Wire electrode storage device for wire electrical discharge machine

The invention claimed is: 1. A wire electrode storage device for a wire electrical discharge machine, the wire electrode storage device comprising: a used wire electrode storage box configured to recover a used wire electrode, wherein the used wire electrode storage box has an outlet through which a dielectric fluid accumulated therein is discharged to an outside; a dielectric fluid tank configured to store the dielectric fluid; a pump attached to the dielectric fluid tank; and a dielectric fluid suction unit, wherein when a flow of the dielectric fluid is drawn from the dielectric fluid tank by the pump into the dielectric fluid suction unit, the dielectric fluid suction unit is configured to produce a negative pressure based on a Venturi effect to cause the dielectric fluid in the used wire electrode storage box to be drawn under the produced negative pressure into the dielectric fluid suction unit through the outlet of the used wire electrode storage box. 2. The wire electrode storage device according to claim 1 , wherein the used wire electrode storage box includes a mechanism for collecting the dielectric fluid around the outlet. 3. The wire electrode storage device according to claim 2 , wherein the mechanism for collecting the dielectric fluid is a depression provided around the outlet of the used wire electrode storage box. 4. The wire electrode storage device according to claim 2 , wherein the mechanism for collecting the dielectric fluid is a member for inclining a bottom surface of the used wire electrode storage box to cause the dielectric fluid to flow to the outlet. 5. The wire electrode storage device according to claim 1 , wherein the dielectric fluid suction unit is configured to cause the dielectric fluid drawn out from the used wire electrode storage box to be recovered into the dielectric fluid tank. 6. The wire electrode storage device according to claim 1 , wherein the dielectric fluid suction unit includes: a main pipe having opposite ends one of which is connected to the pump, and a constricted portion between the opposite ends, and a suction pipe connecting the constricted portion of the main pipe to the outlet of the used wire electrode storage box. 7. The wire electrode storage device according to claim 1 , wherein the dielectric fluid suction unit is configured to cause the dielectric fluid sucked up from the used wire electrode storage box, along with the dielectric fluid drawn by the pump from the dielectric fluid tank, to be returned to the dielectric fluid tank. 8. A wire electrical discharge machine, comprising: a used wire electrode storage box configured to recover a used wire electrode, wherein the used wire electrode storage box has an outlet through which a dielectric fluid accumulated therein is discharged to an outside; a dielectric fluid tank configured to store the dielectric fluid; a pump attached to the dielectric fluid tank; and a dielectric fluid suction unit, wherein when a flow of the dielectric fluid is drawn from the dielectric fluid tank by the pump into the dielectric fluid suction unit, the dielectric fluid suction unit is configured to produce a negative pressure based on a Venturi effect to cause the dielectric fluid in the used wire electrode storage box to be drawn under the produced negative pressure into the dielectric fluid suction unit through the outlet of the used wire electrode storage box. 9. The wire electrical discharge machine according to claim 8 , wherein the used wire electrode storage box includes a mechanism for collecting the dielectric fluid around the outlet. 10. The wire electrical discharge machine according to claim 9 , wherein the mechanism for collecting the dielectric fluid is a depression provided around the outlet of the used wire electrode storage box. 11. The wire electrical discharge machine according to claim 9 , wherein the mechanism for collecting the dielectric fluid is a member for inclining a bottom surface of the used wire electrode storage box to cause the dielectric fluid to flow to the outlet. 12. The wire electrical discharge machine according to claim 8 , wherein the dielectric fluid suction unit is configured to cause the dielectric fluid drawn out from the used wire electrode storage box to be recovered into the dielectric fluid tank. 13. The wire electrical discharge machine according to claim 8 , wherein the dielectric fluid suction unit includes: a main pipe having opposite ends one of which is connected to the pump, and a constricted portion between the opposite ends, and a suction pipe connecting the constricted portion of the main pipe to the outlet of the used wire electrode storage box. 14. The wire electrical discharge machine according to claim 13 , wherein the other of the opposite ends of the main pipe is connected to the dielectric fluid tank to cause the dielectric fluid sucked up from the used wire electrode storage box, along with the dielectric fluid drawn by the pump from the dielectric fluid tank, to be returned to the dielectric fluid tank.