CN202415442U - Top driving mechanism for drill rod - Google Patents

Abstract

The utility model discloses a top driving mechanism for a drill rod, and belongs to the technical field of hydraulic coke cutting of delayed coking devices in the petroleum refining industry. The top driving mechanism comprises a gooseneck joint, a flushing pipe assembly, an output shaft and a power mechanism which is used for driving the output shaft to rotate; the output shaft has an integrated structure consisting of a shaft body and flanges; steps I are arranged on the outer circumferential surface of the output shaft positioned in a support bearing hole; a supporting ring is arranged on the end face of each step I; the output shaft is matched with each supporting ring through a key I; locking nuts are also arranged on the output shaft; the supporting rings are fixed on the end faces of the steps I by the locking nuts; a self-aligning thrust roller bearing is arranged on the lower part of each supporting ring; and the axial force of the output shaft is applied to a support through the locking nuts, the supporting rings and the self-aligning thrust roller bearings. The top driving mechanism is high in stability; the supporting mode of the output shaft is reasonable, so that the service life of top driving equipment is prolonged; and the top driving mechanism is convenient and fast to assemble and disassemble.

Description

A kind of top drive mechanism that is used for drilling rod

Technical field

The utility model belongs to refining of petroleum industry delayed coking unit waterpower and cuts burnt technical field, a kind of specifically top drive mechanism that is used for drilling rod.

Background technology

Delayed coking is a kind of Petroleum Processing Technology, is to be raw material with the BO, is warmed up to the pyrogenic reaction temperature rapidly through process furnace, gets into coke drum and carries out pyrogenic reaction.Heavy oil carries out the thermally splitting and the condensation reaction of the degree of depth, and the gas of producing, gasoline, diesel oil, wax oil are handled to downstream unit through pipeline, and the hundreds of ton coke of producing is stayed in the coke drum.Coke in the coke drum progressively is cooled to below 120 ℃ with steam, water; Open the upper and lower end socket lid of coke drum then; Remove the coke in the coke drum clean with hydraulic decoking equipment; Close the upper and lower end socket lid of coke drum again, get into next step production cycle again: oil-feed, reaction, cooling, decoking or the like.

Hydraulic decoking equipment generally includes: equipment such as drive on decoking water pump, valve, sebific duct, drilling rod top, drilling rod, decoking device, windlass, tackleblock.The decoking water pump produces the decoking water of certain energy, through valve, sebific duct, drilling rod top drive, drilling rod gets into decoking device, at last from the nozzle ejection of decoking device.Decoking device has boring, cuts burnt two groups of nozzles; When hydraulic decoking begins usually, use decoking device boring nozzle to spray decoking water downwards earlier, the coke drum center is got out the through hole of about 1 meter of a diameter; And then use decoking device to cut burnt nozzle to enlarge passage gradually to both sides level ejection decoking water; At the broken outflow coke drum of this process coke to Chu Jiaochi, the coke of this work in eliminating coke drum, decoking work just finishes.

There is swan neck to connect high-pressure rubber pipe on the drilling rod top drive apparatus; During decoking; Decoking water gets into the center flow channels on the top drive apparatus through high-pressure rubber pipe; Output shaft through the drilling rod top drive apparatus gets into drilling rod, decoking device then, and the output shaft of drilling rod top drive apparatus is provided with the gear of speed reduction unit, and motor drives the drilling rod rotation through gear reducing rear drive output shaft.

