Patent ID: 11933143
Assignee: nan
Field: Civil engineering (Other fields)
Classification: CPC E | IPC E

Claim 0:
1. A pressurized fluid flow system for percussive mechanisms comprising:
a cylindrical outer casing having a rear end and a front end;
a driver sub mounted to the front end of said outer casing;
a rear sub affixed to said rear end of the outer casing for connecting the mechanism to a source of pressurized fluid;
a piston slidably and coaxially disposed inside said outer casing and capable of reciprocating due to changes in pressure of the pressurized fluid contained inside of a front chamber and a rear chamber located at opposites ends of the piston, the piston having a rear thrust surface, a front thrust surface, a front outer sliding surface and a rear outer sliding surface;
a cylinder coaxially disposed in between the outer casing and the piston, the cylinder having an inner and an outer surface;
a valve carrier disposed rear of the rear chamber, the valve carrier having a rear valve support surface;
a probe carrier disposed rear of the valve carrier, the probe carrier having a front valve support surface, one or more longitudinal fluid passageways, an inner valve sliding surface, one or more pressure transmitting radial passageways and one or more fluid supply through holes;
a valve mounted in a space created in between the valve carrier and the probe carrier, the valve able to slide longitudinally on the inner valve sliding surface of the probe carrier for moving between a front-located closed position and a rear-located open position, the valve further having a front support surface, a rear support surface, a front thrust surface, a rear thrust surface and a biasing thrust surface, the rear support surface and the rear thrust surface of the valve creating together with the inner valve sliding surface and the front valve support surface of the probe carrier a pressurized volume; and
a drill bit slidably mounted on the driver sub, wherein the sliding movement of the drill bit is limited by a drill bit retainer mounted on the driver sub;
a pressurized fluid supply chamber defined by an annular recess on an external surface of the piston, the pressurized fluid supply chamber longitudinally limited at each end by the front and rear outer sliding surfaces respectively and being in permanent fluid communication with the source of pressurized fluid for supplying pressurized fluid to the front chamber;
a set of longitudinal supply channels created in between the outer surface of the cylinder and the inner surface of the outer casing for conveying pressurized fluid from the rear sub to the pressurized fluid supply chamber, the longitudinal supply channels being in permanent fluid communication with the source of pressurized fluid and filled with said fluid when the percussive mechanism is operative;
a set of longitudinal discharge channels created in between the outer surface of the cylinder and the inner surface of the outer casing for discharging pressurized fluid from the front chamber and the rear chamber, the longitudinal discharge channels being disposed longitudinally in parallel with respect to the longitudinal supply channels and being in permanent fluid communication with the outside of the percussive mechanism;
multiple pressurized fluid intake ports, multiple front pressurized fluid exit ports and rear and front sets of discharge ports provided in said cylinder respectively facing the sets of longitudinal supply and discharge channels, the pressurized fluid intake ports provided in said cylinder for connecting the longitudinal supply channels with the fluid supply through holes in the probe carrier and ultimately with the source of pressurized fluid, the front pressurized fluid exit ports provided in said cylinder for connecting the set of longitudinal supply channels of the cylinder with the pressurized fluid supply chamber and permanently filling it with pressurized fluid;
the front set of discharge ports provided in said cylinder for discharging the front chamber into the set of longitudinal discharge channels;
the rear set of discharge ports provided in said cylinder for discharging the rear chamber into the set of longitudinal discharge channels;
a front set of recesses provided on said cylinder and being disposed longitudinally in series with respect to the longitudinal supply channels for connecting the pressurized fluid supply chamber with the front chamber in cooperation with the front outer sliding surface of the piston when the rear chamber supplied with pressurized fluid in each piston's reciprocating cycle; and
a set of longitudinal sensing channels created in between the outer surface of the cylinder and the inner surface of the outer casing for intermittently connecting, in cooperation with the rear outer sliding surface of the piston and a probe carrier's pressure transmitting radial passageways-connecting port and one or more rear chamber-connecting ports in each sensing channel, the rear chamber with the pressurized volume for allowing the opening of the valve when the rear chamber must be supplied with pressurized fluid in each piston's reciprocating cycle, the sensing channels being disposed longitudinally in series with respect to the longitudinal discharge channels.