Fire extinguishing system for tire of vehicle

What is claimed is: 1 . A fire extinguishing system for a tire of a vehicle, the system comprising: a fire detection sensor configured to detect an occurrence of a fire in the tire of the vehicle; a fire control unit configured to receive a signal output from the fire detection sensor and to output a control signal for spraying fire extinguishing agent when the fire control unit determines that the fire has occurred; and a plurality of fire extinguishing agent sprayers configured to spray the fire extinguishing agent toward the tire where the fire has occurred according to the control signal output by the fire control unit, in a state of being filled with the fire extinguishing agent therein. 2 . The system of claim 1 , wherein the fire detection sensor is a temperature sensor configured to measure a temperature of the tire, and the fire control unit determines that the fire has occurred at the tire when the temperature of the tire, which the signal of the fire detection sensor indicates, is no less than a reference temperature set for determining the fire occurrence. 3 . The system of claim 1 , wherein the fire detection sensor is a tire pressure monitoring system (YPMS) sensor configured to modulate tire state information to an RF signal and transmit the RF signal, and the fire control unit comprises an RF receiver configured to receive the RF signal transmitted by the TPMS sensor. 4 . The system of claim 3 , wherein the fire control unit determines that the fire has occurred at the tire when the temperature of the tire indicated by the RF signal of the TPMS sensor, is no less than a reference temperature set for determining the fire occurrence. 5 . The system of claim 1 , wherein the fire control unit comprises an RF transmitter to convert the control signal for spraying fire extinguishing agent to an RF signal which is a wireless signal, thereby transmitting the RF signal, and the fire extinguishing agent sprayer comprises an RF receiver for receiving the RF signal transmitted from the RF transmitter of the fire control unit. 6 . The system of claim 1 , wherein the fire detection sensor and the plurality of the fire extinguishing agent sprayers are installed on a plurality of tires in the vehicle, and the fire control unit is configured to output the control signal for spray operation of the fire extinguishing agent of the fire extinguishing agent sprayers at a tire side where the fire has occurred after identification of the tire where the fire has occurred from the received signal of the fire detection sensor. 7 . The system of claim 1 , wherein each of the fire extinguishing agent sprayers comprises: a pressure generator configured to operate for generating spray pressure according to the control signal output by the fire control unit, and a fire extinguishing agent tank filled with the fire extinguishing agent therein and provided with a plurality of spray holes through which the fire extinguishing agent is sprayed when the spray pressure generated in the pressure generator acts thereon, wherein the fire extinguishing agent tank is coupled to the pressure generator so that the spray pressure generated in the pressure generator may act on the fire extinguishing agent filled therein. 8 . The system of claim 7 , wherein each of the fire extinguishing agent sprayers further comprises: a bracket to be fixed to a vehicle body part of a side above the tire for mounting to the vehicle body part; and a cap configured to seal the fire extinguishing agent tank by being screw-coupled to a top portion of the fire extinguishing agent tank, wherein the pressure generator is located in a space defined at an inner side between the cap and the top portion of the fire extinguishing agent tank coupled thereto. 9 . The system of claim 7 , wherein the pressure generator comprises: a pressure plate installed to be movable in a downward direction on a top side of the fire extinguishing agent inside the fire extinguishing agent tank and configured to act spray pressure on the fire extinguishing agent, as being moved downward; a spring installed inside the fire extinguishing agent tank in a compressed state and configured to provide elastic restoring force for acting the spray pressure on the fire extinguishing agent by moving the pressure plate in the downward direction when being elastically restored; a stopper configured to fix the spring in a compressed state; and an actuator configured to allow elastic restoration of the spring to be established by operating to release fixing of the spring by the stopper according to the control signal output by the fire control unit. 10 . The system of claim 9 , wherein each of the fire extinguishing agent sprayers further comprises a cap configured to seal the fire extinguishing agent tank by being coupled to a top portion of the fire extinguishing agent tank, wherein the spring is installed between the cap and the stopper, and a plurality of actuators and a same number of stoppers are installed at equal intervals along a circumferential direction of the cap, whereby the springs are supported in a compressed state by the stoppers, respectively. 11 . The system of claim 10 , wherein a retainer is installed at the inner side of an upper portion of the fire extinguishing agent tank, wherein the stopper is coupled to the retainer, thereby being slidingly movable in a radial direction for fixing the spring and releasing the fixing of the spring. 12 . The system of claim 10 , wherein the actuator comprises: an actuator body fixedly installed to the cap; a solenoid provided in the actuator body and configured to be driven by electric current being applied thereto, in response to the control signal output by the fire control unit; and an actuation rod coupled to the actuator body to be movable back and forth, thereby operating to release the fixing of the spring held by the stopper when the solenoid is driven 13 . The system of claim 12 , wherein the actuation rod is located to support the stopper from the rear so that movement of the stopper fixing the spring in a compressed state is prohibited before driving the solenoid, and the actuation rod releases a support state for the stopper, when operated by the driving of the solenoid. 14 . The system of claim 13 , wherein the stopper is provided to support from the bottom the spring, located between the cap and the stopper at an inside of an upper portion of the extinguishing agent tank, and an inclined surface is provided on an upper portion of a front surface of the stopper, and the spring is supported on the inclined surface, so when the support state of the stopper held by the actuation rod is released, the stopper moves in a direction to release the fixing of the spring by the elastic restoring force of the spring. 15 . The system of claim 7 , wherein a tank bottom part of the fire extinguishing agent tank is configured in a truncated circular cone shape, and the spray holes are provided at a side surface portion and a bottom surface portion in the tank bottom part of the truncated circular cone shape. 16 . The system of claim 7 , wherein the fire extinguishing agent sprayer further comprises a cover coupled to an outer surface of the fire extinguishing agent tank so as to seal the spray holes, wherein the cover is coupled to be able to be removed from the fire extinguishing agent tank by the spray pressure of the fire extinguishing agent inside the fire extinguishing agent tank acting through the spray holes. 17 . The system of claim 16 ,