At present, hydraulic decoking is threaded with the drilling rod employing with the output shaft of drilling rod top drive apparatus, runs into the coke landslide sometimes in boring and buries decoking device; Take out decoking device need suitable repeatedly, be rotated counterclockwise drilling rod, output shaft is threaded with the drilling rod employing and becomes improper like this, makes thread looseness easily; A lot of users unclamp for preventing, adopt the method for welding locking, drive or bring during drilling rod difficulty but push up in the needs dismounting and change like this; Enterprise gradually adopts flange connection owing to this kind reason, and the top drive apparatus of available technology adopting flange jointed rod is mainly by following two kinds of structures: the output shaft structure of one of which, employing is a stepped tubular shaft small in ends broad in the middle, and this kind structure output shaft has following shortcoming; Need top drive apparatus be taken apart during installation; Not only comparatively loaded down with trivial details, and when taking a lot of work, labour intensity is high, maintenance simultaneously is unusual difficulty also; Secondly the supporting way owing to output shaft causes its axially loaded unreasonable, thereby makes the top drive apparatus spoilage high; Two, in the lower end of output shaft flange arrangement is set, drives the drilling rod rotation thereby directly export to flange arrangement through actuating unit, this output shaft is same because supporting way is unreasonable, and output shaft very easily damages, and often will overhaul top drive apparatus.

The utility model content

The purpose of the utility model is the deficiency for solving the problems of the technologies described above; A kind of top drive mechanism that is used for drilling rod is provided; This structural stability is high, and the output shaft supporting way rationally makes top drive apparatus obtain prolonging work-ing life, and easy installation and removal, quick.

The utility model is the deficiency that solves the problems of the technologies described above, and the technical scheme that is adopted is: a kind of top drive mechanism that is used for drilling rod comprises gooseneck connection, washing pipe assembly, output shaft, is used to drive actuating unit and the speed reduction unit formation that output shaft rotates; Gooseneck connection links to each other with high-pressure hydraulic pump through high-pressure rubber pipe, and the washing pipe assembly is connected between gooseneck connection and the output shaft output shaft is realized dynamic seal, and actuating unit is fixed on the shell of speed reduction unit; The output terminal of actuating unit links to each other with final stage gear on being arranged on output shaft through speed reduction unit, and speed reduction unit is fixedly installed on the support, on gooseneck connection, is fixed with the upper cover plate that is connected with hoisting appliance; Support is fixedly connected with upper cover plate, and the below that is positioned at support is provided with housing on output shaft, and housing is fixedly connected with support; Constitute the cavity that holds the final stage gear between housing and the support lower surface; Described output shaft is the integrative-structure that axle body and flange constitute, the hollow structure that its axle body is stepped, and flange is fixedly connected with drilling rod; The dead eye that support is passed in the upper end of axle body docks with the port sealing of washing pipe assembly; The output shaft outer circumference surface that is positioned at the bracket bearing hole is provided with the step I, and support ring is arranged on the end face of step I, is provided with keyway at the endoporus of support ring; Output shaft cooperates with support ring through the key I; On output shaft, also be provided with set nut, set nut is fixed to support ring on the end face of step I, is provided with self-aligning thrust roller bearing in the support ring bottom; Self-aligning thrust roller bearing is arranged in the bracket bearing hole; The axial force of output shaft is applied on the support through set nut, support ring and self-aligning thrust roller bearing, and the outer circumference surface of described support ring is provided with the step IV, and the transverse bearing I is arranged on the end face of step IV;

The final stage gear cooperates with output shaft through the key II, and the lower end that is positioned at the final stage gear is provided with the transverse bearing II at the dead eye of housing.

Be provided with oil deflector ring between the dead eye lower end of said support and the output shaft.

Described set nut is provided with locking screw, and the lower end of locking screw is stretched out and is against on the end face of support ring.

The beneficial effect of the utility model is:

In this equipment output shaft is designed to the stepped tubular shaft that the lower end is big, the upper end is little; Big end at output shaft is provided with flange; Flange is fixedly connected with drilling rod; This structure not only can realize connecting fast but also in the work engineering, can realizing the rotating of drilling rod, has improved the production efficiency of top drive apparatus greatly, this structure easy installation and removal simultaneously, quick.The dead eye and the washing pipe assembly sealed butt joint of secondly passing support at the small end of output shaft; Be positioned at the dead eye of support and on the outer circumference surface of output shaft, be provided with the step I; On the end face of step I, support ring is set; Cooperate through key between support ring and the output shaft,, set gradually set nut, self-aligning thrust roller bearing to prevent the appearance relative displacement between support ring and the output shaft; Make the axial force of output shaft be applied on the support through set nut, support ring and self-aligning thrust roller bearing; The utility model is adjusted above assembly and is arranged on the optimum position to cooperate this little structure in big upper end, output shaft lower end, makes that the stability of output shaft is higher under this structure, makes top drive apparatus obtain prolonging work-ing life.

