RU182227U1 - Drilling rig rotor torque sensor - Google Patents

Abstract

The utility model relates to the field of operation and maintenance of drilling rigs and is designed to control the torque of the rotary table on drilling rigs with a chain drive. The load-sensing torque sensor of the rotor of the drilling rig includes a metal base on which a primary transducer of non-electric quantities is fixed, connected to an electronics for data processing and a gear with a tooth pitch corresponding to the pitch of the links of the drive chain engaged with the gear teeth. According to a utility model, the gear is fixed with two spring elements symmetrically located on the sides of the gear wheel - springs. The axis of rotation of the gear wheel is fixed on the spring elements bent upward, and the free ends of the horizontal sections of the springs are rigidly fixed on the turntable interacting with the primary transducer through the traction finger. The technical result of the utility model is to increase reliability due to resistance to spasmodic starting loads and alternating loads at changing the direction of movement of the drive chain. 3 s.p. f-ly; 1 ill.

Description

The utility model relates to the field of operation and maintenance of drilling rigs and is designed to control the torque of the rotary table on drilling rigs with a chain drive.

 Drilling rig rotor torque control is an effective way to deal with accidents caused by drill pipe breaks. Breaks occur when critical moments occur that exceed the tensile strength of the material of the drill pipe due to jamming of the bit at the bottom, etc. reasons. At too high loads or too long operation of the cone bit on the face, the bearings of its bearings are often destroyed, leading to the failure of all equipment of the drilling rig.

 A known indicator of the rotor torque of a drilling rig (SU 1258988, Cl. ЕВВ 45/00, 1986), comprising a housing, a rotor shaft with two gear wheels, one of which is mounted on the drive shaft, and the other serves for its mechanical connection with the gear rotor shaft. The rotor shafts and the drive are aligned, and the housing is mounted on the shafts with the possibility of rotation and is connected with the power meter.

 However, due to the presence of an additional gear in the transmission chain, the design becomes more complicated and the efficiency of the equipment is reduced. In addition, the rotary housing often fails due to high loads during drilling operations, which affects the low operability of the device.

Known indicator of the rotor torque of the drilling rig (RU 2179632, CL. E21B 45/00, G01L 3/02, 2002), containing a rotary housing, input and output shafts, a gear transmission between input and output shafts and a power meter, on the one hand connected with a body with articulated rods, and on the other hand, directly with a fixed base. The input and output shafts are located at an angle of 90 ^{o to} each other, while the output shaft protrudes cantilever on both sides of the housing, rests on both sides of the bearings associated with a fixed base, and forms the axis of rotation of the housing, and the load meter is placed in a plane parallel to the input shaft.

A disadvantage of the known device is its low operational reliability.

The prototype of the utility model is the DVN vertical load sensor (RU 111649, Cl. G01L9 / 04, 2011), which includes a metal base on which elastic metal beams are rigidly fixed on one side, on which tensometric transducers of non-electrical quantities are glued. On the free ends of the elastic beams, an axis is mounted on the bearings, on which a gear wheel is installed with a tooth pitch corresponding to the pitch of the links of the drive chain with which it is operated and which are engaged with the chain. Based on the sensor, a housing is installed with an electronic board located in it for processing the signal from strain gauge transducers of non-electric quantities and transmitting data on the results of measuring the vertical load, including a microcontroller with a calculation program and memory

However, due to the rigid connections of the sensor with the platform during the operation of the rig, which is carried out under high loads and vibrations, it may break, leading to emergency situations. In addition, due to the rigid attachment of the sensor to the platform, its adjustment and preparation for work are complicated.

The problem of the utility model is the development of the torque sensor of the rig, with high operational reliability.

The technical result of the utility model is to increase reliability due to resistance to spasmodic starting loads and alternating loads when changing the direction of movement of the drive chain.

The stated problem and the technical result are achieved in that the load-sensing torque sensor of the rotor of the drilling rig includes a metal base on which a primary converter of non-electric quantities is fixed, connected to the electronics for data processing and a gear wheel with a tooth pitch corresponding to the pitch of the links of the drive chain included in gearing with gear teeth. According to a utility model, the gear is fixed with two spring elements symmetrically located on the sides of the gear wheel - springs. The axis of rotation of the gear wheel is fixed on the spring bent up elastic elements, and the free ends of the horizontal sections of the springs are rigidly fixed on the turntable interacting with the primary transducer through the traction pin.

To eliminate the failure of an expensive primary converter, the traction pin is made with a shear pin.

To ensure smooth adjustment and alignment of the sensor during commissioning, the metal base is equipped with a lifting mechanism made in the form of a movable carriage inside which rails are mounted with fingers installed in them. The carriage is connected by a rod with an adjusting screw.

The metal structure and the electronics unit for its power supply and data transmission via a digital communication line in the MicroLan standard are made in explosion-proof design.

The presence of elastic elements - springs, reduces the load of spasmodic hard shocks and sinusoidal vibrations from the circuit through the gear to the primary converter. The free ends of the elastic elements bent upward structurally provide for fixing the gear mechanism. Springs create the necessary spring effect to ensure smoothing of hard impacts on the primary transducer. The connection of the primary transducer with the gear via the traction pin creates favorable conditions for the transfer of force from the gear to the primary transducer, since the finger is a safety element designed to break when exceeding the maximum allowable loads.

