distance between the power supply and the field was so large that too much power was lost by the cable's resistance, high voltage was used, 5000 Volts AC or more. This solution required a transormator to bring down the voltage to i.e. the 1000 Volts AC which the 60 kW cable plough puller needed.
The distance between transformator and puller was limited by the cable length of 300 m. When furrows of 500 m were ploughed, this meant that 30 ha could be ploughed from one connection point. The electric pullers usually had a petrol engine on board, to provide propulsion from one field to another, where no power connections were available between them.
Siemens electric rotary cultivator, model made from ca. 1928. Obviously they had taken over the Grunder cable system by then.
Bungartz U1E with AEG electric motor. In WWII fuel was very scarce in Germany, so Bungartz proceeded where Siemens had stopped experimenting with electric power for tractors. Although this tractor was built after 1945, after the war had ended, petrol engines were used again. The Bungartz U1E was shown on a German DLG-show, I have never seen any electrical powered garden tractors at all. The cable was mechanically wound up on the tractor.
Here the Bungartz U1E is shown in operation. It had two speeds, of 1.3 and 5 km/h. The motor power was 5 kW or 6,8 DIN hp.
This Bungartz diagram shows that with only 4 power plug connections and a 100 m long cable on the tractor, a 20 hectare plot could be tilled. If another 100 m extension cable was used, only 2 connections were needed for the same 20 hectare. I wonder how many round plots exist in Germany?
Note: only self-propulsed machinery, no cable drawn ploughs etc. are covered on this page!
For other makes see my other page
1912 Siemens 50 hp electric rotary cultivator. This tractor was also made with internal combustion engine, see my Siemens 4 wheel tractors page.
A very early 25 hp electric powered model was shown to the public at the 1914 DLG-show in Hannover.
Early Siemens 4 hp (2 kW) electric rotary cultivator, 1000 of these were manufactured. The cable pole could easily be replaced to other plots. The pole was 6 m high, the cable had a lenght of 25 m, enabling tillage of a 1200 m2 field from each pole position. A trailer behind the tiller was available to transport the pole and the power cables from one field to another.
Where the machinery was not too far from the power supply, it could be directly connected to the electricity wires, which had 120, 210, 380 or 500 Volts AC, or 110, 220, 440 or 500 Volts DC. Siemens-Schuckert supplied special hooks, closing automatically to ensure a good contact.
If the distance between the power supply and the field was so large that too much power was lost by the cable's resistance, high voltage was used, 5000 Volts AC or more. This solution required a transormator to bring down the voltage to i.e. the 1000 Volts AC which the 60 kW cable plough puller needed.
The distance between transformator and puller was limited by the cable length of 300 m. When furrows of 500 m were ploughed, this meant that 30 ha could be ploughed from one connection point. The electric pullers usually had a petrol engine on board, to provide propulsion from one field to another, where no power connections were available between them.
Siemens electric rotary cultivator, model made from ca. 1928. Obviously they had taken over the Grunder cable system by then.
Bungartz U1E with AEG electric motor. In WWII fuel was very scarce in Germany, so Bungartz proceeded where Siemens had stopped experimenting with electric power for tractors. Although this tractor was built after 1945, after the war had ended, petrol engines were used again. The Bungartz U1E was shown on a German DLG-show, I have never seen any electrical powered garden tractors at all. The cable was mechanically wound up on the tractor.
Here the Bungartz U1E is shown in operation. It had two speeds, of 1.3 and 5 km/h. The motor power was 5 kW or 6,8 DIN hp.
This Bungartz diagram shows that with only 4 power plug connections and a 100 m long cable on the tractor, a 20 hectare plot could be tilled. If another 100 m extension cable was used, only 2 connections were needed for the same 20 hectare. I wonder how many round plots exist in Germany?
Wednesday, November 4, 2015
Electric powered machinery -- other makes
http://www.bungartz.nl/hist-elektra.html
Note: only self-propulsed machinery, no cable drawn ploughs etc. are covered on this page!
For Siemens and Bungartz machinery see my other page.  Electric powered tiller made by Grunder in Switzerland around 1941. It was powered by a fully enclosed Brown, Boveri motor. Grunder designed this electric powered machine because of lack of oil in Europe during the 1940's.  The Grunder could be used with the same attachments as the normal tractors, here it is shown working with a plough. Also visible is how the power was led to the tractor.  This is how Grunder imagined the power suppliy to the tractor. Each of the 6 (or more) plots of 1000 m2 could be cultivated. To move to another plot, 1 or 2 pylons had to be replaced. Grunder stated that the cost of electric power was only 1/5 of that of convential fuel, so that the cost of the complete electric installation would be earned back very soon.  Balance plough constructed by F. Zimmermann. The electric motor pulls the plough towards each side of the field by means of a chain.  Electric powered Töpfer balance plough, built towards the end of WWII by Bungartz representative Töpfer in Teltow, Germany. Power 4½-5 hp at 1400 or 3000 rpm, power supply 380 V. The motor was an AEG, model A4/-2. The machine could work in 2 directions, by reversing the motor, and had 2 speeds by the 2 different speeds of the motor. 100 m of wire could be wound up on the machine.  The Töpfer balance plough was further developed after the end of WWII, by Horstmann in Berlin. This is the model E500. Instead of the two speed motor, they chose for a normal gearbox. Only the reverse was still performed by reversing the motor.  This Russian tractor is shown in a 1949 Soviet brochure. The electric motor has 39 kW output, the cable has a length of 650 m and connects the tractor to the nearest power pylon.  Agria cultivator of 1951, based on the model 1300.  Electric caterpillar tractor of unknown make. It makes me think of an English Ransomes tractor?  Swedish engineer Forssblad modified a normal tractor to electricity. He mounted a 4 m high pole, ca 60 hectare could be ploughed without moving the transformer.  Allis-Chalmers used the base of a normal D-12 tractor to construct an electric driven tractor. Not powered through a wire, but by fuel cells. These cell's electrolite produces elctricity if oxygen and nitrogen is supplied. The 112 batteries containing 1008 fuel cells used in the tractors, produced a 60 V current. This was lead to the 20 hp electric motor. By engaging more or less cells, the speed could be controlled. The test tractor still exists in the collection of the Smithsonian Institution in Washington, D.C., USA, and was on show at the Upper Midwest Allis-Chalmers Club.  Here are some details of the Allis-Chalmers electric driven tractor: 1. Radio 2. Speed controller 3. Fuel cells 4. Connection clamps 5. Cupper strips 6. Head lights 7. Gas tubes 8. Gas tank 9. Gas supply 10. Gas exhaust 11. Electric motor 12. Gas tank  If all tractors and cars are electro-powered, what happens at the other side of the power plug? (Source: Nieuwe Noordhollandse Courant, 20 July 1991).   I found these pictures on the Internet a while ago, it is supposed to be a RWE tractor from 1953.  Some Russian electric powered tractors are shown on Youtube (thanks to Kurt Hansson for the tip!): Russia 1950 Russia homemade Russia homemade Russia homemade |
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