Extravasation detecting apparatus and infusion system

The invention claimed is: 1. An extravasation detecting apparatus comprising: a fluid medicine containing unit which contains a fluid medicine and to which a catheter or an indwelling needle to be placed inside a blood vessel is connected by an infusion tube; a fluid delivery unit which supplies the fluid medicine by sequentially and repetitively pressing the infusion tube with a plurality of fingers; an upstream closing unit which is arranged at a portion of the infusion tube upstream the fluid delivery unit and which closes the infusion tube; and a blood detecting sensor which detects when blood is suctioned into the infusion tube from inside the blood vessel upon closing of an upstream portion of the infusion tube by the upstream closing unit when the fluid delivery unit is activated and negative pressure is generated in the infusion tube by a restoring force of the infusion tube, wherein when the blood detecting sensor detects that blood is being suctioned, a controller determines that a tip opening of the catheter or the indwelling needle is inside the blood vessel and an extravasation has not occurred, but when the blood detecting sensor detects that blood is not being suctioned, the controller determines that the tip opening is outside the blood vessel and an extravasation has occurred. 2. The extravasation detecting apparatus according to claim 1 , wherein the blood detecting sensor is provided in a vicinity of the catheter or the indwelling needle in order to detect the blood that is suctioned into the infusion tube. 3. The extravasation detecting apparatus according to claim 2 , wherein the blood detecting sensor comprises a light-emitting unit which irradiates light to the suctioned blood, a light-receiving unit which is arranged at a position facing the light-emitting unit across the infusion tube, and a main body unit which internally contains and holds the light-emitting unit and the light-receiving unit, wherein a light-blocking unit for blocking extraneous light is provided in the main body unit. 4. An infusion system comprising the extravasation detecting apparatus according to claim 2 . 5. The extravasation detecting apparatus according to claim 1 , wherein the blood detecting sensor is provided in a portion having a small inner diameter at a tip portion of the infusion tube. 6. The extravasation detecting apparatus according to claim 5 , wherein the blood detecting sensor comprises a light-emitting unit which irradiates light to the suctioned blood, a light-receiving unit which is arranged at a position facing the light-emitting unit across the infusion tube, and a main body unit which internally contains and holds the light-emitting unit and the light-receiving unit, wherein a light-blocking unit for blocking extraneous light is provided in the main body unit. 7. An infusion system comprising the extravasation detecting apparatus according to claim 5 . 8. The extravasation detecting apparatus according to claim 1 , wherein the blood detecting sensor comprises a light-emitting unit which irradiates light to the suctioned blood, a light-receiving unit which is arranged at a position facing the light-emitting unit across the infusion tube, and a main body unit which internally contains and holds the light-emitting unit and the light-receiving unit, wherein a light-blocking unit for blocking extraneous light is provided in the main body unit. 9. The extravasation detecting apparatus according to claim 8 , wherein the light-emitting unit performs pulsed emission at a frequency other than 50 Hz, 60 Hz, or a frequency that is a multiple thereof. 10. The extravasation detecting apparatus according to claim 9 , wherein the blood detecting sensor includes a first antenna unit and a charging unit for feeding power to the light-emitting unit of the blood detecting sensor, the extravasation detecting apparatus further comprises a communication base unit that is separate from the blood detecting sensor, the communication base unit feeds power to the charging unit of the blood detecting sensor by electromagnetic induction with the first antenna unit of the blood detecting sensor, the blood detecting sensor transmits a signal, based on a detection result of a presence or absence of the blood in the infusion tube, from the first antenna unit of the blood detecting sensor to the base unit by wireless communication, and the communication base unit comprises a second antenna unit which notifies an infusion pump, which includes the fluid delivery unit, of the received signal based on the detection result of the presence or absence of the blood in the infusion tube to. 11. An infusion system comprising the extravasation detecting apparatus according to claim 9 . 12. The extravasation detecting apparatus according to claim 8 , wherein the blood detecting sensor includes a first antenna unit and a charging unit for feeding power to the light-emitting unit of the blood detecting sensor, the extravasation detecting apparatus further comprises a communication base unit that is separate from the blood detecting sensor, the communication base unit feeds power to the charging unit of the blood detecting sensor by electromagnetic induction with the first antenna unit of the blood detecting sensor, the blood detecting sensor transmits a signal, based on a detection result of a presence or absence of the blood in the infusion tube, from the first antenna unit of the blood detecting sensor to the base unit by wireless communication, and the communication base unit comprises a second antenna unit which notifies an infusion pump, which includes the fluid delivery unit, of the received signal based on the detection result of the presence or absence of the blood in the infusion tube to. 13. An infusion system comprising the extravasation detecting apparatus according to claim 12 . 14. An infusion system comprising the extravasation detecting apparatus according to claim 8 . 15. An infusion system comprising the extravasation detecting apparatus according to claim 1 . 16. An extravasation detecting apparatus comprising: a fluid medicine containing unit which contains a fluid medicine, the fluid medicine containing unit being connected to an infusion tube having a distal end connected to either a catheter or an indwelling needle to be positioned inside a blood vessel; a fluid delivery unit which supplies the fluid medicine in the fluid medicine containing unit to the catheter or the indwelling needle by sequentially and repetitively pressing the infusion tube with a plurality of fingers; an upstream closing unit arranged at a portion of the infusion tube upstream of the fluid delivery unit to close the infusion tube; a blood detecting sensor which detects when blood is suctioned into the infusion tube from inside the blood vessel when an upstream portion of the infusion tube is closed by the upstream closing unit and when the fluid delivery unit is activated and generates negative pressure in the infusion tube by a restoring force of the infusion tube; the blood detecting sensor being provided in a vicinity of the catheter or the indwelling needle to detect the blood that is suctioned into the infusion tube from inside the blood vessel; the blood detecting sensor comprising a light-emitting unit and a light-receiving unit both positioned outside the infusion tube so that a portion of the infusion tube is positioned between the light-emitting unit and the light-receiving unit, the light-emitting unit irradiating light at the portion of the infusion tube positioned between the light-emitting unit and the light-receivi