The presence of a lifting mechanism in the metal base facilitates commissioning due to the fact that with the help of one adjusting screw it is possible to provide adjustment of the working position of the entire sensor, which greatly simplifies the process of preparing for work on the drilling rig.

A General view of the load cell torque sensor of the rotor of the drilling rig is shown in the drawing.

The load-sensing torque sensor of the rotor of the drilling rig is made in an explosion-proof version and includes a metal base 1, on which a strain gauge primary transducer 2 of non-electric quantities is fixed, connected for data processing to the electronics unit (not shown in Fig.) By cable 3. On the base 1, a gear is also fixed wheel 4 with a tooth pitch corresponding to the step of the links of the drive chain (not shown in FIG.), which engages with the teeth of the gear 4. The gear 4 is fixed to the base 1 using two elastic elements - springs 5 symmetrically located on the sides of the gear 4. The axis 6 of rotation of the gear 4 is fixed on the upwardly bent ends 7 of the elastic elements 5. The free ends of the horizontal sections of the elastic elements 5 springs are rigidly fixed on the turntable (in FIG. not shown) interacting with the primary transducer 2 through a pull pin 8 with a shear pin 9. A lifting mechanism is installed in the base cavity 1, including a movable carriage 10, inside of which there are guides 11 mounted therein fingers 12. The carriage 10 is connected rod 13 to the adjusting screw 14. The cable 3 is also used to power the electronics unit and data transmission over a digital communication line MicroLan standard.

The load cell torque sensor of the rotor of the drilling rig is designed to convert the applied force into a proportional electrical code and is used as a part of the geological and technological research station to measure the torque of the force on the rotor of the gearbox. The main area of its application is the measurement of the torque of a force, while the mechanical force arising in one of the links of the rotor drive is measured. Recalculation of the measured force in the torque of the force should be performed by:

- a local installation scheme at the place of operation, taking into account the characteristics (gear ratios of gearboxes of drives and equipment) of all transmission links between the measuring point and the rotor;

- calibration characteristic of the sensor taken at the place of use.

As transducers of force into a proportional electrical signal, strain gauge type 2 primary transducers are used.

The force-measuring torque sensor is used in geological and technological research stations (GTI) in drilling rigs with a circuit in the rotor drive. The torque is determined by measuring the change in the tension of the chain gear with a sensor, which is installed under the leading branch of the drive chain. The sensor is installed under the horizontal branch of the rotor chain drive. After installation, the chain is preloaded to create an angle of deviation of the chain from the horizontal position, which contributes to the emergence of efforts on the sensor in connection with the decomposition of the traction vector into a horizontal and vertical vector in the direction of the installed sensor.

The force exerted on the sensor is directly proportional to the preload angle of the chain or its vertical linear deviation.

Sensor setup - its calibration is carried out according to the testimony of the primary transducer and the reference load cell. The sensitivity of the sensor depends on the amount of preload circuit paired with the sensor.

The principle of operation of the sensor is to measure the tension force of the drive circuit by the primary strain gauge 2. The force exerted on the gear 4 is transmitted through the traction pin 8 to the strain gauge 2. When the torque on the rotor changes, the tension of the drive chain changes, as a result of which the load changes on the gear wheel 4, which with the help of elastic elements 5 acts on the converter 2. The analog signal of the sensor is received by the electronics unit and digitized for the far data transfer.

The force perceived by the transducer 2 is converted into a digital signal by the electronics unit. The output value of the sensor is the code of the analog-to-digital converter (ADC), which corresponds to the acting force. Via cable 3, the electronics unit is powered and data is transmitted over a digital communication line in the Micro Lan standard.

 To prevent damage to the primary transducer 2 when exceeding the maximum load on the sprocket, a shear pin is included in the accessory kit.

The sensor passed pilot tests at OJSC “SURGUTNEFTEGAZ”, OJSC Gazpromneft-Noyabrskneftegazgeofizika, as well as OJSC “Nizhnevartovskneftegeofizika”. Tests have shown high reliability, resistance to spasmodic starting and alternating loads when changing the direction of movement of the drive chain.

Claims (4)

1. The load cell torque sensor of the rotor of the drilling rig, including a metal base, on which is mounted a primary transducer of non-electric quantities, connected to the electronics for data processing, and a gear wheel with a tooth pitch corresponding to the pitch of the links of the drive chain engaged with the gear teeth characterized in that the gear wheel is fixed by means of two elastic elements symmetrically located on the sides of the gear wheel - springs, while the axis of rotation of the gear Olesa fastened on bent upward elastic springs elements, and the free ends of the horizontal sections of the springs are fixedly attached to the turntable cooperating with a primary converter through traction finger. 2. The load cell according to claim 1, characterized in that the traction pin is made with a shear pin. 3. The force sensor according to claim 1, characterized in that to ensure smooth adjustment and centering of the sensor during commissioning, the metal base is equipped with a lifting mechanism made in the form of a movable carriage, inside of which are mounted rails with fingers installed in them, with this carriage is connected by a rod with the adjusting screw. 4. The load cell according to claim 1, characterized in that the metal structure and the electronics for supplying and transmitting data via a digital communication line in the MicroLan standard are explosion-proof.

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