Human interactive type robot system

What is claimed is: 1. A human-interactive type robot system wherein a robot and a worker share a work space to perform interactive work, comprising a force sensor which measures a force which said robot receives from the outside and outputs a measurement value, a force detection value calculating part which subtracts a correction value from said measurement value to calculate a force detection value, and a correction value updating part which updates a force detection value when a predetermined condition stands for use as said correction value, wherein, said predetermined condition being that said robot is stopped or operating at a fixed speed and a margin of fluctuation of the force detection value at a predetermined unit time is a fluctuation margin threshold value or less. 2. The human-interactive type robot system according to claim 1 , further comprising a force detection value storage part which stores a force detection value when said predetermined condition stands, and, when said correction value is not updated for a predetermined time, said correction value updating part updates said force detection value which is stored in said force detection value storage part for use as said correction value. 3. The human-interactive type robot system according to claim 1 , which further forcibly makes said robot stop or operate at a fixed speed to make said correction value updating part update said correction value when said correction value is not updated for a predetermined time. 4. The human-interactive type robot system according to claim 1 , further comprising: a human detecting part which detects if said worker is present near said robot and an update permitting part which permits updating of said correction value by said correction value updating part when said human detecting part detects there is no worker near said robot. 5. The human-interactive type robot system according to claim 1 , further comprising a malfunction judging part which monitors if an amount of strain which a strain detection part which is included in said force sensor detects falls within a predetermined suitable range and judges that said force sensor is malfunctioning when it does not fall in said suitable range. 6. The human-interactive type robot system according to claim 1 , further comprising a robot stopping part which makes said robot decelerate or stop when a force detection value after being updated by said correction value updating part exceeds a stopping threshold value. 7. A human-interactive type robot system wherein a robot and a worker share a work space to perform interactive work, comprising a force sensor which measures a force which said robot receives from the outside and outputs a measurement value, a force detection value calculating part which subtracts a correction value from said measurement value to calculate a force detection value, and a correction value updating part which updates a force detection value when a predetermined condition stands for use as said correction value, wherein, said predetermined condition being that said robot is stopped or operating at a fixed speed and said current force detection value is a force detection value threshold value or less. 8. The human-interactive type robot system according to claim 7 , further comprising a force detection value storage part which stores a force detection value when said predetermined condition stands, and, when said correction value is not updated for a predetermined time, said correction value updating part updates said force detection value which is stored in said force detection value storage part for use as said correction value. 9. The human-interactive type robot system according to claim 7 , which further forcibly makes said robot stop or operate at a fixed speed to make said correction value updating part update said correction value when said correction value is not updated for a predetermined time. 10. The human-interactive type robot system according to claim 7 , further comprising: a human detecting part which detects if said worker is present near said robot and an update permitting part which permits updating of said correction value by said correction value updating part when said human detecting part detects there is no worker near said robot. 11. The human-interactive type robot system according to claim 7 , further comprising a malfunction judging part which monitors if an amount of strain which a strain detection part which is included in said force sensor detects falls within a predetermined suitable range and judges that said force sensor is malfunctioning when it does not fall in said suitable range. 12. The human-interactive type robot system according to claim 7 , further comprising a robot stopping part which makes said robot decelerate or stop when a force detection value after being updated by said correction value updating part exceeds a stopping threshold value. 13. The human-interactive type robot system according to claim 7 , further comprising a force detection value threshold changing part which changes said force detection value threshold value in accordance with an elapsed time from when said correction value updating part updates said correction value.