Hydraulic vibratory tool for driving rivets of conveyor belt fasteners

What is claimed is: 1. A vibratory tool for driving a plurality of rivets out from bores of a guide block into an underlying conveyor belt, the tool comprising: a body; a hydraulically actuated main drive rod mounted to the body and having an impact end that rapidly reciprocates along a driving axis between retracted and extended positions; a driver aligned with the main drive rod and slidably mounted to the body for travel along the driving axis; a plurality of elongated drive rod members of the driver configured and sized to extend forwardly into the guide block bores for engaging and simultaneously driving multiple rivets out of the guide block bores; an intermediate impact surface of the driver for being impacted by the main drive rod impact end as the main drive rod impact end rapidly reciprocates between the retracted and extended positions; and a rearwardly extending spacer wall of the driver for axially spacing the driver intermediate impact surface and the main drive rod impact end in the retracted position thereof by at least a predetermined axial distance sized for optimizing the energy transfer from the main drive rod to the driver when the main drive rod impact end impacts the driver impact surface, wherein the body includes a housing; and a nose stabilizing member slidably connected to the housing and projecting axially beyond the housing for engaging the guide block to allow the housing to slide axially toward the guide block along the nose stabilizing member engaged therewith causing the housing to seat against the driver spacer wall with the drive rod members extending into the guide block bores. 2. The vibratory tool of claim 1 wherein the rearwardly extending spacer wall of the driver has an axial length corresponding to the predetermined axial distance. 3. The vibratory tool of claim 1 wherein the body includes a shaft having a bore through which the hydraulically actuated main drive rod extends and the rearwardly extending spacer wall of the driver is configured to abut the shaft with the main drive rod impact end in the retracted position. 4. The vibratory tool of claim 1 wherein the nose stabilizing member is slidable along the driving axis from an extended position to a retracted position; and a biasing member biasing the nose stabilizing member away from the housing toward the extended position so that moving the nose stabilizing member from the extended position toward the retracted position with the nose stabilizing member engaged with the guide block compresses the biasing member which further urges the nose stabilizing member against the guide block. 5. The vibratory tool of claim 1 wherein the rearwardly extending spacer wall of the driver includes a tubular wall and a bore about which the tubular wall extends with the bore being sized to permit the main drive rod impact end to travel in and along the bore and strike the driver impact surface. 6. The vibratory tool of claim 1 wherein the body has a retainer device that is operable to keep the driver from being separated from the slidable mounting thereof to the body. 7. The vibratory tool of claim 6 wherein the retainer device includes a stop member extending transverse to the driving axis and the driver includes a shoulder with the stop member and shoulder being configured to abut and restrict forward movement of the driver beyond a predetermined axial position along the body. 8. The vibratory tool of claim 1 wherein the driver has a predetermined mass and the hydraulically actuated main drive rod has a predetermined mass in the range of approximately 0.7 to approximately 1.7 times the mass of the driver. 9. The vibratory tool of claim 8 wherein the hydraulically operated main drive rod has a mass of approximately 1.1 times the mass of the driver. 10. The vibratory tool of claim 1 wherein the rearwardly extending spacer wall of the driver axially spaces the driver intermediate impact surface and the main drive rod impact end in the retracted position thereof by an axial distance of at least approximately 1.2 inches. 11. The vibratory tool of claim 10 wherein the rearwardly extending spacer wall of the driver axially spaces the driver intermediate impact surface and the main drive rod impact end in the retracted position thereof by an axial distance of at least approximately 1.4 inches. 12. The vibratory tool of claim 1 further comprising a hydraulic circuit configured to rapidly reciprocate the main drive rod impact end between the retracted and extended positions at a rate of approximately twenty times per second or greater. 13. A power tool comprising: a tool housing; a nose stabilizing member slidably connected to the tool housing and projecting axially beyond the tool housing for engaging a guide block having rivets received therein; a driver slidably mounted to the tool housing and axially shiftable along a driving axis of the tool housing; a retainer device of the tool housing configured to keep the driver slidably mounted to the tool housing; a plurality of drive rods of the driver that extend beyond the nose stabilizing member for fitting in openings of a guide block and driving rivets outwardly therefrom; and a biasing member that generates a biasing force biasing the nose stabilizing member and the tool housing apart so that with the nose stabilizing member pushed into engagement with the guide block sliding the tool housing toward the nose stabilizing member against the biasing force urges the nose stabilizing member into tight engagement with the guide block to stabilize the guide block. 14. The power tool of claim 13 wherein the tool housing includes an internal cavity with the driver received in the internal cavity and the retainer device includes a member extending into the cavity to engage the driver and limit axial sliding of the driver. 15. The power tool of claim 13 further comprising a main drive rod with an impact end thereof configured to strike the driver; and the biasing member includes an inner void and coils extending about the inner void with the inner void being sized to permit the main drive rod impact end to travel into and along the void and strike the driver. 16. The power tool of claim 13 wherein the driver includes a shoulder configured to abut the retainer device and restrict axial movement of the driver beyond the retainer device. 17. A power tool comprising: a tool housing; a nose stabilizing member slidably connected to the tool housing and projecting axially beyond the tool housing for engaging a guide block having rivets received therein; a driver slidably mounted to the tool housing and axially shiftable along a driving axis of the tool housing; a retainer device of the tool housing configured to keep the driver slidably mounted to the tool housing; a plurality of drive rods of the driver that extend beyond the nose stabilizing member for fitting in openings of a guide block and driving rivets outwardly therefrom; and a biasing member that generates a biasing force biasing the nose stabilizing member and the tool housing apart so that with the nose stabilizing member pushed into engagement with the guide block sliding the tool housing toward the nose stabilizing member against the biasing force urges the nose stabilizing member into tight engagement with the guide block to stabilize the guide block, wherein the driver is axially slidable between a proximal position where the driver abuts the tool housing and a distal position where the driver abuts the retainer device such that the driver is restricted to movement along the