Abstract: A casing hanger assembly includes a landing ring secured to a containment well cellar or the conductor pipe. A casing hanger welded to the external surface of the last section of surface casing seats into the landing ring.

Abstract: Robotic grippers and robotic gripping systems are disclosed. A robotic gripper includes one or more gripping members, one or more tactile sensors on or in the one or more gripping members, and one or more processors. The one or more tactile sensors are configured to take geographic measurements of an object gripped by the one or more gripping members. The one or more processors are configured to create a numeric model of at least a portion of a surface of the object gripped by the one or more gripping members using the geographic measurements from the one or more tactile sensors. The one or more processors are also configured to adjust a location of the object gripped by the one or more gripping members by controlling the one or more gripping members based on the numeric model of the at least the portion of the surface of the object.

Abstract: The present invention relates generally to a well casing hanger system that provides for orientation of a hanger with respect to a landing ring during installation. The landing ring has a mating feature, such as a recess, adapted to engage with a mating feature, such as a protrusion, on the casing hanger. The shape of the mating features of the landing ring and hanger is such that rotation to a specific alignment will occur during installation if there is an initial rotational offset.

Abstract: A well cellar assembly, and a method of using same, with the well cellar including a base plate, the base plate having at least two well slot openings therein for receiving a conductor pipe, and at least one vertically extending side wall connected to the base plate with a fluid tight seal. The at least two well slot openings provide alternative locations for the conductor pipe and at least one of the at least two well slot openings is selected for placement of the conductor pipe.

Abstract: A well cellar assembly, and a method of using same, with the well cellar including a base plate, the base plate having at least two well slot openings therein for receiving a conductor pipe, and at least one vertically extending side wall connected to the base plate with a fluid tight seal. The at least two well slot openings provide alternative locations for the conductor pipe and at least one of the at least two well slot openings is selected for placement of the conductor pipe.

Abstract: A casing hanger assembly includes a landing ring secured to a containment well cellar or the conductor pipe. A casing hanger welded to the external surface of the last section of surface casing seats into the landing ring. Optionally, a lock down mechanism can be used to prevent buoyancy and hydraulic forces from causing the well to pack off.

Abstract: A casing hanger assembly includes a landing ring secured to a containment well cellar or the conductor pipe. A casing hanger welded to the external surface of the last section of surface casing seats into the landing ring. Optionally, a lock down mechanism can be used to prevent buoyancy and hydraulic forces from causing the well to pack off.

Abstract: A fuse mechanism for e.g. a pyrotechnic grenade in which a spring loaded striker lever (31) is blocked via a cammed surface (22) of a safety lever (21) comprising a handle. (25). Release of the handle (25) enables deployment of the fuse assembly. Spring-loaded striker lever (31) is urged upwards by the force of torsion spring (38). Contact between the free end (34) of the striker lever (31) exerts a rotational force on cammed portion (22). The safety lever (21) rotates away from the body of the munition (20). Rapid upward movement of the striker lever (31) is prevented at this stage by contact of the free end (34) with the cammed portion (22). Further rotation of the safety lever (21) occurs until point where the cammed portion (22) is no longer in contact with the striker lever.

Abstract: A system and method of dynamically localizing a measurement of parameter characterizing tissue sample with waves produced by spectrometric system at multiple wavelengths and detected at a fixed location of the detector of the system. The parameter is calculated based on impulse response of the sample, reference data representing characteristics of material components of the sample, and path lengths through the sample corresponding to different wavelengths. Dynamic localization is effectuated by considering different portions of a curve representing the determined parameter, and provides for the formation of a spatial map of distribution of the parameter across the sample. Additional measurement of impulse response at multiple detectors facilitates determination of change of the measured parameter across the sample as a function of time.

Abstract: A fuse mechanism for e.g. a pyrotechnic grenade in which a spring loaded striker lever (31) is blocked via a cammed surface (22) of a safety lever (21) comprising a handle. (25). Release of the handle (25) enables deployment of the fuse assembly. Spring-loaded striker lever (31) is urged upwards by the force of torsion spring (38). Contact between the free end (34) of the striker lever (31) exerts a rotational force on cammed portion (22). The safety lever (21) rotates away from the body of the munition (20). Rapid upward movement of the striker lever (31) is prevented at this stage by contact of the free end (34) with the cammed portion (22). Further rotation of the safety lever (21) occurs until point where the cammed portion (22) is no longer in contact with the striker lever.

