¼ÒÃÄË¡¿Í¡¡ÊªÍýõºº³Ø²ñ
Âè125²ó(Ê¿À®23ǯÅÙ½©µ¨)³Ø½Ñ¹Ö±é²ñ


ÂçëÀкμè¾ìÀ×ÃϴѬ¥·¥¹¥Æ¥à¤Çª¤¨¤¿Æðۿ¶Æ°¤ÎÅÁÇÅÆÃÀ­

¹Ö±éÍ×»Ý(ÏÂʸ)
ÂçëÃÏ°è¤Ç¤Ï¡¢1989ǯ¤«¤é2011ǯ¤Þ¤Ç20ǯ°Ê¾å¡¢Ãϲ¼¶õƶÆâ¤Çµ¯¤³¤ë´äÈ×ÊøÍî¤Ê¤É¤Î¿¶Æ°¤ò´Ñ¬¤·¤Æ¤¤¤ë¡£¤³¤ÎÃϲ¼¶õƶ¤Ï¡¢Çѹ£¡Ê200¥ö½ê°Ê¾å¡Ë¤ä²ÔÆ°Ãæ¤ÎºÎ¼è¾ì¡Ê10¥ö½ê°Ê²¼¡Ë¤Ç¤¢¤ê¡¢ÅìÀ¾Ìó3£ë£í¡ßÆîËÌÌó5.5£ë£í¤Î¹­ÈϰϤËʬÉÛ¤·¤Æ¤¤¤ë¡£´Ñ¬Ì֡ʴѬÃÏÅÀ126¥ö½ê¡Ë¤Ï¡¢Ãϲ¼¶õƶ¤Î¤Û¤ÜÁ´Îΰè¤ò¥«¥Ð¡¼¤·¤Æ¤¤¤ë¡£2011ǯ4·î23Æü¤Ë¤Ï¡¢Ä̾ï¤ÎÍîÈ×ÊøÍî¤È°Û¤Ê¤ë¿¶Æ°ÇÈ·Á¤¬´Ñ¬¤µ¤ì¤¿¡£¤³¤Î¿¶Æ°¤ÎÆÃħ¤Ï¡¢­¡¿¶Æ°È¯À¸¸»¤ËºÇ¤â¶á¤¤´Ñ¬ÃÏÅÀ¤Î®ÅÙ¿¶Éý¤¬227.1mkine(P¡ÝP)¤Ç¤¢¤ê¡¢´Ñ¬³«»Ï°Ê¹ß¡¢ºÇÂ絬ÌϤǤ¢¤ë­¢´Ñ¬ÌÖ¤ÎÁ´ÂΤǸ¡½Ð¤·¤¿­£µ­Ï¿ÇÈ·Á¤¬£ÐÇȤȣÓÇȤ¬ÌÀÎƤǤ¢¤ê¡¢ÃϿ̵­Ï¿¤ÎÇÈ·Á¤ËÎà»÷¤·¤Æ¤¤¤ë­¤ºÇÂç®ÅÙ¿¶Éý¤ËÃåÌܤ·¤¿µ÷Î¥¸º¿êÆÃÀ­¤òÄ´¤Ù¤ë¤È¡¢ÅÁÇŵ÷Î¥¤Î¡Ý1.6¾è¤ËÈæÎ㤹¤ë¡¢¤Ê¤É¤Ç¤¢¤ë¡£¤³¤ì¤é¤ÎÆÃħ¤Ç£ÓÇȤ¬À¸À®¤µ¤ì¤Æ¤¤¤ë¤³¤È¤«¤é¡¢¤³¤Î¿¶Æ°¤ÎȯÀ¸¤Ï´äÈפΤ»¤óÃÇÇ˲õ¸½¾Ý¤Ç¤¢¤ë²ÄǽÀ­¤¬¹Í¤¨¤é¤ì¤ë¡£

¹Ö±éÍ×»Ý(±Ñʸ)
In the Ooya-area, we have observed falling rock vibrations in underground cavities during 22 years, since 1989. The cavities are consist of more than 200 abandoned pits and less than 10 operating pits, distributed about 3 km in the east and west and 5.5 km in the north and south. The underground cavity area is covered with a seismological observation network consist of 126 sites.April 23, 2011, we observed an abnormal vibration different from a waveform due to fall rock. Features of this vibration is as follows: The first, this vibration has the most maximum velocity amplitude values at the site closest to the source of vibration, 227.1 mkine (as P-P values), since the start of observation. The second, this vibration was observed throughout the observation network. This is unprecedented. The third, this vibration's waveform is similar to a seismic wave, with a clear P and S-waves.The fourth, we obtained maximum velocity amplitude attenuation characteristics proportional to -1.6 powers epicentral distance, etc.We consider the possibility that this vibration was arisen by shear failure of rock, because of the S-wave generation.