Pulsed arc welding control method and pulsed arc welding device

The invention claimed is: 1. A method for controlling pulse arc welding, the method comprising: providing a pulse arc welding device that welds an object with a welding wire; controlling the pulse arc welding device so as to weld the object by generating an arc between the welding wire and the object by causing a welding current to flow through the welding wire while feeding the welding wire to the object at a feeding speed such that the welding current alternately repeats a peak current period in which the welding current is a peak current and a base current period in which the welding current is a base current smaller than the peak current; and controlling the feeding speed so as to keep an arc length of the arc constant, wherein the controlling of the feeding speed comprises: setting the feeding speed to a first feeding speed in the base current period; setting the feeding speed to a second feeding speed in the peak current period, the second feeding speed being larger than the first feeding speed and corresponding to the first feeding speed; starting to increase the feeding speed from the first feeding speed toward the second feeding speed simultaneously when the welding current starts to rise from the base current toward the peak current while transferring from the base current period to the peak current period in a pulse-rising period; starting to decrease the feeding speed from the second feeding speed toward the first feeding speed simultaneously when the welding current starts to fall from the peak current toward the base current while transferring from the peak current period to the base current period in a pulse-falling period; and ramping the welding current in the pulse-rising period and in the pulse-falling period. 2. The method of claim 1 , wherein the second feeding speed is larger than the first feeding speed by a value corresponding to at least one of a diameter of the welding wire and a material of the welding wire. 3. The method of claim 1 , wherein the controlling of the pulse arc welding device comprises controlling the pulse arc welding device so as to weld the object using a shielding gas by generating the arc between the welding wire and the object by causing the welding current to flow through the welding wire while feeding the welding wire to the object at the feeding speed such that the welding current alternately repeats the peak current period and the base current period, and wherein the second feeding speed is larger than the first feeding speed by a value corresponding to at least one of the shielding gas, a diameter of the welding wire, and a material of the welding wire. 4. The method of claim 1 , wherein the controlling of the feeding speed further comprises controlling the feeding speed such that a period in which the feeding speed reaches the second feeding speed from the first feeding speed is identical to a period in which the welding current reaches the peak current from the base current. 5. The method of claim 1 , wherein the controlling of the feeding speed further comprises controlling the feeding speed such that a period in which the feeding speed reaches the first feeding speed from the second feeding speed is identical to a period in which the welding current reaches the base current from the peak current. 6. The method of claim 1 , wherein the controlling of the pulse arc welding device comprises controlling the pulse arc welding device such that a molten droplet is generated by melting the welding wire by flowing the welding current through the welding wire to generate a constriction between the welding wire and the molten droplet while the molten droplet is connected to the welding wire, wherein the controlling of the feeding speed further comprises: decreasing the feeding speed from the second feeding speed to a third feeding speed that is smaller than the first feeding speed and corresponds to the first feeding speed while transferring from the peak current period to the base current period; and increasing the feeding speed from the third feeding speed toward the first feeding speed when detecting the generated constriction, and wherein each of the first feeding speed, the second feeding speed, and the third feeding speed is a speed at which the welding wire is fed toward the object. 7. The method of claim 6 , wherein the controlling of the feeding speed further comprises maintaining the feeding speed at the first feeding speed until the base current period ends after increasing the feeding speed to the first feeding speed during the increasing of the feeding speed from the third feeding speed toward the first feeding speed. 8. The method of claim 6 , wherein the third feeding speed is smaller than the first feeding speed by a value corresponding to at least one of a material of the welding wire and a shielding gas. 9. The method of claim 1 , wherein the second feeding speed is larger than the first feeding speed by a value ranging from 10% to 30% of the first feeding speed. 10. A method for controlling pulse arc welding, the method comprising: providing a pulse arc welding device that welds an object with a welding wire; controlling the pulse arc welding device so as to weld the object by generating an arc between the welding wire and the object by causing a welding current to flow through the welding wire while feeding the welding wire to the object at a feeding speed such that the welding current alternately repeats a peak current period in which the welding current is a peak current and a base current period in which the welding current is a base current smaller than the peak current; and controlling the feeding speed so as to keep an arc length of the arc constant, wherein the controlling of the pulse arc welding device comprises controlling the pulse arc welding device such that a molten droplet is generated by melting the welding wire by flowing the welding current through the welding wire to generate a constriction between the welding wire and the molten droplet while the molten droplet is connected to the welding wire, wherein the controlling of the feeding speed comprises: setting the feeding speed to a first feeding speed in the base current period; and setting the feeding speed to a second feeding speed in the peak current period, the second feeding speed being larger than the first feeding speed and corresponding to the first feeding speed; decreasing the feeding speed from the second feeding speed to a third feeding speed that is smaller than the first feeding speed and corresponds to the first feeding speed while transferring from the peak current period to the base current period; and increasing the feeding speed from the third feeding speed toward the first feeding speed when detecting the generated constriction, and wherein each of the first feeding speed, the second feeding speed, and the third feeding speed is a speed at which the welding wire is fed toward the object.