CN2147374Y - High-effect energy-saving rod oil suction machine - Google Patents
High-effect energy-saving rod oil suction machine Download PDFInfo
- Publication number
- CN2147374Y CN2147374Y CN 92245653 CN92245653U CN2147374Y CN 2147374 Y CN2147374 Y CN 2147374Y CN 92245653 CN92245653 CN 92245653 CN 92245653 U CN92245653 U CN 92245653U CN 2147374 Y CN2147374 Y CN 2147374Y
- Authority
- CN
- China
- Prior art keywords
- case
- hinged
- equilibrium block
- walking beam
- walking
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Images
Landscapes
- Transmission Devices (AREA)
Abstract
The utility model relates to a high-efficient energy-saving rod oil pumping machine used for an oil mine field. The high-efficient energy-saving rod oil pumping machine used for an oil mine field is mainly characterized in that a differential phase adjusting mechanism is adopted by the connection of a 2 omega crank and a main crank in a 2 omega crank balance device, a beam balance is a walking beam balance quality downwards moving device with a position adjusting mechanism or an automatic position adjusting mechanism, and the balance of the high-efficient energy-saving rod oil pumping machine used for an oil mine field can be optionally and manually adjusted, or is tracked and controlled by a computer. The high-efficient energy-saving rod oil pumping machine used for an oil mine field of the utility model has the advantages that the torque fluctuation of a speed reducer is small, the negative work of a power machine is eliminated, and electricity consumption and complete machine weight are all greatly lowered. Compared with the traditional walking beam oil pumping machine, the electricity saving and the material saving of the high-efficient energy-saving rod oil pumping machine used for an oil mine all can achieve 50%.
Description
The present invention relates to the walking beam lever oil pumping machine of oilfield.
The tradition beam-pumping unit is that maximum a kind of lever oil pumping machines is used in the oil field, has modern age its mutation-non-synchronous crank balance beam-pumping unit, back-crank pumping unit, air-balance beam-pumping unit and great circle formula pumping unit etc. to be adopted by the oil field in succession again.Their common trait, be that its movement converter is a kind of simple in structure, comprise the four hinge crank-rocker mechanisms that main crank 1, connecting rod 2, rocking bar (walking beam or pleasure boat) 3 and support (together with base) 4 are formed, can be referred to as four hinge crankrocker mechanism walking beam (pleasure boat) pumping units.Because movement converter is simple in structure, the motion converter loss of this class lever oil pumping machine is less, and reliable in structure is easily manufactured, safeguards simply, and is durable in use, can adapt to the rugged environment in various oil fields, and these all are the advantages that can't negate.Therefore, since the history of starting the motor-pumped well oil pumping, this class lever oil pumping machine just is used, up to still have comparative advantage at present (91-92% that accounts for whole pumping unit sums).In decades, although advanced technology countries such as America and Europe once developed multiple new pumping unit, all can not be replaced.
Four hinge crankrocker mechanism walking beam (wheel) pumping unit major defects have two: (1) torque ripple is big, and negative torque is arranged, power consumption; (2) heaviness expends steel.
Obtained national inventing patent two-stage balance bar beam-punping unit (application number 88107522, authorize day: on June 24th, 1992), not only economize on electricity because of elimination negative torque, reduction torque ripple amplitude, and reduce complete machine weight significantly, can say so and on the basis that keeps four hinge crankrocker mechanism walking beam (wheel) pumping unit advantages, eliminate its shortcoming effectively.But it does not solve the problem of adjustment at random, thereby two-stage balanced effect can not be given full play to.
Task of the present invention is to create a kind of two-stage balance bar beam-punping unit of adjustment function at random that has, and compares with above-mentioned two-stage balance bar beam-punping unit patented technology, and its energy-saving effect is more remarkable, and complete machine weight is littler, and can implement computer and follow the tracks of regulation and control.
