Percussion tool

What is claimed is: 1. A percussion tool adapted to impart axial impacts to a tool bit, the percussion tool comprising: a housing; a motor supported by the housing; a spindle supported by the housing and including a plurality of radial air vents; a reciprocation mechanism operable to create a variable pressure air spring within the spindle; a striker received within the spindle for reciprocation in response to a pressure of the variable pressure air spring; an anvil received within the spindle and configured to be impacted by the striker, the anvil configured to transmit axial impacts from the striker to the tool bit; a chuck for securing the tool bit to the spindle; and a parking assembly movable relative to the spindle to selectively open and close the plurality of radial air vents, the parking assembly including a seat coupled to the spindle, a first shuttle portion movable relative to an outer surface of the spindle, the first shuttle portion including an inner surface and an annular recess in the inner surface, an elastomeric ring is positioned within the annular recess, the elastomeric ring configured to cover the plurality of radial air vents in a working position, a biasing member positioned between the seat and the first shuttle portion, a second shuttle portion movable relative to the outer surface of the spindle, a bushing positioned within the spindle and configured to receive a portion of the anvil, and a fastener that couples the second shuttle portion to the bushing, wherein the first shuttle portion and the second shuttle portion are movable together between the working position, in which the plurality of radial air vents is closed, and an idle position, in which the plurality of radial air vents is open, and wherein the biasing member is configured to bias the first shuttle portion and the second shuttle portion into the idle position. 2. The percussion tool of claim 1 , wherein the first shuttle portion is formed from a first material, and wherein the second shuttle portion, the bushing, and the fastener are formed from a second material. 3. The percussion tool of claim 2 , wherein the first material is metal and the second material is plastic. 4. The percussion tool of claim 1 , wherein the seat includes a circumferential wall extending therefrom, the circumferential wall spaced apart from an outer surface of the spindle and surrounding the plurality of radial air vents. 5. The percussion tool of claim 1 , wherein the elastomeric ring is positioned between the first shuttle portion and the second shuttle portion. 6. The percussion tool of claim 5 , wherein the elastomeric ring contacts the first shuttle portion and the second shuttle portion. 7. The percussion tool of claim 5 , wherein the first shuttle portion includes a flange and a circumferential wall extending axially from the flange, wherein the second shuttle portion includes a flange extending therefrom, and wherein the elastomeric ring is positioned between the outer surface of the spindle and the circumferential wall of the first shuttle portion, and also between the flange of the first shuttle portion and the flange of the second shuttle portion. 8. The percussion tool of claim 7 , wherein the flange of the second shuttle portion is a first flange positioned at or adjacent a first end thereof, wherein the second shuttle portion further includes a second flange positioned at or adjacent a second end thereof, a third flange positioned between the first end and the second end, a first plurality of radial apertures positioned between the first flange and the third flange, and a second plurality of radial apertures positioned between the third flange and the second flange, wherein each of the first plurality of radial apertures and the second plurality of radial apertures are configured overlie one of a plurality of elongated air vents in the spindle, and wherein the fastener extends through one of the second plurality of radial apertures and one of the plurality of elongated air vents into an aperture of the bushing. 9. The percussion tool of claim 8 , wherein the elastomeric ring is a first elastomeric ring, and wherein the parking assembly further comprises a second elastomeric ring positioned between the third flange and the second flange, and wherein the second elastomeric ring surrounds the second plurality of radial apertures and the fastener. 10. The percussion tool of claim 9 , wherein the first shuttle portion includes an inner surface and an annular recess in the inner surface, and wherein a third elastomeric ring is positioned within the annular recess, the third elastomeric ring configured to cover the plurality of radial air vents in the working position. 11. A percussion tool adapted to impart axial impacts to a tool bit, the percussion tool comprising: a housing; a motor supported by the housing; a spindle supported by the housing and including a plurality of radial air vents; a reciprocation mechanism operable to create a variable pressure air spring within the spindle; a striker received within the spindle for reciprocation in response to a pressure of the variable pressure air spring; an anvil received within the spindle and configured to be impacted by the striker, the anvil configured to transmit axial impacts from the striker to the tool bit; a chuck for securing the tool bit to the spindle; and a parking assembly movable relative to the spindle to selectively open and close the plurality of radial air vents, the parking assembly including a seat coupled to the spindle, a first shuttle portion movable relative to an outer surface of the spindle, a biasing member positioned between the seat and the first shuttle portion, a second shuttle portion movable relative to the outer surface of the spindle, an elastomeric ring positioned between and contacting the first shuttle portion and the second shuttle portion, and a fastener that couples the second shuttle portion to the anvil, wherein the first shuttle portion, the elastomeric ring, and the second shuttle portion are movable together between a working position, in which the plurality of radial air vents is closed, and an idle position, in which the plurality of radial air vents is open, and wherein the biasing member is configured to bias the first shuttle portion and the second shuttle portion into the idle position. 12. The percussion tool of claim 11 , wherein the elastomeric ring is a first elastomeric ring, wherein the first shuttle portion includes an inner surface and an annular recess in the inner surface, and wherein a second elastomeric ring is positioned within the annular recess, the second elastomeric ring configured to cover the plurality of radial air vents in the working position. 13. The percussion tool of claim 12 , further comprising a bushing positioned within the spindle and configured to receive a portion of the anvil, and wherein the fastener couples the second shuttle portion to the bushing. 14. The percussion tool of claim 13 , wherein the second shuttle portion includes a first plurality of radial apertures positioned adjacent a first end thereof and a second plurality of radial apertures adjacent a second end thereof, wherein each of the first plurality of radial apertures and the second plurality of radial apertures are configured to overlie one of a plurality of elongated air vents in the spindle, and wherein the fastener extends through one of the second plurality of radial apertures and one of the plurality of elongated air vents into an aperture of the bushing. 15. The percussion tool of claim 14 , wherein