Patent application number | Description | Published |
20080289166 | OPEN HEAD POWER TONG ASSEMBLY AND METHOD OF MAKING AN OPEN-HEAD POWER TONG ASSEMBLY - A method of making an open-head power tong assembly includes the steps of providing a power tong assembly that has a first case assembly and a transmission assemble. A second case assembly is provided that includes a casing having a sidewall with a plurality of supporting ribs, a base wall, and a top plate that define an interior region that is adapted to receive a pinion gear, a conversion shaft having first and second axial end portions, and an open-head tong assembly. The first case assembly is removed from the transmission assembly of the power tong assembly to expose a transmission shaft. The transmission shaft is removed to expose a transmission shaft opening. The second case is mounted to the transmission assembly such that the second axial end of the conversion shaft is engaged with the transmission shaft opening. | 11-27-2008 |
20100300251 | TONG ASSEMBLY - A tong assembly includes a case assembly having an enclosure defining an interior. A bearing assembly is disposed in the interior of the enclosure. The bearing assembly includes a first bearing member defining a first cavity and a second bearing member defining a first cavity. A tong head assembly is disposed in the interior of the enclosure of the case assembly. The tong head assembly includes a tong head engaged with an outer ring gear. The outer ring gear includes a first axial end portion, an oppositely disposed second axial end portion and a central portion. The first axial end portion is disposed in the first cavity of the first bearing member. The second axial end portion is disposed in the first cavity of the second bearing member. | 12-02-2010 |
20120103248 | WEIGHING AND DISPLAY STATION - A system for monitoring loads at well drilling and service operations includes a digital user interface. The digital interface is in electronic communication with a first pressure transducer in fluid communication with a first pad type hydraulic load sensor, a second pressure transducer in fluid communication with a second pad type hydraulic load sensor, and a third pressure transducer in fluid communication with a hydraulic diaphragm type deadline load sensor. The digital user interface module functions to monitor the hydraulic pressures experienced at each pressure transducer and functions to calculate and display a corresponding weight load in numerical and graphical form for each pressure transducer. The digital user interface is also in electronic communication with a fourth transducer in fluid communication with a hydraulic power tong unit. The digital user interface module also functions to monitor the hydraulic pressure experienced at the pressure transducer and functions to calculate and display a corresponding torque load produced by the power tongs in numerical and graphical form. | 05-03-2012 |
20120210827 | ROD TONG ASSEMBLY - A tong assembly includes a case assembly and a tong head assembly disposed in the interior of the case assembly and adapted to engage a first sucker rod. A transmission assembly engaged to a hydraulic motor and including a backup tong assembly. The backup tong assembly includes a backup tong having a first end and an oppositely disposed second end adapted to hold a second sucker rod. A load pin engaged to the second end of the backup tong and an outer casing of the transmission assembly, the load pin includes strain gages for measuring a force applied to the first end of the backup tong to output a force signal. A rotary encoder engages a shaft of the hydraulic motor and outputs a position signal when a. A controller generates an output signal based on only one of the force signal or the position signal when the force signal is greater than a predetermined value or when the position signal is within a predetermined range of values. The output signal actuates a valve to direct fluid from the hydraulic motor to a hydraulic fluid reservoir. | 08-23-2012 |
20140103641 | METHOD AND SYSTEM FOR TIGHTENING THREADED ELEMENTS AND CERTIFYING THE CONNECTIONS AND THE DEVICES FOR CONNECTING THREADED ELEMENTS - A method and system certifies a joint between a first threaded element having a first shoulder and a second threaded element having a second shoulder and the equipment used to tighten the connection. The method tightens to a first position at which the first shoulder abuts the second shoulder. Marks are made that are aligned across the first element and the second element corresponding to the first position. The connection is loosened and then tightened to a second position complying with a predetermined tightening specification. The distance beyond the marks for the first position is measured to verify that it is within acceptable tolerances. If acceptable the connection and/or the tightening equipment can be certified. | 04-17-2014 |
20140104074 | METHOD AND APPARATUS FOR CONTROLLING OIL WELL DRILL SITE SYSTEMS - A control system for a well site, the well site includes connectable elements configured for inserting down a well. An explosion hazard zone surrounds the well site. A first electronics enclosure is remote from the explosion hazard zone and houses a first electronics module. A remote electronics control module is spaced apart from the first electronics housing and a remote hydraulics module removed from the first electronics module and the hazard zone module. The control system includes a human machine interface including a display and input. A central communications module is in wireless communication with the first electronics control module, the remote electronics module, and a remote location. A processor is in one or more of the first electronics module, the communications module or the human machine interface. | 04-17-2014 |
20140105526 | TONG BEARING - A renewable bearing is for a tong including a housing and an engagement assembly. The bearing has a monolithic upper bearing element having a substantially planar upper surface and a monolithic lower bearing element having a substantially planar lower surface. The upper and lower bearing elements are configured to mount inside the housing with a substantially same outer horizontal profile as the upper bearing element. The upper bearing element and the lower bearing element define a central open area. The upper bearing element and the lower bearing element have an inner section define a radial recess opening to the central opening and for receiving the engagement assembly. The upper bearing element and the lower bearing element have outer sections that form a bearing portion radially intermediate the engagement assembly. | 04-17-2014 |
20150267748 | TONG BEARING - A renewable bearing is for a tong including a housing and an engagement assembly. The bearing has a monolithic upper bearing element having a substantially planar upper surface and a monolithic lower bearing element having a substantially planar lower surface. The upper and lower bearing elements are configured to mount inside the housing with a substantially same outer horizontal profile as the upper bearing element. The upper bearing element and the lower bearing element define a central open area. The upper bearing element and the lower bearing element have an inner section define a radial recess opening to the central opening and for receiving the engagement assembly. The upper bearing element and the lower bearing element have outer sections that form a bearing portion radially intermediate the engagement assembly. | 09-24-2015 |