This invention task is to be realized by the technological scheme of high-efficient energy-saving lever oil pumping machine.This technological scheme, be on the basis of two-stage balance bar beam-punping unit patented technology, being improved and widen, mainly is to have set up the moving device and the beam balance device of transposing certainly under 2 ω crank balance devices of regulating at random and the beam balance quality of the regulating at random:
The described 2 ω crank balance devices of regulating at random, be characterised in that and 2 ω cranks and connecting of main crank adopted differential phase modulating mechanism: referring to Fig. 2,2 ω crank gears, 17 kinks that are connected as a single entity with 2 ω cranks 14 are on reduction unit output shaft 13, this gear is with planetary plate 20 on its coaxial external cylindrical surface, and the planetary pinion 18(18 of hinge in the planetary plate hole that live together can be a gear, also can be two coaxial gears) be meshed, 18 again with 19 engagements of main crank gear, 19 is internal gears, also external gear, it all is enclosed within on the reduction unit output shaft 13 concrete mutually with it by its center cylindrical hole, and has an external cylindrical surface to join with planetary plate 20 pines.In addition, the planetary plate that also is being connected on the planetary plate 20 is 21, and it directly or by a regulating and controlling mechanism and pumping unit support 4 is located.When regulating and controlling mechanism is in when determining the position, said differential attachment becomes a fixed shaft gear train, select each gear number of teeth to make in this fixed shaft gear train the 2 ω crank gears 17 and the absolute value of main crank gear 19 speed ratios equal 2, just can reach main crank one commentaries on classics, the requirement of 2 ω cranks, two commentaries on classics; The position of modulation regulating and controlling mechanism because of more differential action 2 ω cranks will change or change less an angle, can reach the purpose of modulation 2 ω crank phases again.
Moving device under the described beam balance quality of regulating at random, be characterised in that: following inclined to one side balancing mass is made up of main balancing mass and secondary balancing mass.Major and minor balancing mass all can adopt block structure, is called main equilibrium block, secondary equilibrium block; Also case structure be can adopt, main tandem-driving bogie, secondary tandem-driving bogie are called.Major and minor tandem-driving bogie is to be welded into casing with steel plate and angle steel, filling steel scrap ball, scrap iron sand, iron and steel slag, pig, stone and cement in the case.The upper inside wall of main equilibrium block/case 41 also constitutes a slideway, and secondary equilibrium block/case 39 is joined with main equilibrium block/case cunning or is shelved on the angle iron frame 42 that is connected with this chute surface along this slideway.And main equilibrium block/case 41 or be connected with walking beam 3, slidingly join, hinged or cut with scissors with 2-3 isometric suspension rod 76,77 and to be hung on the walking beam.Major and minor equilibrium block/case is provided with positioner, or is provided with from transposing mechanism, the control positioner or the mechanism that transposes certainly, and the position of the major and minor equilibrium block/case of may command on walking beam reaches the purpose of adjustment.
Described from transposing the beam balance device, its traditional beam balance quality adopts bulk or case structure equally, be called traditional walking-beam counterweight/case 103, it or be enclosed within on the walking beam or place walking beam top and join with the walking beam cunning, a kind of mechanism that transposes certainly is set to be connected traditional walking-beam counterweight/case with pumping unit support 4, in the pumping unit running, tradition walking-beam counterweight/case is by the position of rule change on walking beam, remove the one-level balance external, also have and the beam balance quality moves down the secondary balanced action of equal effect; It also can place the inner chamber of " II " tee section walking beam, and has the positioner of regulating at random, plays the auxiliary balance effect.
In described various Equilibrators, the work of all control phase modulating mechanisms and positioner is all carried out in the pumping unit running, available handwheel control, and the available step motor driving, also available microcomputer is followed the tracks of control, therefore can expect to obtain the optimum balance effect.
