本发明提供了一种改变外加热器和内部陀螺转子之间热阻的装置,陀螺转子在加温时,局部地或全部地置于真空。当内部的传热片大部分出现朝转子方向膨胀（延伸）,实际上接触到转子时,加热才通过热传导方式从外加热器传给内部陀螺转子,而不需要与支承陀螺转子的壳体内部进行电的联接。 因此,本发明的目的之一,是为改善扰性支承陀螺自由转子的加热特性提供一种装置,如同美国专利号484648应用中提出的要求和说明,与本发明指出的是一样的。 本发明的另一目的,是为快速加热陀螺转子提供一种装置,该转子局部地或全部地置于真空中。 本发明还有一个目的,是提供一种采用热传导的传热片加热陀螺转子的装置,它是通过较高的传导速度加热,而不是采用上述陀螺的扰性接头的横截面传导和热辐射的方法。 The present invention provides a device for changing the thermal resistance between an external heater and an internal gyro rotor, which gyro rotor is partially or fully placed under vacuum when heated. When the inner heat transfer fins mostly appear to expand (extend) in the rotor direction and in fact contact the rotor, the heat is transferred from the outer heater to the inner gyro rotor by heat conduction without the need of contacting the inner portion of the housing supporting the gyro rotor Electrical connection. Accordingly, one of the objects of the present invention is to provide an apparatus for improving the heating characteristics of a free-wheeling rotor supporting a gyroscope, as set forth in the U.S. Patent No. 4,846,448, which is the same as the present invention. Another object of the present invention is to provide a device for rapidly heating a gyroscopic rotor which is placed partially or wholly in a vacuum. It is still another object of the present invention to provide an apparatus for heating a gyro-rotor using a heat-conducting heat transfer plate which is heated by a higher conduction velocity than the cross-sectional conduction and heat radiation of a disturbance joint of the gyro method.