Battery pack comprising extinguishment unit

1 . A battery pack, comprising: at least two battery modules arranged in one direction; and a fire extinguisher having a linear temperature sensor partially extending linearly along the at least two battery modules and configured to sense whether at least one of the at least two battery modules has a temperature over a predetermined temperature; a fire extinguishing tank configured to accommodate a fire extinguishing agent; a pipe connected to the fire extinguishing tank to supply the fire extinguishing agent from the fire extinguishing tank to each of the at least two battery modules; and a valve to supply the fire extinguishing agent from the fire extinguishing tank to the at least one battery module having a temperature over the predetermined temperature. 2 . The battery pack according to claim 1 , wherein each of the at least two battery modules has a gas passage configured to discharge a gas generated therein to the outside, and a plurality of gas discharge holes formed at an end of the gas passage to communicate with the outside, and wherein a part of the linear temperature sensor is located at an outer side of the two or more battery modules to face the gas discharge holes respectively provided to the at least two battery modules. 3 . The battery pack according to claim 2 , wherein the pipe includes a common pipe connected to an outlet hole of the fire extinguishing tank through which the fire extinguishing agent is output, and a distribution pipe having a distributed structure to be connected from the common pipe to an inlet hole of each of the at least two battery modules through which the fire extinguishing agent is input, and wherein the valve includes a common valve located in the common pipe to open or close the common pipe, and a distribution valve located in the distribution pipe to open or close the distribution pipe. 4 . The battery pack according to claim 3 , wherein the distribution valve is a passive valve configured to be opened to inject the fire extinguishing agent into the battery module over the predetermined temperature. 5 . The battery pack according to claim 4 , wherein at least a part of the passive valve is inserted into the inlet hole, wherein the inlet hole is formed to communicate with the gas passage provided to the battery module. 6 . The battery pack according to claim 3 , wherein the common valve is an active valve configured to be opened when the linear temperature sensor senses the at least one battery module having a temperature over the predetermined temperature. 7 . The battery pack according to claim 3 , wherein the fire extinguisher further includes a location calculating part configured to receive a signal from the linear temperature sensor and calculate a location of the at least one battery module having a temperature over the predetermined temperature. 8 . The battery pack according to claim 3 , wherein each of the at least two battery modules has two inlet holes, wherein the distribution pipe is two distribution pipes respectively connected to the two inlet holes, wherein a first distribution pipe of the two distribution pipes includes a passive valve configured to be opened when the at least one battery module is heated over the predetermined temperature, and wherein a second distribution pipe of the two distribution pipes includes an active valve configured to be opened when the at least one battery module is heated over the predetermined temperature. 9 . The battery pack according to claim 1 , wherein the fire extinguisher further includes a smoke sensor configured to sense a smoke discharged from the at least two battery modules. 10 . A battery rack, comprising: a battery pack according to claim 1 ; and a rack case configured to accommodate the battery pack. 11 . An energy storage system, comprising two or more battery racks according to claim 10 .