To sum up, the technological scheme of high-efficient energy-saving lever oil pumping machine can followingly be described:
A kind of high-efficient energy-saving lever oil pumping machine that is used for oilfield mainly comprises:
A power engine;
A speed reducer;
One cover drives the belt driver of speed reducer for power engine;
One cover is changed to the rotation motion of reduction unit output shaft 13 on the polished rod, straight-line down, by main crank 1, connecting rod 2, the four hinge crank-rocker mechanisms that walking beam or pleasure boat 3 and bracket base 4 are formed, wherein main crank 1 is packed in the termination of the reduction unit output shaft 13 that is fixedly connected with bracket base 4, walking beam or pleasure boat 3 are hinged by beam travelling supporting 7 with cantilever tip, and can in vertical guide, swing around the axle of this supporting, one end and the main crank 1 of connecting rod 2 are hinged, the other end by crossbeam 6 or directly and walking beam or pleasure boat 3 depart from the position of oscillation center hinged at it;
One cover walking beam one horse head device or pleasure boat device, and rope suspension apparatus;
One cover one-level Equilibrator comprises: crank balance or non-synchronous crank balance, traditional beam balance, combined balance system or additional horse head suspending weight balance or air-balance that the two has both;
Moving device under one cover 2 ω crank balance devices and/or the cover beam balance quality;
It is characterized in that: 2 ω cranks adopt differential phase modulating mechanism with connecting of main crank in the described 2 ω crank balance devices, moving device is a moving device under a kind of balancing mass that has a positioner under the described beam balance quality, and described traditional beam balance adopts a kind of from transposing the beam balance device.
Owing to be provided with the phase modulating mechanism of modulation 2 ω crank balance phase places at random, the modulation walking beam moves down the mechanism of positioning certainly of positioner and traditional beam balance of balancing mass position at random, high-efficient energy-saving lever oil pumping machine of the present invention can be worked under the optimum balance state, can guarantee to eliminate the power engine negative work, energy saving is remarkable, compare with existing advanced beam-pumping unit, economize on electricity reaches 50%.Because the speed reducer change in torque is mild, can prolong its working life and reduce its physical dimension, to compare with same model tradition beam-pumping unit, speed reducer can reduce by two models.Structural design shows, pumping unit weight of the present invention can reduce significantly, a suspending point loading 12
Tf, stroke 6
mPumping unit of the present invention, complete machine quality only 18
t, also lighter than gas beam-balanced pumping unit, to compare with similar beam-pumping unit, material-saving reaches 50%.
The invention provides numerous embodiments, be described further by following embodiment and accompanying drawing.
Fig. 1 is embodiment one a structural representation.
Fig. 2 is a kind of structural representation of differential phase modulating mechanism.
Fig. 3 is one of planetary plate regulating and controlling mechanism scheme.
Fig. 4 is two of a planetary plate regulating and controlling mechanism scheme.
Fig. 5 is three of a planetary plate regulating and controlling mechanism scheme.
Fig. 6 is four of a planetary plate regulating and controlling mechanism scheme.
Fig. 7 is embodiment two a structural representation.
Fig. 8 is embodiment three a structural representation.
Fig. 9 is embodiment four a structural representation.
Figure 10 is embodiment five a structural representation.
Figure 11 is embodiment six a structural representation.
Figure 12 is embodiment seven a structural representation.
Figure 13 is embodiment eight a structural representation.
Figure 14 is embodiment nine a structural representation.
Figure 15 is embodiment ten a structural representation.
Figure 16 is embodiment 11 a structural representation.
Figure 17 is embodiment 12 a structural representation.
Figure 18 is embodiment 13 a structural representation.
