Rotary transformer for rotary ultrasonic testing apparatus and rotary ultrasonic testing apparatus using the same

The invention claimed is: 1. A rotary transformer for a rotary ultrasonic testing apparatus, comprising a plate-shaped stator having first coils arranged on one surface thereof, and a plate-shaped rotator having second coils arranged on one surface thereof, the respective coil-arranged surfaces of the stator and the rotator being disposed to face with each other so that signal transmission in a frequency range of 1 to 10 MHz is performed between the first coils and the second coils facing with each other, wherein the stator comprises a first substrate on which a plurality of one-turn coils as the first coils are formed into a concentric shape, and a first supporting member for supporting the first substrate; and the rotator comprises a second substrate on which one-turn coils as the second coils of same number as that of the one-turn coils formed in the stator are formed into a concentric shape, and a second supporting member for supporting the second substrate, and air or a material which is an insulator and has a relative magnetic permeability substantially equal to 1 is lying between the first substrate and the first supporting member included in the stator, and between the second substrate and the second supporting member included in the rotator. 2. The rotary transformer for a rotary ultrasonic testing apparatus according to claim 1 , wherein the plurality of one-turn coils formed in the first substrate included in the stator and the plurality of one-turn coils formed in the second substrate included in the rotator are formed into a concentric shape with a spacing substantially equal to the coil width therebetween. 3. The rotary transformer for a rotary ultrasonic testing apparatus according to claim 1 , wherein a separation distance between the first substrate and the first supporting member included in the stator and a separation distance between the second substrate and the second supporting member included in the rotator are 5 to 10 times as large as a gap between the one-turn coils formed in the stator and the one-turn coils formed in the rotator. 4. A rotary ultrasonic testing apparatus, comprising: the rotary transformer for a rotary ultrasonic testing apparatus according to claim 1 ; a plurality of ultrasonic probes which are electrically connected with the plurality of one-turn coils formed in the rotator, and which rotate integrally with the rotator; and an ultrasonic flaw detector which is electrically connected with the plurality of one-turn coils formed in the stator.