hydraulyc power tong 40 000 manufacturer

If you’ve worked with us before, you’ll know what we mean. We are remarkably dedicated to the success of our customers. That’s what drives us and everything we do. From the bottom up, we’ve built our company to deliver the highest quality hydraulic tongs faster than anyone else.

Eckel�s 9⅞ HS-40 Tubing / Casing providing high torque and high continuous rotational torque that you can trust within a compact operational footprint featuring SPACE SAVER® technology.

The 9⅞ HS-40 Tubing / Casing is the result of months of engineering and extensive stress analysis that insures higher performance, reliability, and long life. Eckel 9⅞ HS-40 provides world-class performance with up to 40,000 ft-lbs maximum torque. The tong features our new patented CASE STIFFENER technology that enhances overall torque output. Having a high full 360� rotational torque and speed-shifting capability insures the tong can makeup special torque-turn connections that require continuous rotation. A two-speed Hydra-Shift® motor is coupled with a two-speed gear train to provide (4) torque levels and (4) HS- speeds allowing the operator remarkable control of the connection.

Tong dimensions are a critical design aspect that our engineers worked to reduce for today�s smaller rigs. The result was having one of the industry�s smallest operational footprints tongs for its capacity and torque. The patented SPACE SAVER® door that hydraulically opens vertically, allowing for the tong to work in a much smaller operational area on rig floors and is also less labor-intensive operating. The door opens to the opposite side of the tong operator, allowing full view of the tong throat area while positioning the tong on the tubular. A fast 2-second door operation is all that is required to open or close the door.

The safety door interlock prevents tong operation when the tong door is open. Now enclosed within the tong body, providing tamper-resistant concealment from operator circumvention. Accidental damage of the door interlock by hydraulic fluids, tubular connection, or other external forces is also greatly minimized. A front panel provides access to the door inter-lock for any maintenance required

The 9⅞ HS-40 Casing Tong offers exceptional gripping capabilities handling tubular size from 3½ - 9⅞ in. (88.9 - 250.8) and WD Tri-Grip® Backup size 3½ - 11 in. (88.9 - 279.4). An innovative design allows you to choose either sliding heads or pivot heads configuration upon order. Wrap-Around dies are offered which securely encompass the tubular to limit potential for damage. Therefore, you are assured of your down hole tubular connection integrity.

Casing Tongs provide make-up and break-out capabilities when running casing tubular in the drill hole to maintain well integrity. Casing tongs are available for various sizes from 5-1/2" to 36" and designed to handle high torque casing or lightweight casing. Available models: Standard, Hydra-Shift, High Torque, and Ultra High Torque with torques ranging from 15,000 ft-lbs up to 200,000 ft-lbs. Consistent operations between models reduce employee training.

We are committed to delivering innovative designs and high performance powers tongs for the oil and gas industry. With 90% of all tong components manufactured and heat treated in-house, you are assured reliability and confidence on your next job with an Eckel tong!

The present invention relates to open-head power tongs used in drilling operations, and more particularly, is directed to an improved means of actuating and deactuating the operation of the power tong drive means in response to the opened and closed positions of an access door.

As well known in the drilling industry, power tongs are employed in making-up and breaking-out operations of casings, tubings, rods, pipes and the like. More particularly, power tongs are used to grip and rotate lengths of drill pipe or the like to connect or join several lengths of pipe together to thereby form a drill string in a make-up operation, and in the alternative, to grip and rotate a length of drill pipe to disconnect it from the drill string in a break-out operation.

One type of power tong commonly used today is the open-head tong, such as the one shown and described in U.S. Pat. No. 4,060,014. The open-head tong has a bifrucated frame defining a central opening and a side opening communicating with the central opening for the passing therethrough of a drill pipe or the like. Due to the extreme costs of drilling, open-head tongs have become very popular, in that, they can easily and readily be moved into and out of an operative position when they are needed in the making up and breaking out of drill strings.

In operation, the open-head power tong exerts large rotational torques on the drill pipes, usually the larger the tong, the larger the torque output. Due to these large torque outputs and the resulting forces generated therefrom, the open-head tongs have been provided with an access door that bridges the gap between the bifrucated ends of the tong. The primary purpose of such an access door is to strengthen the tong structure so as to prevent, during the operation of the tong, the bifrucated ends from separating or springing apart, which not only results in damage to the tong, but could also inflict injury to the operating personnel. The access door, in addition to providing structural rigidity to the tong, also provides the operator with safety in bodily protecting him from the rotating pipe gripping and engaging jaws.

