Battery module and method for inspecting the battery module

1 . A battery module comprising: a cell including a battery container housing a battery element; a temperature detector thermally connected with the battery container in contact with the outer surface of the battery container; and an electrically insulating rigid covering member which partly covers the battery container and brings the temperature detector into contact with the battery container, wherein an inspection through hole through which a heat application means is passed is formed in the covering member and the temperature detector is disposed in a position outside a heat application area obtained by orthographically projecting the inspection through hole onto the outer surface of the battery container. 2 . The battery module according to claim 1 , wherein the temperature detector is disposed in the outer surface on the side of a cell positive electrode terminal and a cell negative electrode terminal provided in the battery container, and wherein the covering member is so disposed as to cover the temperature detector and the temperature detector is disposed adjacently to the heat application area formed by the inspection through hole. 3 . The battery module according to claim 2 , wherein the temperature detector is provided in the covering member in a position adjacent to the inspection through hole formed in the covering member. 4 . The battery module according to claim 2 , wherein the heat application means transfers hot heat or cold heat to the battery container in contact with the heat application area. 5 . The battery module according to claim 4 , wherein the heat application means is formed of a resistance heating element and transfers heat to the battery container in contact with the heat application area. 6 . The battery module according to claim 2 , wherein the heat application means gives heat to the battery container in non-contact with the heat application area. 7 . The battery module according to claim 6 , wherein the heat application means is formed of a laser irradiation member and applies laser light to the heat application area to give heat to the battery container. 8 . The battery module according to claim 2 , wherein a heat application marking is provided in the heat application area. 9 . The battery module according to claim 2 , wherein a protective sheet is laid in an area of the battery container on the side where the temperature detector, the cell positive electrode terminal, and the cell negative electrode terminal are located except the heat application area. 10 . The battery module according to claim 2 , wherein a plurality of the cells are laminated in one direction to form a cell group, and wherein the covering member is extended in the one direction so as to cover the cell group and includes an opening opened in a predetermined position and a signal leader wire of the temperature detector is led out of the opening, the signal leader wire being disposed along the one direction of the covering member. 11 . The battery module according to claim 10 , wherein two rows of the inspection through holes are intermittently and continuously formed in the covering member along the one direction at both ends in a direction orthogonal to the one direction and the signal leader wire is disposed between the two rows of the inspection through holes. 12 . The battery module according to claim 11 , wherein the signal leader wire is connected to a socket fixed to the covering member. 13 . A method for inspecting a battery module, comprising: a heat application step of giving heat to the heat application area in the battery container of the battery module according to claim 1 through the inspection through hole by the heat application means; a temperature change value measuring step of, after the heat application step, obtaining a temperature change value from the temperature detector between before and after a predetermined time has passed; and a diagnosis step of, after the temperature change value measuring step, comparing the temperature change value with a predetermined temperature change threshold value, when the temperature change value is larger than the temperature change threshold value, determining that a state of contact between the temperature detector and the battery container is normal, and when the temperature change value is smaller than the temperature change threshold value, determining that a state of contact between the temperature detector and the battery container is abnormal. 14 . A method for inspecting a battery module, comprising: a heat application step of giving heat to the heat application area in the battery container of the battery module according to claim 1 through the inspection through hole by the heat application means; a temperature change rate measuring step of, after the heat application step, obtaining a temperature change rate value from a temperature change value from the temperature detector between before and after a predetermined time has passed; and a diagnosis step of, after the temperature change rate measuring step, comparing the temperature change rate value with a predetermined temperature change rate threshold value, when the temperature change rate value is larger than the temperature change rate threshold value, determining that a state of contact between the temperature detector and the battery container is normal, and when the temperature change rate value is smaller than the temperature change rate threshold value, determining that a state of contact between the temperature detector and the battery container is abnormal. 15 . The method for inspecting a battery module according to claim 13 , wherein the temperature change threshold value is a reference value for determining whether contact between the temperature detector and the outer surface of the battery container is kept in a favorable state. 16 . The method for inspecting a battery module according to claim 14 , wherein the temperature change rate threshold value is a reference value for determining whether contact between the temperature detector and the outer surface of the battery container is kept in a favorable state. 17 . The method for inspecting a battery module according to claim 13 , wherein the heat application means used at the heat application step transfers hot heat or cold heat to the battery container in contact with the heat application area. 18 . The method for inspecting a battery module according to claim 17 , wherein the heat application means is formed of a resistance heating element and transfers heat to the battery container in contact with the heat application area. 19 . The method for inspecting a battery module according to claim 13 , wherein the heat application means used at the heat application step gives heat to the battery container in non-contact with the heat application area. 20 . The method for inspecting a battery module according to claim 19 , wherein the heat application means is formed of a laser irradiation member and applies laser light to the heat application area to give heat to the battery container. 21 . The method for inspecting a battery module according to claim 13 , comprising: an internal resistance diagnosis step of, after the diagnosis step, measuring an internal resistance of the cell to determine a quality of the cell. 22 . A battery module, comprising: a cell including a battery container housing a battery elem