Transmission belt and system for obtaining transmission belt status information

The invention claimed is: 1. A power transmission belt configured to be wound around pulleys, the power transmission belt comprising a stacked body comprising: a back surface layer disposed on a back surface side of the power transmission belt; an inner surface layer disposed on an inner surface side of the power transmission belt; and a tension member layer comprising a tension member embedded between the back surface layer and the inner surface layer, wherein the power transmission belt comprises a plurality of sensors configured to detect a status of the power transmission belt, as at least a part of the stacked body, and wherein the tension member layer has a composition that is more stress resistant than compositions of the back surface layer and the inner surface layer. 2. The power transmission belt according to claim 1 , wherein the sensors are integrated as at least a part of the stacked body. 3. The power transmission belt according to claim 1 , wherein the sensors are disposed toward the back surface side of the power transmission belt in the inner surface layer and at a center in a width direction of the power transmission belt. 4. The power transmission belt according to claim 1 , wherein the sensors are disposed toward the back surface side of the power transmission belt in the back surface layer and at a center in a width direction of the power transmission belt. 5. The power transmission belt according to claim 1 , wherein the sensors are disposed toward a surface side of the power transmission belt in the inner surface layer to be in contact with a pulley around which the power transmission belt is wound. 6. The power transmission belt according to claim 1 , wherein the stacked body further comprises an outer fabric layer on at least a part of an outer circumference thereof, and the sensors are included in at least a part of the outer fabric layer. 7. The power transmission belt according to claim 1 , wherein the power transmission belt further comprises a transmission unit configured to transmit status information of the power transmission belt detected by the sensors to an outside, and the transmission unit is embedded in the back surface layer or in the inner surface layer. 8. The power transmission belt according to claim 1 , wherein each of the sensors is a pressure sensor configured to detect a status of a pressure applied to the power transmission belt. 9. The power transmission belt according to claim 8 , wherein the pressure sensor is a film-shaped piezoelectric body comprising an organic polymer and having a pair of electrodes formed on both surfaces thereof. 10. The power transmission belt according to claim 8 , wherein the pressure sensor has a configuration in which a pair of electrodes is disposed on both surfaces of a piezoelectric body comprising a rubber composition and a piezoelectric powder dispersed therein. 11. The power transmission belt according to claim 1 , wherein the plurality of sensors is disposed at predetermined intervals in a circumferential length direction of the power transmission belt. 12. A status information acquisition system for power transmission belt comprising: a power transmission belt comprising a stacked body including a back surface layer disposed on a back surface side of the power transmission belt, an inner surface layer disposed on an inner surface side of the power transmission belt, and a tension member layer comprising a tension member embedded between the back surface layer and the inner surface layer, a plurality of sensors provided on at least a part of the stacked body and configured to detect a status of the power transmission belt, and a transmission unit embedded in the back surface layer or in the inner surface layer and configured to transmit status information of the power transmission belt detected by the sensor to an outside; and a receiver configured to receive the status information of the power transmission belt transmitted from the transmission unit, and wherein the tension member layer has a composition that is more stress resistant than compositions of the back surface layer and the inner surface layer. 13. The status information acquisition system according to claim 12 , wherein the plurality of sensors is disposed at predetermined intervals in a circumferential length direction of the power transmission belt.