Such access doors perform very satisfactorily in providing structural rigidity to the tong and do provide protection to the operators from the rotating components of the tong when the door is properly latched in position during the make-up and break-out operations; however, in an effort to save time, operators have been known to operate the tong with the access door open, and in some instances, the operators have even removed the access door from the tong. Such operator"s carelessness not only causes costly structural damage to the tong, but also results in personal injury to the operator.

In U.S. Pat. No. 2,705,614 there is shown an open-head power tong having an automatic hydraulically powered access door, operably interconnected to the hydraulic cylinders that actuate the jaw gripping mechanism, which must be closed before the jaws can be actuated so as to rotate a drill pipe. Such door interlock mechanism has been specifically designed for the type of tong disclosed and is not readily adaptable to other types of power tongs, such as the one shown in the above-mentioned U.S. Pat. No. 4,060,014. Further, the hydraulic circuitry that is involved with such a powered access door is not only complicated, having expensive components, but is also, costly to maintain and repair. Still further, such door interlock mechanism does not provide adequate safety to an operator, in that, although the operator is protected from the pipe gripping and engaging mechanism when the door is closed, he is also subjected to the risk of having the power operated door being automatically swung into him as it is being closed, thus, creating a potentially dangerous and unsafe condition under which the operator must work.

The present invention obviates the problems experienced with access doors and disadvantages associated with the prior art door-interlock mechanisms by providing, as one of its principle objects, an improved door-interlock mechanism for an open-head power tong that ensures the access door is in a closed position before the tong can be operated, thereby preventing possible structural damage to the tong from operating the tong with the door open, as well as, preventing personal injury to the operators by protecting them from the various rotating components of the tong.

Another object of the present invention is to provide a door-interlock mechanism for an open-head power tong that is simple in structure and adaptable to all types of open-head power tongs.

Accordingly, the present invention, sets forth in an open-head power tong having an access door mounted on the tong and moveable between opened and closed positions, an improved door-interlock mechanism that includes means for controlling the operation of the tong in response to the opened and closed position of the door. More particularly, the control means preferably includes a pneumatic contact valve interconnected with a pneumatically piloted diverter valve operably associated with the power means of the tong such that the power means is placed in either an operative or inoperative condition in response to respective closed and opened positions of the door. Specifically, the pneumatic contact valve is so positioned in the vicinity of the side opening that the door, in its closed position, engages the contact valve thereby actuating the diverter valve to permit operation of the power means, and when, the door is moved from its closed position out of engagement with the contact valve, the contact valve causes the diverter valve to deactuate the power means, thus stopping the operation thereof.

FIG. 1 is a top plan view of an open-head power tong incorporating the improved door-interlock mechanism of the present invention with the access door being in its closed position in engagement with the contact valve which actuates the diverter valve.

FIG. 2 is a diagrammatic fragmentary view of the power tong showing the side edge portion of the access door with the door latch removed and with the contact valve being in disengagement with the door which is partly open.

Referring to the drawings, and particularly, to FIG. 1, there is shown, for illustration purposes only, an open-head power tong, being generally indicated by the numeral 10, incorporating the principles of the present invention. The tong illustrated in FIG. 1 is of the type shown and described in U.S. Pat. No. 4,060,014, and thus, for the sake of brevity, since the tong itself forms no part of this invention, only a brief description of the tong will follow.

Briefly, as best seen in FIG. 1, the power tong 10 is comprised of a bifrucated frame structure 12 defining a central drill pipe receiving opening, and a side opening that communicates to the central opening for laterally passing a drill pipe therewithin. Rotatably supported within the frame structure 12 is a pipe engaging and gripping means that includes jaws 14 that swing into and out of the central opening for gripping and rotating a drill pipe disposed within the central opening during make-up and break-out operations of a drill string. The pipe engaging and gripping means with its associated jaws 14 are rotatably driven through a suitable drive train (not shown) by power means such as the hydraulic motor 16 which receives fluid under pressure from a suitable hydraulic pump (not shown) and through a hydraulic control valve 17. The valve 17 is conventional, being moveable between three spool positions; one position being such that the fluid drives the motor in a forward clockwise direction, another position being such that the hydraulic fluid drives the motor in a reverse counterclockwise direction, and the third position being a neutral position wherein fluid passes through the valve to the return line that returns the fluid to a reservoir (not shown) for recirculation thereof.

