Penetration welding method

The invention claimed is: 1. A penetration welding method comprising: a step of sensing a thickness before processing at a processing position of a work; a threshold determination step of determining a threshold based on the sensed thickness before processing at the processing position of the work; and a through-hole formation step of forming a through hole in the work by generating a plasma arc column from a plasma torch to the work, wherein the work is layered steel sheets, wherein the plasma torch has an electrode connected to a power source and a nozzle connected to a plasma gas supply device, wherein the threshold is for a for a variable selected from a group consisting of an arc voltage and an arc length of the plasma arc column estimated from the arc voltage, wherein in the through-hole formation step, generation of the plasma arc column is terminated in response to the variable having exceeded the threshold, and wherein a flow-rate of the plasma gas as sprayed from the plasma torch is adjusted such that the width of the plasma arc column is maintained substantially constant from a side of the plasma torch to a side of the work in the through-hole formation step. 2. The penetration welding method according to claim 1 , wherein the threshold determination step involves measuring a distance between the plasma torch and the processing position of the work using a laser displacement gauge, and determining the threshold by obtaining a sum of a measured distance, the sensed thickness before processing, and a predetermined positive distance, and converting the sum into a voltage. 3. The penetration welding method according to claim 1 , further comprising a quality judgment step of measuring a melt diameter on a back surface side of the through hole formed in the work in the through-hole formation step, by way of a laser displacement gauge, and judging quality of the through hole formed in the work based on the melt diameter measured. 4. The penetration welding method according to claim 2 , further comprising a quality judgment step of measuring a melt diameter on a back surface side of the through hole formed in the work in the through-hole formation step, by way of a laser displacement gauge, and judging quality of the through hole formed in the work based on the melt diameter measured. 5. The penetration welding method according to claim 1 , wherein in the through-hole formation step flow-rate of the plasma gas is adjusted to at least 10 L/min. 6. The penetration welding method according to claim 5 , wherein in the through-hole formation step the flow-rate of the plasma gas is adjusted to 20 L/min or less. 7. The penetration welding method according to claim 6 , wherein a back component is provided on the back surface side of the work with a distance between the work and the back component, wherein the method further includes a step of sensing a distance between the plasma torch and the processing position, and wherein in the through-hole formation step, an open circuit voltage of the power source is set so that the arc length at a moment when the through hole penetrates through the work is longer than a first distance obtained by summing a sensed distance between the plasma torch and the processing position and the sensed thickness before processing, and shorter than a second distance obtained by summing the first distance and the distance between the work and the back component.