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[技术] The RMOG from Greg Watson(发电机)

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发表于 2007-9-12 10:35:45 | 显示全部楼层 |阅读模式

rmog1.gif
 TEST BY Jean-Louis NAUDIN (10/22/97) 测试让-路易诺丁( 1997年10月22日)
rmogv1f.jpg

注从巨浪诺丁 ( 首次测试1997年10月23日) : 这rmog已建成正如格雷格沃森 , 但不幸的是,今天我的实际版本站后, 很快一个好的自旋与我的手。
 Additional notes from Greg Watson : 另外,从债券格雷格沃森 :
 Suj : RMOG Builders Date : 24/10/1997 03:14:03   From: gwatson@microtronics.com.au (Greg Watson) Resent-from: freenrg-l@eskimo.com   HI Jean-Louis, Ken and others,   Several points you might find helpfull,   1) Use weak magnets. 苏吉: rmog建设者日期: 24/10/1997 3时14分03秒来自: gwatson@microtronics.com.au (格雷格沃森)的反感-从: f reenrg-l@eskimo.com喜让-路易,垦等,数点,你可能会找到有用的, 1 )使用弱磁体。   2) Use about 4-6mm spacing on the flux gate to magnet side and as close as possible on the flux gate to coil side. 2 ) 使用约4 - 6mm的间隔,对磁通门磁石,以方尽可能接近对磁通门线圈侧。   3) Magnet spindown with the coils open should be small. 3 ) spindown磁铁与线圈的开放应该是很少的。   4) Connect a variable power supply in series with the coils and reed relay. 4 )连接一个可变电源串联与线圈和簧继电器。 Polarity to generate a same pole face in the gap as the magnet. 极性产生同杆面差距为磁铁。 Check for how much voltage you need to get the "Motor" to run. 检查多少电压,你必须找到"汽车"运行。 Then alter spacings in the gap to get lower drive voltages. 然后改变间距中的差距获得低驱动电压。 RPM is NOT the goal, its low drive voltage. 转速并不是目标,其低驱动电压。 The lower the drive voltages, the higher the efficiency. 低驱动电压,高效率。   5) Connect the coils in parallel. 5 )连接线圈并联。 First CHECK with a scope that the voltages are in phase. 首先查看与范围,电压阶段。   6) The coils should only be energized / shorted for 7.2 deg or 5mm of flux gate travel. 6 )线圈只应激发 / 短路7.2 °或5mm的磁通门旅行。 Its very important that the coil open point be correct. 其非常重要的是开放线圈点是正确的。   7) Remember that the perspex disc will cause high thrust loads on the bearing as the flux gates move across the magnets. 7 )记得有机玻璃碟片会造成高推力负荷对轴承作为熔剂闸门进出磁铁。 This could be a point of high energy losses and must be working well. 这可能是一个点高能量的损失,必须行之有效。   8) Bypass the reed relay and with the coils powered from the supply, you should feel the flux gates being repelled away from the centre of the magnets just like the suggested 2 magnet and ferrite experiment I posted on the RMOG site. 8 )绕过簧继电器与线圈供电供应,你应该感觉到通量盖茨被击退远离中心的磁石一样,建议2永磁铁氧体实验后,我就rmog网站。   It does work.  它的工作。
 Best Regards,  Greg Watson 问候,格雷格沃森
 New tests by JL Naudin,on the RMOG V1.1 (10/24/97) 新的考验,由诺丁巨浪,对rmog v1.1的( 1997年10月24日)
rmog11an.gif


点击这里,为充分avi视频电影的rmog v1.1的(这是6v的直流供电版)
 )
rmog11det.jpg
Some details of my RMOG V1.1 一些细节,我v1.1的rmog
Technical specifications of the JLN's RMOG 1.1 : 技术规格的大闸蟹的rmog 1.1 :
The ferrite flux gate : 10mm diam, 6mm thick ( flux gate path diam : 80mm) 铁氧体磁栅: 10mm的diam ,使用6mm厚(磁通门路径diam :约80mm )
Main rotating disc : plastic, 100 mm diam, 5mm thick 主旋转盘:塑料, 100毫米diam ,采用5mm厚
Magnet : with 3 Lego's magnets stacked ( Total length 20mm, 10mm diam ) 磁铁: 3 lego的磁体堆叠(总长度为20mm , 10mm的diam )
Two coils with 1300 turns of # 38 AWG (0.1mm) copper wire (for each coil), 两个线圈有1300匝# 38阵列波导光栅( 0.1mm厚)铜线(每圈) ,
The two coils are connected in parallel, 两个线圈并联,
Ferrite core :10 mm diam, 20 mm lenght ( 6.6 ohms ) 磁芯: 10 diam毫米 , 20毫米的长度( 6.6欧姆)
The magnetic circuits are closed with two 90mm steel rod ( 10x10mm section) 磁性电路关闭两个90毫米钢棒材( 10x10mm科)
The shaft is a brass rod (6mm diam.) mounted with two needle bearing. 竖井是一个黄铜棒( 6mm的diam ) 。装两个滚针轴承。
Tested with a 6V DC Power supply in series between the ILS and the coils. 测试与6v的直流电源系列之间救生和线圈。
As Greg has said above, I have improved my RMOG V1.0 by reducing mechanical frictions, I have put in series with the ILS switch and the coils (connected in parallel) a 6 Volts DC power supply. 由于格雷格说,我已改善我国rmog v1.0的降低机械摩擦,我已提出一系列与救生交换机和线圈(并联) 6伏直流电源。 The RMOG V1.1 turns now at 150 RPM (
see the video
 ). 该rmog原来v1.1的,现在,在150 rpm的(
见录像
 ) 。
The ferrite flux gate must be very close to the coils (1mm), thus the magnets must be at least 4 mm far from the flux gate. 铁氧体磁门必须非常接近的线圈( 1mm的) ,因此磁体必须至少为400毫米,远磁通门。 The most difficult is to have a frictionless rotation in spite of the high trust load on the main axis due to the magnets attraction. 最难的是有一个旋转摩擦尽管高信托负荷主轴由于磁体的吸引力。
I suggest you to let your RMOG device working in powered mode for a "running in" at least 12h long, before the first try in self-powered mode. 我建议你,让你rmog装置工作动力模式"运行"至少12h的长之前,先尝试着在自供电模式。 During this "running in" period, I suggest you to put a 1N4007 diode accross the RMOG's coils to protect you ILS switch from the backemf spike, don't forget to remove this diode after this "running in" phase. 这段"磨合期" ,我建议你把二极管1n4007全国rmog的线圈保护你的救生交换机从backemf穗, 不要忘记删除此二极管后,这个"磨合"的阶段。 This diode destroy the DNMEC effect used in the RMOG's device . 这个二极管摧毁 dnmec效应用在rmog的装置。
Towards a free device ? 迈向自由装置? ....Today, this device need few electrical power for running.... … …今天,这种装置需要数电力运行....
 Technical informations from Greg Watson(10/25/97) 信息技术从格雷格沃森( 1997年10月25日)
rmog2.gif


rmog3.gif

rmog realvideo影片的jl诺丁的解释(点击这里)
 
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rmog-mk3-1.gif

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发表于 2015-10-31 08:03:27 | 显示全部楼层
学习了,谢谢分享、、、
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