Also supported on the frame structure 12 is an access door 18, adapted to span or bridge the access opening defined between the bifrucated end portions so as to provide structural rigidity to the power tong 10, as well as, to protect the operator from the various moving components, such as the jaws 14. One end of the access door 18 is hinged to an end of one of the frame bifrucations by a pivot pin 20 whereas the free end of the door is provided with a self-latching arm 22 that engages a latch member 24 mounted on the other bifrucation so as to positively latch the door when it is closed. The door and the door latching mechanism are of the type shown and described in a pending U.S. application, bearing U.S. Ser. No. 791,752; filed Apr. 28, 1977; and entitled TONG LOCKING MECHANISM. The door and the latching mechanism forms no part of this invention and thus a further description will not be given.

To ensure that the tong 10 is only operated when the door 18 is closed, closing the access opening, the tong 10 is provided with an interlock mechanism which basically includes a contact valve 26, engageable by the door 18, and a hydraulic diverter valve 28, operably associated with the hydraulic motor 16 so as to permit flow of hydraulic fluid to the motor, or, in the alternative position, to bypass the flow of hydraulic fluid around the motor.

Now turning to FIG. 3 which schematically represents the various operating components as well as the hydraulic and pneumatic circuitry associated therewith, the operation of the door interlock will be further described. First, it should be noted that both the hydraulic source and the pneumatic source are fully operating with respective fluids being under pressure in inlet lines, the access door 18 being closed, engaged with the actuating arm of the contact valve 26, the piloted diverter valve 28 being detented so as to pass the flow of hydraulic fluid around the motor 16, and with the hydraulic spool control valve 17 being in its neutral position such that fluid passes directly therethrough to the reservoir tank via inlet line 34, passageway 36, return line 38. Thus, as the spool valve 17 is shifted to its forward drive position, hydraulic fluid passes from the inlet line 34, through passageway 40, to line 42, through passageway 44 (of diverter valve 28), to line 46 which directs fluid into the left-hand side of the motor 16, and then via lines 48,49 to passageway 50 of valve 18 which is internally connected to the hydraulic return line 38. If the spool valve 17 is shifted in an opposite direction so as to reverse the direction of the motor 16, fluid flows via line 34, through passageway 52 to line 49 and line 48 to the right side of the motor 16, and then returns via lines 46, passageway 44, line 42 to passageway 54 which is internally connected to return line 38. It can be thus seen that when pressure is applied on the diverter valve 28, it is so positioned to pass hydraulic fluid either to one or the other sides of the motor 16 to thereby drive the rotating components of the tong 10 in either forward or reverse directions depending on the forward or reverse positions of the control valve 17. However, when the pneumatic pressure is relieved from the diverter valve 28, the internal spring forces the valve to the right, thus changing the flow path of the hydraulic fluid so as to bypass the motor 16. In such pressure relief position of the diverter valve 28, the fluid flow path is via lines 49,58, passageway 56 and line 42, thereby bypassing the flow of fluid to the motor 16. Since the flow of fluid through line 46 is blocked, no fluid passes to the motor 16, thus rendering it inoperative.

It can be understood from the foregoing that the described interlock-mechanism controls the operation of the hydraulic motor 16, and thus the operation of the tong 10, in response to the open and closed positions of the access door 18, such that the tong 10 can only be operated with the access door 18 in its closed position, and thereby eliminating the possibility of structural damage to the tong from operating same with the door open, as well as, providing safety to the operator from exposure to the various operating components of the tong.

I am chairman of the board, president and chief executive officer of Eckel International, the largest global providers of innovative and high performance hydraulic power tongs for the oil and gas industry. I am a second-generation family member involved in manufacturing of tongs. In 1993, as Eckel’s president, I launched an initiative to further reach out to Russia’s oil & gas needs. Today, I am directly responsible for the overall operations of the company, sales, and new market initiatives.

Since 1958 Eckel has been supplying power tongs to the worlds O&G industries– but how long have you been doing business in Russia and what specific solutions do you offer to the region?

Eckel specializes in the development of hydraulic power tongs for make-up and break-out of tubulars, with over 60 years of tubular connection experience. Our industry leading technology advancements are in some respects, a reflection on the industry requirements and their needs. Eckel has been in the process of designing tongs that required very high torques, advanced safety features, and automation.

Eckel in-house heating provides quality tempered steel while observing strict industry standards. This process assures high quality and rugged durable parts within Eckel power tongs. Eckel has won a world-wide reputation of providing first-class products that deliver years of trouble free service. Our tongs have operated trouble free in the harsh cold conditions of Western and Eastern Siberia and in the Far Northern Regions. Eckel’s hydraulic power units have a proven track record in some of the harshest surroundings in Russia such as the extreme hot and cold conditions of Russian and offshore environments.

