Laser irradiation apparatus and laser machining method

The invention claimed is: 1. A laser irradiation apparatus disposed in water and performing maintenance/repair using a laser, the apparatus comprising: an environment isolation container configured to be disposed in a maintenance/repair object provided with water inside; a laser oscillator provided inside the environmental isolation container, the laser oscillator being configured to be isolated from the water in the maintenance/repair object via the environmental isolation container; a laser irradiation head which collects laser light and irradiates a part to be machined with the laser light; a light guide section which transmits the laser light from the laser oscillator to the laser irradiation head; a power supply apparatus which supplies the laser oscillator with power; an air-chamber partition for dividing inner space of the environment isolation container into a first space in which the laser oscillator and a path of the laser light are disposed, and a second space outside the first space; a pipe communicating the second space with the laser oscillator; a cooling water supplying apparatus which supplies the laser oscillator with cooling water through a cooling water supplying path; and a temperature sensor which measures temperature inside the environment isolation container, wherein at least one of temperature and flow rate of the cooling water to be supplied from the cooling water supplying apparatus is controlled based on measurement result obtained from the temperature sensor; and the cooling water supplied from the cooling water supplying apparatus passes through the laser oscillator and is then supplied to the second space through the pipe. 2. The laser irradiation apparatus according to claim 1 , wherein at least a part of a portion through which the laser light passes in the light guide section is constructed of a transparent medium. 3. A laser machining method, comprising: preparing an object to be machined to be provided with water inside; preparing a laser oscillator provided inside an environmental isolation container, the laser oscillator being configured to be isolated from the water in the object via the environmental isolation container, and wherein an inner space of the environmental isolation container is divided into a first space in which the laser oscillator and a path of laser light are disposed, and a second space outside the first space by an air-chamber partition; preparing a pipe communicating the second space with the laser oscillator, wherein the cooling water supplied from the cooling water supplying apparatus passes through the laser oscillator and is then supplied to the second space through the pipe; providing the environmental isolation container in the water inside the object; performing machining by irradiating the laser light from the laser oscillator to a part of the object with supplying cooling water to the laser oscillator; measuring temperature inside the environment isolation container with use of a temperature sensor, and; controlling at least one of temperature and flow rate of the cooling water to be supplied to the laser oscillator based on measurement result of the temperature sensor.