Description of drawings

Fig. 1 is the structural representation of the utility model.

Fig. 2 is the partial enlarged drawing of output shaft part among Fig. 1.

Fig. 3 is the structural representation of output shaft.

Mark among the figure: 1, gooseneck connection, 101, upper cover plate, 2, the washing pipe assembly, 3, output shaft, 301, axle body, 302, flange; 303, step I, 304, the step II, 305, the step III, 4, actuating unit, 5, speed reduction unit; 6, support, 7, support ring, 701, the step IV, 702, the key I, 8, set nut; 9, locking screw, 10, the transverse bearing I, 11, self-aligning thrust roller bearing, 12, oil deflector ring, 13, the final stage gear; 14, transverse bearing II, 15, upper end cover, 16, lower end cover, 17, the key II, 18, housing.

Embodiment

As shown in the figure; A kind of top drive mechanism that is used for drilling rod comprises gooseneck connection 1, washing pipe assembly 2, output shaft 3, is used to drive actuating unit 4 and speed reduction unit 5 formations that output shaft rotates, and actuating unit can adopt actuators such as motor; Gooseneck connection 1 links to each other with high-pressure hydraulic pump through high-pressure rubber pipe; Washing pipe assembly 2 is connected between gooseneck connection 1 and the output shaft 3 output shaft is realized dynamic seal, and the washing pipe assembly is a prior art, and actuating unit 4 is fixed on the shell of speed reduction unit 5; The output terminal of actuating unit links to each other with final stage gear 13 on being arranged on output shaft 3 through speed reduction unit 5; The speed reduction unit lower end is fixedly installed on the support 6, on gooseneck connection 1, is fixed with the upper cover plate 101 that is connected with hoisting appliance, and support 6 upper ends are fixedly connected with upper cover plate 101; The below that is positioned at support 6 is provided with housing 18 on output shaft 3; Housing 18 circumference are fixedly connected with support 6 through bolt assembly, and hence one can see that gooseneck connection 1, washing pipe assembly 2, output shaft 3, actuating unit 4, speed reduction unit 5, support 6 and housing 18 composition integrative-structures drive above assembly upper and lower displacement through hoisting appliance; Constitute the cavity that holds final stage gear 13 between housing 18 and support 6 lower surfaces, can store lubricating fluid in this cavity and make final stage gear 13 be in better working order;

Described output shaft 3 is the integrative-structure of axle body 301 and flange 302 formations, and its axle body 301 is the stair-stepping hollow structure that the lower end is big, the upper end is little, and the lower end of axle body 301 is connected with flange 302; Flange 302 is fixedly connected with drilling rod, and the dead eye that support 6 is passed in the upper end of axle body 301 docks with the port sealing of washing pipe assembly 2, on the outer circumference surface of axle body 301, is provided with step I 303, step II 304 and step III 305 successively from small end to big end; Step I 303 is positioned at support 6 dead eyes; Support ring 7 is arranged on the end face of step I 303, is provided with keyway at the endoporus of support ring 7, and output shaft 3 cooperates with support ring 7 through key I 702; On output shaft 3, also be provided with set nut 8; Set nut 8 is fixed to support ring 7 on the end face of step I 302, on set nut 8, also is provided with locking screw 9, and the lower end of locking screw 9 is stretched out and is against on the end face of support ring 7; Be provided with self-aligning thrust roller bearing 11 in support ring 7 bottoms; Self-aligning thrust roller bearing 11 is arranged in the dead eye of support 6, and the axial force of output shaft is applied on the support 6 through set nut 8, support ring 7 and self-aligning thrust roller bearing 11, and support 6 shifts axial force to hoisting appliance through upper cover plate 101; The outer circumference surface of described support ring 7 is provided with step IV 701, and transverse bearing I 10 is arranged on the end face of step IV 701; Be provided with oil deflector ring 12 between the dead eye lower end of said support 6 and the output shaft, oil deflector ring 12 is arranged on the end face of step II 304, and the dead eye upper end is provided with upper end cover 15, is provided with oil sealing between the outer circumference surface of upper end cover 15 inner peripheral surfaces and support ring 7;