Abstract: A system and method of dynamically localizing a measurement of parameter characterizing tissue sample with waves produced by spectrometric system at multiple wavelengths and detected at a fixed location of the detector of the system. The parameter is calculated based on impulse response of the sample, reference data representing characteristics of material components of the sample, and path lengths through the sample corresponding to different wavelengths. Dynamic localization is effectuated by considering different portions of a curve representing the determined parameter, and provides for the formation of a spatial map of distribution of the parameter across the sample. Additional measurement of impulse response at multiple detectors facilitates determination of change of the measured parameter across the sample as a function of time.

Abstract: Robotic grippers and robotic gripping systems are disclosed. A robotic gripper includes one or more gripping members, one or more tactile sensors on or in the one or more gripping members, and one or more processors. The one or more tactile sensors are configured to take geographic measurements of an object gripped by the one or more gripping members. The one or more processors are configured to create a numeric model of at least a portion of a surface of the object gripped by the one or more gripping members using the geographic measurements from the one or more tactile sensors. The one or more processors are also configured to adjust a location of the object gripped by the one or more gripping members by controlling the one or more gripping members based on the numeric model of the at least the portion of the surface of the object.

Abstract: The herein disclosed processes provide a methodology for forming pre-cut gun wraps that may be formed specifically for a particular make and model of firearm or firearm accessory, and may be packaged and shipped to customer in a pre-cut form that allows for easy and adjustable non-permanent application to a firearm or firearm accessory. An exemplary embodiment of the herein disclosed processes includes the steps of: drawings a digital outline of a specific make and model of firearm; measuring a gun wrap surface area; translating the gun wrap surface area into a vector template; combining the vector template with digital artwork to determine a cut path; printing on an adhesive with the digital artwork; laminating the adhesive; cutting the pre-cut model specific gun wrap from the adhesive on a plotter/cutting machine using the cut path; and removing excess material from the pre-cut model specific gun wrap. The adhesive may be a pressure sensitive adhesive vinyl material.

Abstract: A retractable barrier system and method for inhibiting access to designated private and public areas both indoors and outdoor, including retail and warehouse aisles and the like, includes a flexible screen retractable and extensible from a rotatable rod coupled to a mounting member, the mounting member having an attachment mechanism for coupling with a receiving member such as storage rack assembly support post or bracket or the like.

Abstract: A system and method of dynamically localizing a measurement of parameter characterizing tissue sample with waves produced by spectrometric system at multiple wavelengths and detected at a fixed location of the detector of the system. The parameter is calculated based on impulse response of the sample, reference data representing characteristics of material components of the sample, and path lengths through the sample corresponding to different wavelengths. Dynamic localization is effectuated by considering different portions of a curve representing the determined parameter, and provides for the formation of a spatial map of distribution of the parameter across the sample. Additional measurement of impulse response at multiple detectors facilitates determination of change of the measured parameter across the sample as a function of time.

Abstract: Example methods provided herein generate and employ three-dimensional (3D) reconstructed images of process equipment or areas within various environments in which combustion processes take places. These three-dimensional images are generated with data provided from imaging devices. The imaging devices are disposed or positioned at multiple vantage points, and in various ways, to monitor process equipment in the environment.

Abstract: A system and method of dynamically localizing a measurement of parameter characterizing tissue sample with waves produced by spectrometric system at multiple wavelengths and detected at a fixed location of the detector of the system. The parameter is calculated based on impulse response of the sample, reference data representing characteristics of material components of the sample, and path lengths through the sample corresponding to different wavelengths. Dynamic localization is effectuated by considering different portions of a curve representing the determined parameter, and provides for the formation of a spatial map of distribution of the parameter across the sample. Additional measurement of impulse response at multiple detectors facilitates determination of change of the measured parameter across the sample as a function of time.

Abstract: A retractable barrier system and method for inhibiting access to designated private and public areas both indoors and outdoor, including retail and warehouse aisles and the like, includes a flexible screen retractable and extensible from a rotatable rod coupled to a mounting member, the mounting member having an attachment mechanism for coupling with a receiving member such as storage rack assembly support post or bracket or the like.

Abstract: A system and method of dynamically localizing a measurement of parameter characterizing tissue sample with waves produced by spectrometric system at multiple wavelengths and detected at a fixed location of the detector of the system. The parameter is calculated based on impulse response of the sample, reference data representing characteristics of material components of the sample, and path lengths through the sample corresponding to different wavelengths. Dynamic localization is effectuated by considering different portions of a curve representing the determined parameter, and provides for the formation of a spatial map of distribution of the parameter across the sample. Additional measurement of impulse response at multiple detectors facilitates determination of change of the measured parameter across the sample as a function of time.

Abstract: Example methods provided herein generate and employ three-dimensional (3D) reconstructed images of process equipment or areas within various environments in which combustion processes take places. These three-dimensional images are generated with data provided from imaging devices. The imaging devices are disposed or positioned at multiple vantage points, and in various ways, to monitor process equipment in the environment.