Among the figure: the 1-main crank; The 2-connecting rod; 3-rocking bar (walking beam, pleasure boat); 4-support, base; The 5-horse head; The 6-crossbeam; 7-support top-supported (beam travelling supporting); 8-speed reducer, speed reducer; 9-speed reducer input shaft; The 10-belt driver; The 11-power engine; The 12-brake; The 13-reduction unit output shaft; 14-2 ω crank; The 15-adjustment sleeve; The 16-key; 17-2 ω crank gear; The 18-planetary pinion; 19-main crank gear; The 20-planetary plate; 21-planetary plate handle; The 22-connecting rod; The 23-nut slider; The 24-screw rod; The bearing of 25-band slideway; The 26-handwheel; The 27-roller; 28-has the retarder (as worm speed reducer, planetary reducer) of retrograde self-locking property; The 29-worm gear; The output shaft of 30-retarder 28, worm-wheel shaft; The 31-rocking bar; The 32-worm screw; The 33-handwheel; 34-cylinder fluid cylinder; The 35-plunger; The 36-piston rod; The 37-liquid pump; The 38-three-position four-way valve; The secondary balancing mass (secondary equilibrium block, secondary tandem-driving bogie) of 39-; The 40-balancing stand; 41-master's balancing mass (main equilibrium block, main tandem-driving bogie); The 42-angle iron frame; 43-has the retarder (worm speed reducer, planetary reducer) of retrograde self-locking property; The 44-worm gear; The 45-worm screw; The 46-handwheel; The output shaft of 47-retarder 43; The 48-reel; The 49-static pulley; 50-rope band (wire rope, band, chain); The 51-equalizer pulley; The 52-movable pulley; 53-suspension hook, suspension ring (peg device); 54-tandem-driving bogie suspension rod; The 55-bolt; The 56-bolt; 57-upper saw pulley (pulley, sprocket wheel); The 58-axle; The 59-screw rod; The 60-nut; The 61-bearing; The 62-handwheel; 63-cylinder fluid cylinder; The 64-plunger; The 65-piston rod; The 66-three-position four-way valve; 67-liquid pipe; The 68-liquid pump; The 69-connecting rod; 70-and the fixed crank of retarder 71 output shafts; 71-has the retarder (worm speed reducer or planetary reducer) of retrograde self-locking property; The 72-worm gear; The 73-reducer output shaft; 74-worm screw, reducer input shaft; The 75-handwheel; The 76-suspension rod; The 77-suspension rod; The right upper saw pulley of 78-; The 79-bearing support; The 80-reel; The 81-upper saw pulley; The 82-upper saw pulley; The 83-wire rope; The 84-worm gear; The 85-reducer input shaft; The 86-handwheel; The 87-wire rope; 88-is contained in the upper saw pulley on main equilibrium block/case; 89-upper saw pulley bearing; The 90-Idle wheel; 91-eye screw rod; The 92-tensioning nut; The 93-connecting plate; The cam path of 94-cam control panel; The 95-roller; 96-cam control panel; The 97-bearing; 98-Idle wheel (pulley, belt wheel or sprocket wheel); 99-rope band (wire rope, band or chain); The 100-bearing of transposing; The 101-screw rod of transposing; 102-off-load support; 103-tradition walking-beam counterweight/case; 104-walking beam lower wing plate; 105-walking beam upper flange; 106-pull bar, rope band; The 107-wheel; The 108-bearing; The 109-nut of transposing; The 110-screw rod of transposing; The 111-nut slider; The 112-screw rod of transposing.
Embodiment one, referring to Fig. 1.This is a kind of typical module of high-efficient energy-saving lever oil pumping machine.Its basic structure is identical with existing beam-pumping unit, promptly by a power engine 11, after belt driver 10 and speed reducer 8 decelerations, drive two main cranks, 1 rotation that is contained in reduction unit output shaft 13 two ends respectively, main crank drives walking beam 3 by connecting rod 2 again and is contained in horse head 5 upper and lower the waving of walking beam front end, walking beam 3 is hinged on the support 4 by beam travelling supporting 7, and power engine and speed reducer then are fixed on the base of support 4.Seeing over against the horse head working surface, except that power engine, belt driver and braking device, is symmetrical structure about whole pumping unit.
In the present embodiment, 2 ω crank balance devices adopt the structure of 2 ω crank hammers.Wherein 2 ω cranks 14 adopt differential phase modulating mechanism (referring to Fig. 2 and above stated specification) with connecting of main crank 1, and the regulating and controlling mechanism of planetary plate 20 positions can be realized with multiple scheme in the differential phase modulating mechanism:
Referring to Fig. 3, regulating and controlling mechanism is a kind of screw-and-nut slide block-slotted link mechanism: be hinged with screw rod 24 on the bearing 25 of the band slideway that is connected as a single entity with pumping unit support 4, join with the slideway cunning of 24 nuts that screw 23 and 25, the other end and the planetary plate of articulated connecting rod 22,22 is hinged 21 on 23.Rotating screw bolt 24, nut slider 23 upper and lower moving, it drives rocking bar by connecting rod 22 is that planetary plate is swung 21 around reduction unit output shaft 13 together with planetary plate 20.