Final stage gear 13 cooperates with output shaft 3 through key II 17; Final stage gear 13 limits its axial displacement through step III 305, and therefore, the clutch end of actuating unit 4 is connected with final stage gear 13 through the gear pair in the speed reduction unit; Give output shaft with transmission of power; The lower end that is positioned at the final stage gear is provided with transverse bearing II 14 at the dead eye of housing 18, and the dead eye lower end of housing 18 is provided with lower end cover 16, is provided with oil sealing between the outer circumference surface of lower end cover 16 inner peripheral surfaces and output shaft 3; But described transverse bearing I 10 is the bearing of any bearing radial force with transverse bearing II 14, and for example deep groove ball bearing or the like all can.

On support 6 and housing 18, be equipped with oil hole, oil hole is connected with the dead eye of support 6 and housing 18 respectively.

Claims (3)

1. drilling rod top drive mechanism; Comprise gooseneck connection (1), washing pipe assembly (2), output shaft (3) and be used to drive the actuating unit (4) that output shaft rotates; Gooseneck connection (1) links to each other with high-pressure hydraulic pump through high-pressure rubber pipe; Washing pipe assembly (2) is connected between gooseneck connection (1) and the output shaft (3) output shaft is realized dynamic seal; The output terminal of actuating unit links to each other with final stage gear (13) on being arranged on output shaft (3) through speed reduction unit (5); On gooseneck connection (1), be fixed with the upper cover plate (101) that is connected with hoisting appliance, speed reduction unit upper housing (501) is fixedly connected with upper cover plate (101) through support (6), it is characterized in that: described output shaft (3) is the integrative-structure of axle body (301) and flange (302) formation; The stepped hollow structure of its axle body (301); Flange (302) is fixedly connected with drilling rod, and the dead eye that speed reduction unit upper housing (501) is passed in the upper end of axle body (301) docks with the port sealing of washing pipe assembly (2), and output shaft (3) outer circumference surface that is located in the speed reduction unit upper shell bearing hole is provided with step I (303); Support ring (7) is arranged on the end face of step I (303); Endoporus at support ring (7) is provided with keyway, and output shaft (3) cooperates with support ring (7) through key I (702), on output shaft (3), also is provided with set nut (8); Set nut (8) is fixed to support ring (7) on the end face of step I (302); Be provided with self-aligning thrust roller bearing (11) in support ring (7) bottom, self-aligning thrust roller bearing (11) is arranged in the dead eye of speed reduction unit upper housing, and the axial force of output shaft is applied on the speed reduction unit upper housing (501) through set nut (8), support ring (7) and self-aligning thrust roller bearing (11); The outer circumference surface of described support ring (7) is provided with step IV (701), and transverse bearing I (10) is arranged on the end face of step IV (701);

Final stage gear (13) is arranged in speed reduction unit (5) inner chamber and through key II (17) and cooperates with output shaft (3), and the lower end that is positioned at the final stage gear is provided with transverse bearing II (14) at the dead eye of speed reduction unit lower housing (502).

2. a kind of drilling rod top drive mechanism according to claim 1 is characterized in that: be provided with oil deflector ring (12) between the dead eye lower end of said speed reduction unit upper housing (501) and the output shaft (3).

3. a kind of drilling rod top drive mechanism according to claim 1 is characterized in that: described set nut (8) is provided with locking screw (9), and the lower end of locking screw (9) is stretched out and is against on the end face of support ring (7).

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