Sensor chip, and measurement device and blood test device in which this sensor chip is used

The invention claimed is: 1. A sensor chip for analyzing the components of a biological sample, comprising: a substrate in the form of a flat board, and that is formed at least by laminating a base plate, a spacer, and a cover; a sample inlet that is provided to one end of the substrate, into which flows the biological sample used for analysis; a supply path that communicates with the sample inlet and into which the biological sample is introduced; detection electrodes that are provided to the supply path and detect signals used for analysis; and a surplus blood reservoir that is provided to the substrate and into which extra blood not used for analysis is drawn and held, wherein the volume of the surplus blood reservoir is greater than the volume of the supply path. 2. The sensor chip according to claim 1 , wherein the volume of the surplus blood reservoir is at least three times greater than the volume of the supply path. 3. The sensor chip according to claim 1 , wherein the volume of the surplus blood reservoir is no more than two thirds the volume of the substrate. 4. The sensor chip according to claim 1 , wherein the supply path and the surplus blood reservoir are formed by the same member, and wherein the supply path and the surplus blood reservoir are formed in the same layer. 5. The sensor chip according to claim 4 , wherein the supply path and the surplus blood reservoir are formed as respective separate spaces by the spacer. 6. The sensor chip according to claim 1 , wherein the supply path and the surplus blood reservoir are formed in different layers. 7. The sensor chip according to claim 1 , wherein the supply path and the surplus blood reservoir are formed in different layers, and wherein the substrate is formed by laminating a base plate, a spacer, a cover, and a surplus blood suction spacer. 8. The sensor chip according to claim 1 , wherein the substrate is formed by laminating a base plate, a spacer, a cover, a surplus blood suction spacer, and a surplus blood suction cover. 9. The sensor chip according to claim 1 , wherein the sample inlet is provided to one end face of the substrate, and wherein a surplus blood inlet is provided to an end face of the substrate that is different side from the end face where the sample inlet is provided. 10. The sensor chip according to claim 1 , wherein the surplus blood reservoir has an opening on one or more faces of the substrate. 11. The sensor chip according to claim 1 , wherein the part of the biological sample received by the sample inlet is provided to the sample inlet separately from the surplus of the biological sample provided to be held by the surplus blood reservoir. 12. The sensor chip according to claim 1 , wherein the part of the biological sample received by the sample inlet is provided to the sample inlet separately from the surplus of the biological sample provided to surplus blood inlet. 13. The sensor chip according to claim 1 , wherein the supply path has a first air hole that communicates with the outside air and is provided to a location that is opposite the sample inlet side. 14. The sensor chip according to claim 1 , wherein the surplus blood reservoir has a second air hole that communicates with the outside air and is provided in order to draw in surplus blood. 15. A measurement device, comprising: a housing; a sensor insertion portion that is provided to part of the housing and into which the sensor chip according to claim 1 is inserted; a connector that is provided to the sensor insertion portion; a measurement circuit that is connected to the connector; and a display component that is connected to the output of the measurement circuit and displays the result of measuring analysis data for a biological sample introduced to the sensor chip and measured with the measurement circuit. 16. A method for analyzing the components of a biological sample, the method comprising: introducing the biological sample to the sensor chip according to claim 1 so as to produce a current proportional to a blood glucose concentration in the biological sample; and converting the current to digital data, and displaying the digital data.