Thus magnets produce movement, driven magnetic rotor rotation.
于是磁体产生运动,带动磁转子旋转。
Overload, inside and outside magnetic rotor relative detachment, motors, pumps with a protective role.
过载时,内、外磁转子相对滑脱,对电机、泵有保护作用。
The invention discloses a magnetic pump with a cooling device, which consists of pump shafts, an external magnetic rotor assembly and a nitrogen port.
带冷却装置的磁力泵,是由泵轴、外磁转子组件、氮气接口所组成。
With the power being DC, the current of inner winding of the magneto is AC, and the rotating part is just similar to the magnetic rotor of synchronous dynamo.
无刷直流永磁电机的电源虽是直流电,但其内部绕组中的电流仍是交流电,其旋转部分犹如同步电机的磁极转子,其结构及电磁原理与同步电机相似。
Eddy-current separators, in use since the early 1990s, consist of a rapidly revolving magnetic rotor inside a long, cylindrical drum that rotates at a slower speed.
涡电流隔离器自从20世纪90年代早期就开始得到使用,它是由长瓶状转鼓内的一个快速旋转磁力转子组成的,转鼓的旋转速度会较慢。
The flow of coolant pumps are usually designed for the flow of 2% to 3%, within the magnetic rotor and isolation sets gap between the Central region as a high-calorie and swirl.
冷却液的流量通常为泵设计流量的2%-3%,内磁转子与隔离套之间的环隙区域由于涡流而产生高热量。
This creates a secondary magnetic field around the cans that is repelled by the magnetic field of the rotor, literally ejecting the aluminium cans from the other waste materials.
这样,被转子磁场隔开的铝罐周围就会产生一个二级磁场,实际上也就能将铝罐与其它废料隔离开来。
This is due to the increase of magnetic strength, make motor stator and rotor clearances between doubled, has greatly improved the cooling effect.
这是由于磁力强度的增大,使电机定子与转子之间的间隙增大了一倍,大大改善了冷却效果。
The flow of coolant pump design flow is usually 2% -3%, within a set of magnetic separation between the rotor and the annulus region due to eddy current arising from high-calorie.
冷却液的流量通常为泵设计流量的2% - 3%,内磁转子与隔离套之间的环隙区域由于涡流而产生高热量。
In this case there is always a magnetic coupling between the rotor and the stator.
在这种情况下,始终存在一个磁耦合转子和定子。
The rotor and the stator are made of high quality magnetic material. There is a gap between rotor and magnetic pole, so no wear occurs during operation.
转子和定子采用优质磁性材料制成,转子和磁极之间留有一定的空气间隙,工作时无任何磨损。
All levitation forces of the running train were obtained according to the distributions of overall magnetic conductance function and current charge curve for stator and rotor.
通过研究列车所在位置处的定子与转子总的磁导率函数分布和励磁曲线分布,得出列车运行过程中所有悬浮力的大小。
The system proved its validity of subprograms which include voltage calculation module, rotor magnetic chain observation module and SVPWM output module.
并且进行编译调试,验证了电压计算、转子磁链观测以及SVPWM输出等子程序的正确性。
Until by now, there is neither a set of mature noise and vibration measurement method, nor carrying on any related experiment to verify it when magnetic suspended rotor is running.
到目前,国内尚无一套成熟、完整的噪声检测及振动监测的方法,也没有在磁悬浮转子运转的情况下进行相关的实验验证。
The magnetic coupling function and equivalent relationship between reluctance rotor and cage rotor have been analyzed.
分析了电机转子的磁耦合作用以及磁阻和笼型转子的等效关系;
In order to realize rotor position control in the magnetic bearing system, a closed loop position feedback control system is needed to be established.
为了实现磁力轴承系统中转子的位置控制,需要建立一个闭环的位置反馈控制系统。
The magnetic bearing is a novel type, high performance bearing, which suspend the rotor by magnetic force without any mechanical contact between rotor and stator.
磁悬浮轴承是一种利用磁场力将转子悬浮于空中,使转子与定子之间实现无机械接触的一种新型高性能轴承。
Permanent magnet bearings is one kind of magnetic bearings by using permanent magnet to levitate rotor.
永磁轴承是利用永磁材料产生的磁场力将转轴悬浮起来工作的一类磁力轴承。
The unbalance of rotor deteriorates the rotors rotating precision when active magnetic bearings are used in high speed condition.
有源磁力轴承在高转速场合应用时,由于转子的不平衡响应,降低了转子的旋转精度。
Magnetic Bearing (MB) is a kind of new typical mechatronics product which utilizes the electromagnetic attractive force exerting on a magnetic conductor to suspend a rotor without any contact.
磁悬浮轴承(MB)是一种新型的机电式轴承,是利用电磁场对导磁体的作用力而实现对转子的无接触支承。
The rotor of the PMSM is fixed to the pump impeller of the artificial heart, and is levitated by a magnetic bearing.
电机转子安装在人工心脏泵的叶轮上,并因电磁轴承的作用而悬浮。
Thus a method to identify rotor unbalance by magnetic dynamic absorber is presented.
从而给出了用电磁动力吸振器进行不平衡识别的方法。
Magnetic bearing has no mechanical contact between the rotor and stator, and a rotary pump with magnetic bearing has therefore no mechanical wear and thrombosis.
旋转血泵磁浮轴承的定子和转子之间没有机械接触,所以其内部不会发生机械磨损或产生血栓。
Calculating results with and without the consideration of insulation is compared and the effect of insulation to the air gap magnetic field and rotor temperature field is analyzed.
在场的计算中,讨论了定子股线绝缘和转子匝间绝缘对电磁场及温度场的影响。
After calculating no load gap magnetic fields according to different rotor positions, static torque characteristics and highest working speed are worked out.
计算了对应不同转子位置的空载气隙磁场分布,求出了静转矩特性和平衡头最高工作转速。
The magnetic suspension of the rotor is realized by the use of the proposed passive magnetic bearings that does not need any active control.
采用该文提出的被动式磁力轴承,电机转子可实现磁悬浮而不需要进行悬浮力控制。
A method of automatically detecting rotor position of self-sensing magnetic bearing is studied, in this method, no special displacement sensors are used.
主要研究一种无传感器磁轴承转子位置自检测的方法,该方法不需要专用的位移传感器。
The accuracy of magnetic bearings was reflected by the tested rotor displacement and tracks. Strike test show the system possesses broad bound uniform stability.
转子位移数据及轨迹的记录反映了磁轴承的精度,冲击试验说明系统基本上具备了大范围一致稳定性。
Then the paper presents a heater model with new rotor structure, and its static magnetic field analysis is given.
提出了一种新结构转子的无焰加热器模型,并对其进行了静磁场分析。
Then the paper presents a heater model with new rotor structure, and its static magnetic field analysis is given.
提出了一种新结构转子的无焰加热器模型,并对其进行了静磁场分析。
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