Referring to Fig. 4, regulating and controlling mechanism is another kind of screw-and-nut slide block-slotted link mechanism, and it is with the difference of Fig. 3: cancellation connecting rod 22, use roller 27 instead, and this roller is hinged with nut slider 23, and is stuck in planetary plate in 21 the groove.
Referring to Fig. 5, regulating and controlling mechanism is a kind of retarder-double rocker mechanism: the retarder (worm speed reducer, planetary reducer) 28 with retrograde self-locking property, be connected on the pumping unit support 4 with bolt, be fixed with rocking bar 31 on the overhanging end of its output shaft 30, the other end and the planetary plate of the articulated connecting rod 22,22 of the other end of rocking bar 31 are hinged 21.Also connecting rod 22 can be changed into and be stuck in planetary plate a roller in 21 grooves, this roller is hinged with the outer end of rocking bar 31.
Referring to Fig. 6, regulating and controlling mechanism is a kind of liquid pump-fluid cylinder-slotted link mechanism: cylinder fluid cylinder 34 is connected on the pumping unit support 4, its interior cylinder cylinder is divided into two sap cavities by piston 35, liquid pump 37 is connected in series two sap cavities mutually by a three-position four-way valve 38 and liquid pipe, and articulated connecting rod 22 on the external part of the piston rod 36 that is connected with piston, 22 the other end and planetary plate are hinged 21, a perhaps articulated roller on the external part of piston rod 36, and this roller is stuck in planetary plate in 21 the groove.Three-position four-way valve has three positions, and position pumps into epicoele (shown position) with the liquid of fluid cylinder cavity of resorption by liquid pump 37, and piston 35 is descending, drives planetary plate the contra solem is rotated; Another position then pumps into cavity of resorption (three-position four-way valve turns over 90 °) with the liquid of fluid cylinder epicoele by liquid pump 37, and piston 35 is up, drives planetary plate rotating along clockwise; The 3rd is the neutral position, and fluid cylinder epicoele and cavity of resorption are sealed mutually, and piston 35 and planetary plate are transfixions all.Because upper and lower sap cavity sectional area difference (difference is the piston rod sectional area), can be at regulator solution case of cylinder fluid cylinder top configuration, this liquid case connects with the fluid cylinder epicoele with two one-way valves of reverse parallel connection, one is the fluid infusion one-way valve, pressure is less, can replenish necessary liquid from the regulator solution case to fluid cylinder at any time, and one is the drainage one-way valve, must reach design pressure by epicoele, the liquid in the chamber just can leak into the regulator solution case.
In the present embodiment, the positioning balancing mass moves down structure and adopts main tandem-driving bogie 41 to be connected with walking beam 3, the scheme that secondary tandem-driving bogie 39 slides in main tandem-driving bogie: two be "
" shape and "
" balancing stand 40 and the walking beam of shape be connected as a single entity, 40 bottom and main tandem-driving bogie 41 are fixed, constitute a kind of main tandem-driving bogie structure with slideway, and secondary tandem-driving bogie 39 places between the chute surface of balancing stand 40 and joins with main tandem-driving bogie cunning.This being "
" in the main tandem-driving bogie structure of shape, major and minor tandem-driving bogie also can be used major and minor balance block structure instead.
Secondary equilibrium block/case rackwork adopts common hoisting apparatus--suspension hook/ring-sheave block-roll device: static pulley 49 kinks are on spool shaft, spool shaft be distributed in two ends one for left-handed one for two reels 48 of dextrorotation be connected as a single entity hinged on walking beam by bearing support, and by transmission shaft or directly connect with a output shaft with retarder (worm speed reducer, planetary reducer) 43 of retrograde self-locking property.Suspension hook/ring hangs with secondary equilibrium block/case 39 and connects, and is enclosed within on the movable pulley axle, and wire rope 50 is walked around equalizer pulley 51, movable pulley 52 and static pulley 49 and entered reel 48.The input shaft of retarder 43 is equipped with handwheel 46, rotates handwheel, orders about reel 48 rotations by retarder 43, but with regard to the position of the secondary equilibrium block/case 39 of modulation in main equilibrium block/case 41.
