Automatic lubrication system with detune

I claim: 1. A lubrication system for a tool powered by a drive fluid, the lubrication system comprising: a housing defining an internal bore therein, the internal bore at least partly defining a valve channel and a lubricant charge chamber having a variable volume, a drive fluid valve member disposed within the valve channel and movable relative to the housing from a first drive position to a second drive position in response to a pressure of the drive fluid to reduce the variable volume of the lubricant charge chamber, a detune valve member movable relative to the drive fluid valve member between a first detune position and a second detune position in response to a lubricant pressure within the lubricant charge chamber, a seal disposed within the internal bore that blocks fluid communication between the lubricant charge chamber and the valve channel independent of a position of the drive fluid valve member and independent of a position of the detune valve member, the detune valve member being configured to effect fluid communication between a drive fluid inlet passage and a drive fluid bypass passage when the detune valve member is in the first detune position, and block fluid communication between the drive fluid inlet passage and the drive fluid bypass passage when the detune valve member is in its second detune position. 2. The lubrication system of claim 1 wherein the drive fluid valve member defines a detune channel therein, and the detune valve member is disposed within the detune channel. 3. The lubrication system of claim 1 wherein a first end of the drive fluid valve member is in fluid communication with the valve channel, a second end of the drive fluid valve member is in fluid communication with the lubricant charge chamber, and the seal is disposed on the drive fluid valve member between the first end of the drive fluid valve member and the second end of the drive fluid valve member, and the lubricant charge chamber is further defined by the second end of the drive fluid valve member. 4. The lubrication system of claim 1 further comprising a lubricant valve assembly disposed in fluid communication with the lubricant charge chamber. 5. The lubrication system of claim 1 wherein the drive fluid valve member defines a detune channel and a valve member passage, the detune valve member being disposed within the detune channel and being movable relative to the drive fluid valve member, the detune valve member being configured to block flow through the valve member passage when disposed in the second detune position, and the detune valve member being configured to effect flow through the valve member passage when disposed in the first detune position. 6. The lubrication system of claim 1 further comprising at least one biasing member that biases the drive fluid valve member toward the first drive position. 7. The lubrication system of claim 1 further comprising at least one detune biasing member that biases the detune valve member toward the first detune position. 8. The lubrication system of claim 1 wherein the detune valve member is operable between the first detune position and the second detune position in response to lubricant pressure within the lubricant charge chamber and movement of the drive fluid valve member relative to the housing. 9. The lubrication system of claim 1 wherein the housing further defines at least one drive fluid inlet and at least one fluid bypass passage, the at least one drive fluid inlet and the at least one fluid bypass passage being fluidly coupleable to a drive fluid source. 10. The lubrication system of claim 9 wherein the housing further defines at least one drive fluid hammer passage that is fluidly coupleable to a work tool power cell. 11. A machine comprising a tool powered by a drive fluid, and a lubrication system for the tool, the lubrication system comprising: a housing defining an internal bore therein, the internal bore at least partly defining a valve channel and a lubricant charge chamber having a variable volume, a lubricant reservoir in fluid communication with the lubricant charge chamber via a lubricant inlet defined by the housing, the lubricant charge chamber being in fluid communication with the tool via a lubricant outlet defined by the housing, a drive fluid valve member disposed within the valve channel and movable relative to the housing from a first drive position to a second drive position in response to a pressure of a drive fluid to reduce the variable volume of the lubricant charge chamber, the drive fluid valve member defining a detune channel, the drive fluid valve member being fluidly coupled to a drive fluid source via a drive fluid inlet defined by the housing, the drive fluid source being distinct from the lubricant reservoir, a detune valve member disposed within the detune channel and movable relative to the drive fluid drive member between a first detune position and a second detune position in response to a lubricant pressure within the lubricant charge chamber, the detune valve member being configured to effect fluid communication between the drive fluid inlet and a drive fluid bypass outlet defined by the housing when the detune valve member is in the first detune position, and block fluid communication between the drive fluid inlet and the drive fluid bypass outlet when the detune valve member is in the second detune position. 12. The machine of claim 11 further comprising a lubricant valve assembly disposed in fluid communication with the lubricant reservoir. 13. The machine of claim 12 wherein the drive fluid valve member includes at least one valve member passage, the detune valve member blocking flow through the at least one valve member passage when disposed in the second detune position, and the detune valve member effecting flow through the at least one valve member passage when disposed in the first detune position. 14. The machine of claim 13 further comprising at least one biasing member that biases the drive fluid valve member toward the first drive position. 15. The machine of claim 14 further comprising at least one detune biasing member that biases the detune valve member toward the first detune position. 16. The machine of claim 11 wherein the tool is a hydraulic powered hammer. 17. A method for lubricating and detuning a tool, the method including: moving a drive fluid valve member from a first drive position to a second drive position in response to a pressure of a drive fluid associated with operation of the tool to reduce a volume of a lubricant charge chamber having a variable volume, delivering a lubricant to the tool from the lubricant charge chamber when the drive fluid valve member moves from the first drive position to the second drive position, moving a detune valve member between a first detune position and a second detune position in response to a pressure of the lubricant within the lubricant charge chamber, delivering a drive fluid from a drive fluid source to a drive fluid inlet passage, the drive fluid being distinct from the lubricant, effecting a fluid connection between the drive fluid inlet passage and a bypass fluid passage when the detune valve member is in the first detune position, and blocking the fluid connection between the drive fluid inlet passage and the bypass fluid passage when the detune valve member is in the second detune position. 18. The method of claim 17 further comprising moving the detune valve member from the first detune position to the second detune position as the drive fluid v