초록 ▼

A tubing string rotator is disclosed that comprises an outer housing, a gear mandrel, and a tubing string hanger. The outer housing has an internal bore extending from its upper to its lower. The gear mandrel is received and supported within the bore of the outer housing. The gear mandrel has an int

A tubing string rotator is disclosed that comprises an outer housing, a gear mandrel, and a tubing string hanger. The outer housing has an internal bore extending from its upper to its lower. The gear mandrel is received and supported within the bore of the outer housing. The gear mandrel has an internal bore extending from its upper to its lower end. The tubing string hanger has a series of circumferentially positioned generally downwardly oriented teeth and is receivable and suspendable within the internal bore of the gear mandrel such that the teeth on the tubing string hanger engage a series of generally upwardly oriented teeth circumferentially positioned about the internal surface of the gear mandrel. Rotational force applied to the gear mandrel is at least partially transferred to the tubing string hanger through engagement of the teeth on the gear mandrel with the teeth on the hanger causing the tubing string hanger to rotate with the gear mandrel.

대표청구항 ▼

A tubing string rotator is disclosed that comprises an outer housing, a gear mandrel, and a tubing string hanger. The outer housing has an internal bore extending from its upper to its lower. The gear mandrel is received and supported within the bore of the outer housing. The gear mandrel has an int

A tubing string rotator is disclosed that comprises an outer housing, a gear mandrel, and a tubing string hanger. The outer housing has an internal bore extending from its upper to its lower. The gear mandrel is received and supported within the bore of the outer housing. The gear mandrel has an internal bore extending from its upper to its lower end. The tubing string hanger has a series of circumferentially positioned generally downwardly oriented teeth and is receivable and suspendable within the internal bore of the gear mandrel such that the teeth on the tubing string hanger engage a series of generally upwardly oriented teeth circumferentially positioned about the internal surface of the gear mandrel. Rotational force applied to the gear mandrel is at least partially transferred to the tubing string hanger through engagement of the teeth on the gear mandrel with the teeth on the hanger causing the tubing string hanger to rotate with the gear mandrel. ; US-6345486, 20020200, Colson et al., 160/084.05 curvature of said carcass between said largest cross-sectional width point and said bead binding point, and wherein, in the unpressurized, unloaded, and mounted condition of the tire, a ratio of the radii of curvature, from smallest radius to largest radius, is between about 1:1.1 and 1:2.2. 4. The vehicle tire in accordance with claim 3, wherein the ratio of the radii of curvature is between about 1:1.4 and 1:2.0. 5. A vehicle pneumatic tire comprising: a patterned tread; a belt brace comprising at least one layer; bead areas having bead cores; a carcass having at least one layer, which is arranged through said sidewalls, around the bead cores, and back into the sidewalls as turn-ups; said carcass and said belt brace being coupled together at a belt binding point, and a radially outmost portion of said bead area adapted to contact a standard rim forming a bead binding point between said carcass and said bead area; said carcass, in a region between said belt binding point and said bead binding point, being formed with a length shorter than that of a theoretical carcass between said belt binding point and said bead binding points determined in accordance with an equilibrium figure; and said length of said carcass and said theoretical length of said carcass being determined for the tire in an unpressurized condition and when the tire is mounted on the standard rim, wherein, in an unpressurized, unloaded condition of the tire while it is mounted on the standard rim, said carcass, in an area between said belt binding point and a largest cross-sectional width point of said tire, has a radius of curvature which is smaller than a radius of curvature of said carcass between said largest cross-sectional width point and said bead binding point, and wherein, in the unpressurized, unloaded, and mounted condition of the tire, the radius of curvature of said carcass is smallest in a region of said belt binding point and largest in a region of said bead binding point, and wherein the radius of curvature between the belt binding point region and bead binding point region continuously increases. 6. A process for forming a vehicle pneumatic tire that includes a patterned tread, a belt brace comprising at least one layer, bead areas having bead cores, and a carcass, having at least one layer, the process comprising: arranging the carcass through the sidewalls, around the bead cores, and back into the sidewalls as turn-ups, wherein a portion of the carcass extends at least from a belt binding point, at which the carcass is coupled to the belt, to a bead binding point, which is a radially outmost portion of the bead area that is adapted to contact a standard rim; and forming the portion of the carcass with a length which is shorter than that of a theoretical carcass between the belt binding point and the bead binding point determined in accordance with an equilibrium figure, the length of the carcass and the theoretical length of the carcass being determined for the tire in an unpressurized condition and when the tire is mounted on the standard rim, wherein the length of the carcass between the binding points is about 80 to 97% of the length of the theoretical carcass between the binding points. 7. The process in accordance with claim 6, wherein the length of the carcass between the binding points is about 85 to 95% of the length of the theoretical carcass between the binding points. 8. A process for forming a vehicle pneumatic tire that includes a patterned tread, a belt brace comprising at least one layer, bead areas having bead cores, and a carcass, having at least one layer, the process comprising: arranging the carcass through the sidewalls, around the bead cores, and back into the sidewalls as turn-ups, wherein a portion of the carcass extends at least from a belt binding point, at which the carcass is coupled to the belt, to a bead binding point, which is a radially outmost portion of the bead area that is adapted