Eckel has provided more than 500 Hydraulic Power Tongs to oil and gas companies and drilling contractors in Russia. In Russia, as well as in many other countries, the use of Corrosion Resistant Alloys (CRA) chrome tubulars are becoming more popular. Eckel is an industry leader in this specialized field tubular connections offering a line CHROMEBOSS® tongs along with Eckel Non-Marking True Grit® dies. True Grit® Dies utilize Tungsten Carbide grit coating which provides many more points of contact on the surface of the tubular than standard Pyramid Fine Tooth dies provide. Penetration depth less than half the depth that is permissible by the American Petroleum Institute (API). Eckel’s True Grit® dies use a dense Tungsten Carbide coating that is a metal like substance which does not flake or sheer off the face of the die. Operational on-site tests have shown that the life time of Eckel True Grit® wrap-around dies is three times longer than competing abrasive powder coated dies. The above equipment and components have been working in Russia several years and proved its advantages.

The hydraulic power tong market is very competitive in Russia, with both local and international suppliers competing for business. Why should a drilling contractor or operator consider using Eckel equipment?

Eckel has over 60 years of experience in this area, and is known for quality and reliability. Many of these tong manufacturers use the old Foster and Hillman Kelly that are 30-year-old designs. Eckel is at the forefront of this industry designing tongs that can handle today’s premium high torque connections. Our tong designs evolved to incorporate additional safety features, automation, and performance. Our new 7.25 HSHT-80 Drill Pipe / Casing and 9-7/8 HS-60 Casing tongs incorporates many of these features.

Eckel has been the leader in development of tubular gripping such as the development of larger wrap-around type dies for many of its tong models. Depending on the application, Eckel offers a coarse tooth, pyramid fine tooth, and our proprietary True Grit dies. Dies are available as rig die style and for thinner wall tubulars where point loading is a concern we offer wrap-around dies. All Eckel equipment is produced at our Odessa, Texas USA manufacturing facilities (ISO 9001:2008 certified) that encompasses 140,663 square feet (13068 square meters) ensures the highest quality.

Coralina Engineering and Capital Equipment and Trading Corporation (CETCO) has operations in Azerbaijan, and their specialists are intensely involved in this territory. CETCO specialist are successfully making inroads in the Azerbaijan territory offering Eckel power tongs and power units. Additionally, CETCO provides training, classes, assistance, and local experience in all practical aspects of tong operation and maintenance. CETCO is very optimistic for doing business in Kazakhstan region. We are actively working in this region at improving our relationships with existing and new customers.

Eckel continues to improve tong designs, reliability, functionality, and reduce operational costs to comply with today’s oil and gas industry requirements, and anticipate tomorrows industry requirement. A few examples are:

• One of the latest design of a new backup with Wedge Drive Type Tri-Grip which is used on the most of tong models. The WD Tri-Grip is a high-performance backup with no compromises that is available for specific applications. The Wedge Drive Tri-Grip handles the most demanding torques that larger casing and drill pipes demand.

• A new 7.25 HS HT-80 tong, that was introduced in the last half of 2016 for drill pipes and high torque casing pipes. We believe the 7.25 HS HT-80 tong is an extremely needed product for the Russian market. We anticipate the specifications of the tong will be of great interest and welcome surprise for our customers.

• In 2017, Eckel will release a couple of new product designs. The new 9-7/8 HS-60 Casing Tong available the 1st Quarter of 2017 offers efficient and reliable high rotational performance for torque turn jobs. With these high torque ratings, the 9-7/8 HS-60 Casing Tong is capable of properly handling all premium grade tubulars within its size range.

Available in the 2nd Quarter of 2017, a new tong positioner “Tong Handler” that is permanently mounted within the rig which provides a cost effective, safer, and reduced labor-intensive method of maneuvering tongs to the rotary table area on the rig floor.

Russian is a very large and great country with lots of attention dedicated to the oil and gas industries onshore and offshore. Today’s challenge is to have equipment that meets the needs and requirements of oil and gas companies and drilling contractors. Since our first tong delivery in 1978 and now with the assistance of Capital Equipment and Trading Corporation and Coralina Engineering, we have developed a good relationship with many Russian customers and a growing list of new customers. Oil production is not so easy however; we believe that we can solve the most difficult problems facing the oil and gas industries. I have enjoyed visiting Russia many times for work and pleasure.