Vacuum blower

What is claimed is: 1. A vacuum blower configured to perform sucking work and blowing work, comprising: a pipe including a suction port and a discharge port; a blower fan driven by a driving source; and a nozzle provided near the suction port of the pipe, and configured to feed pressurized wind generated by the blower fan into the pipe from around the pipe, and to eject the pressurized wind to the discharge port, wherein: the nozzle includes an inner pipe disposed inside of the pipe so as to be slidable relative to the pipe; and by sliding the inner pipe relative to the pipe, the nozzle is configured to switch between: a sucking state, where a base end portion of the inner pipe comes into close contact with a base end portion of the nozzle facing the base end portion of the inner pipe, a front end portion of the inner pipe is separated from a front end portion of the nozzle facing the front end portion of the inner pipe, and the pressurized wind generated by the blower fan and fed to an outside of the inner pipe is ejected to the discharge port along an inside of the inner pipe; and a blowing state, where the front end portion of the inner pipe comes into close contact with the front end portion of the nozzle facing the front end portion of the inner pipe, the base end portion of the inner pipe is separated from the base end portion of the nozzle facing the base end portion of the inner pipe, and the pressurized wind generated by the blower fan and fed to the outside of the inner pipe is ejected to the suction port along the inside of the inner pipe, and further wherein: the front end portion of the nozzle includes a front end turn portion disposed around the front end portion of the inner pipe, and in the sucking state, the pressurized wind generated by the blower fan and fed to the outside of the inner pipe turns toward a base end at around the front end portion of the inner pipe, and is ejected to the discharge port along the inside of the inner pipe from a front end ejection port formed between the front end turn portion and the inner pipe; and the base end portion of the nozzle includes a base end turn portion disposed around the base end portion of the inner pipe, and in the blowing state, the pressurized wind generated by the blower fan and fed to the outside of the inner pipe turns toward a front end at around the base end portion of the inner pipe, and is ejected to the suction port along the inside of the inner pipe from a base end ejection port formed between the base end turn portion and the inner pipe. 2. The vacuum blower according to claim 1 , wherein the front end ejection port or the base end ejection port is provided radially outward of a narrowest portion of the inner pipe, the narrowest portion being provided nearer to the base end than the front end ejection port or being provided nearer to the front end than the base end ejection port. 3. The vacuum blower according to claim 1 , further comprising: a rotary operating member that is rotatable about an axis of the pipe; and a cam mechanism for sliding the inner pipe relative to the pipe according to rotation of the rotary operating member. 4. The vacuum blower according to claim 3 , wherein the rotary operating member is provided in the front end portion of the nozzle. 5. The vacuum blower according to claim 4 , wherein: the front end turn portion serves as the rotary operating member; and the front end turn portion and the inner pipe form the cam mechanism. 6. The vacuum blower according to claim 3 , wherein the rotary operating member is provided in the base end portion of the nozzle. 7. The vacuum blower according to claim 6 , wherein: the base end turn portion serves as the rotary operating member; and the base end turn portion and the inner pipe form the cam mechanism.