Laser cutting nozzle and laser cutting method

The invention claimed is: 1. A laser cutting nozzle, comprising: an inner nozzle that exhibits a tube shape having a through hole on an axis and having a diameter decreasing on a first end portion side and includes a notch extending in a direction of the axis along an outer peripheral surface on a second end portion side, the first end portion side being a bottom side of the inner nozzle, the second end portion side being a top side of the inner nozzle, and a supplied assist gas for laser cutting is divided into an inner flow and an outer flow, the inner flow passing through the through hole of the inner nozzle and jetted from the first end portion side; and an outer nozzle that is fitted to the outer peripheral surface of the inner nozzle and includes a vent passage including the notch and communicating between the first end portion side and the second end portion side in the direction of the axis, and the outer flow passing through the vent passage and jetted from a third end portion side which is a bottom side of the outer nozzle, wherein the vent passage comprises an upper vent passage, an intermediate vent passage, and a lower vent passage, the upper vent passage being located at the second end portion side and a fourth end portion side which is a top side of the outer nozzle, the lower vent passage being located at the first end portion side and the third end portion side, the intermediate vent passage being located between the upper vent passage and the lower vent passage, the opening area of the notch in an end surface on the second end portion side is defined by a plurality of spaced apart opening area regions formed in the end surface on the second end portion side, the upper vent passage includes the plurality of spaced apart opening area regions and is not formed as a ring-shaped space, the intermediate vent passage is formed as a ring-shaped space to which the plurality of spaced apart opening area regions are connected, the lower vent passage is formed as a ring-shaped space to which the intermediate vent passage is connected, a flow cross-sectional area of the upper vent passage is set to be less than both a flow cross-sectional area of the intermediate vent passage and a flow cross-sectional area of the lower vent passage, wherein a minimum flow cross-sectional area of the vent passage equals an opening area of the notch in the end surface on the second end portion side. 2. The laser cutting nozzle according to claim 1 , wherein the outer nozzle exhibits a tube shape having a through hole extending on the axis and having a diameter decreasing on the third end portion side, and an end surface of the inner nozzle on the first end portion side and an end surface of the outer nozzle on the third end portion side are positioned at a same axial position in the direction of the axis. 3. A laser cutting method of cutting a workpiece using the laser cutting nozzle according to claim 1 , the laser cutting method comprising: selecting the laser cutting nozzle according to a thickness of the workpiece to be cut from a plurality of kinds of nozzles with different opening areas of the notch as the laser cutting nozzle; and using the selected laser cutting nozzle to cut the workpiece. 4. The laser cutting method according to claim 3 , further comprising: setting the opening area correspond to a flow ratio of the outer flow to the inner flow, when the assist gas is divided into the inner flow jetted from the through hole and the outer flow jetted from the vent passage, and obtaining flow ratios at which an amount of bevel generated by laser cutting is equal to or less than a predetermined value according to each thickness of workpieces; and using the selected laser cutting nozzle having an opening area corresponding to a flow ratio at which the amount of bevel is equal to or less than the predetermined value according to the thickness of the workpiece to be cut.