Impact mechanism for a rotary impact tool

What is claimed is: 1. An impact mechanism for an impact tool, comprising: a gear carrier including a gear carrier blind bore formed by a gear carrier aperture extending into the gear carrier and terminating at a first end wall within the gear carrier; an anvil rotatable about an axis and including an impact section and an anvil blind bore formed by an anvil aperture extending into the anvil and terminating at a second end wall within the anvil; a centering component including opposing first and second end surfaces respectively slidably received in the gear carrier aperture and the anvil aperture, wherein the centering component includes an axial bore, and wherein the centering component is disposed between the first and second end walls, thereby radially aligning and coupling the gear carrier and the anvil; and a hammer slidably coupled to the gear carrier, rotatable about the axis, and including a planar surface with a lug extending therefrom. 2. The impact mechanism of claim 1 , wherein the centering component is slidably received in the gear carrier aperture and the anvil aperture using a slip-fit tolerance. 3. The impact mechanism of claim 1 , wherein a first axial clearance is provided between the first end surface and the first end wall and a second axial clearance is provided between the second end surface and the second end wall. 4. The impact mechanism of claim 1 , wherein the gear carrier includes a through hole. 5. The impact mechanism of claim 1 , further comprising a ball that engages a ball groove disposed on the hammer and a circumferential groove disposed on the gear carrier. 6. The impact mechanism of claim 1 , wherein the anvil includes an output drive. 7. An impact tool comprising: a motor; and an impact mechanism including: a gear carrier adapted to receive rotational force from the motor and including a gear carrier blind bore formed by a gear carrier aperture extending into the gear carrier and terminating at a first end wall within the gear carrier; an anvil rotatable about an axis and including an impact section and an anvil blind bore formed by an anvil aperture extending into the anvil and terminating at a second end wall within the anvil; a centering component including opposing first and second end surfaces respectively slidably received in the gear carrier aperture and the anvil aperture, wherein the centering component includes an axial bore, and wherein the centering component is disposed between the first and second end walls, thereby radially aligning and coupling the gear carrier and the anvil; and a hammer slidably coupled to the gear carrier, rotatable about the axis, and including a planar surface with a lug extending therefrom. 8. The impact tool of claim 7 , wherein the impact tool is an impact driver. 9. The impact tool of claim 7 , wherein the centering component is slidably received in the gear carrier aperture and the anvil aperture using a slip-fit tolerance. 10. The impact tool of claim 7 , wherein a first axial clearance is provided between the first end surface and the first end wall and a second axial clearance is provided between the second end surface and the second end wall. 11. The impact tool of claim 7 , wherein the gear carrier includes a through hole. 12. The impact tool of claim 7 , further comprising a ball disposed in a ball groove of the hammer and a circumferential groove of the gear carrier. 13. The impact tool of claim 7 , wherein the anvil is coupled to an output drive.