Low friction roller assemblies Low torque swivels.
Integral valve catcher Radially balanced.
Easily maintained.
Available for all mandrel sizes and tubing restrictions.
Reduce operating time and cost by increasing the chance of first time success, regardless of mandrel deviation or pocket orientation.
Assist the operator by improving tool string visibility at surface, reducing the possibility of a costly misrun.
Reduce the risk to asset by eliminating a minimum of two runs, due to the inclusion of an integral valve catcher.
Sized to match tool string Roller Bogie® Bi-directional jarring.
Virtually no internal resistance.
Robust reliable design.
Effective extreme deviation mechanical jarring action.
Assist the operator by improving tool string visibility on surface.
Clear and effective jarring action reported during fishing operations at 85° deviation.
Larger diameter tools such as kickover tools, plugs or drifts do not cause avoidable frictional drag.
Effective high deviation mechanical jarring.
Easier tool string manipulation.
Ability to run larger diameter equipment.
Enables access and jar action beyond conventional wireline depths and deviations.
Large rollers elevate jar axis.
Fully aligned tubular jar delivers efficient jarring action to actuate bottom end tools.
Integral axis shift knuckle transfers jarring forces efficiently.
Balanced design Easily maintained.
Self-orienting design.
Low friction dual rollers
Streamlined profile.
Robust and durable tool design.
Low maintenance requirements.
Available for all tubing sizes
Reach extended depths and higher deviations without need for costly services such as coiled tubing or wireline tractors.
Lower pick up weight means reduced wire loading.
More effective and visible jarring at greater depth or higher deviation due to efficient transfer of mass.
Maintain completion integrity by protecting coated and high-chrome tubulars.
Improve data quality by eliminating stick slip and achieving more constant logging speeds.
Diagram or hole size.
Deviation survey.
Fluids / gases in the well.
Pressures and Temperatures.
Length of each individual tool.
Weight of each individual tool.
Outer Diameter of each individual tool.
Nominal OD.
Weight in air.
Breaking Strain.
Stretch Coefficient.
Target depth.
Operational goals.
Operational limitations.