Embodiment two.Referring to Fig. 7, present embodiment and embodiment's one difference is:
(1) secondary equilibrium block/case rackwork changes employing suspension hook/ring-leading block-roll device into: the suspension hook that directly links to each other with rope band 50/ring 53 hangs with secondary equilibrium block/case and connects, rope band 50 is walked around static pulley 57 and is entered reel 48, and the then same output shaft with retarder (worm speed reducer or planetary reducer) 43 of retrograde self-locking property of the spool shaft of this reel links.
(2) main equilibrium block/case 41 can be along the walking beam longitudinal sliding motion, and with the positioning of screw rod, nut body: nut 60 is solidified as a whole with walking beam, the head of screw rod 59 withstands on the end face of main equilibrium block/case 41, this screw-and-nut mechanism is exactly the jackscrew of using always, respectively is provided with one at main equilibrium block/case two ends.
Embodiment three.Referring to Fig. 8, it and embodiment's one difference, be to have cancelled secondary equilibrium block/case 39, main equilibrium block/case positioner adopts a kind of screw-and-nut mechanism: nut 60 is hinged on the walking beam by bearing 61, and it is hinged with main equilibrium block/case 41 that screw rod 59 passes nut 60; The extension that nut 60 makes progress is equipped with handwheel 62, because nut can only be around self axis revolution, rotation hand wheel can order about main equilibrium block/case 41 upper and lower moving in the vertical slideway of walking beam 3.
In this programme, screw rod 59 also can be fixed with main equilibrium block/case.
In this programme, with main equilibrium block/case 41 sliding walking beam slideways of joining, also can or a tilt angle parallel with walking beam.
Embodiment four.Referring to Fig. 9, it and embodiment's three difference is that main equilibrium block/case positioner changes into and adopts a kind of liquid pump-fluid cylinder-linkage mechanism: cylinder fluid cylinder 63 is connected on the walking beam, its interior cylinder cylinder is divided into two sap cavities by plunger 64, liquid pump 68 is connected in series these two sap cavities mutually by a three-position four-way valve 66 and liquid pipe 67, and the external part and the main equilibrium block/case 41 of the piston rod 65 that is connected with piston are hinged.In this programme, with main equilibrium block/case 41 sliding walking beam slideways of joining, also can or a tilt angle parallel with walking beam.Main equilibrium block/case is also can be with walking beam hinged or be hung on the walking beam with two isometric suspension rods, 76,77 hinges, in the at this moment described positioner connecting rod 69 will be set, and connecting rod 69 two ends are hinged with piston rod 65 and main equilibrium block/case 41 respectively.The working principle of this rackwork is identical with the liquid pump-fluid cylinder-slotted link mechanism of Fig. 6 signal.
Embodiment five.Referring to Figure 10, it is that with embodiment three difference walking beam 3 is parallel with walking beam with main equilibrium block/case 41 sliding slideways of joining, and this slideway is exactly the lower wing plate 104 of walking beam; The concrete structure of described screw-and-nut positioner is: nut 60 is connected on the walking beam, and screw rod 59 is hinged by the supporting at its two ends with main equilibrium block/case 41.
Embodiment six.Referring to Figure 11, it and embodiment two have 2 differences:
(1) main equilibrium block/case 41 is hinged by bearing support with walking beam 3;
(2) in the described screw-and-nut positioner, screw rod 59 is hinged with walking beam, and nut 60 is joined with the walking beam cunning after penetrating screw rod, and connecting rod 69 is set, and its two ends are hinged with nut 60 and main equilibrium block/case 41 respectively.
In this programme, main equilibrium block/case 41 can change into two isometric suspension rod 76,77 hinges and being hung on the walking beam 3.Main equilibrium block/case 41 also can change into and 3 sliding joining of walking beam, at this moment in the described screw-and-nut positioner, connecting rod 69 two ends can be hinged with nut 60 and main equilibrium block/case 41, also can be connected by the hinged end of an end, perhaps two ends all are connected: it is equivalent to extend a rigid rod/plate on main equilibrium block/case and nut 60 is connected as a single entity, and at this moment nut 60 and the cunning of walking beam 3 are joined and can be cancelled and joined with the cunning of walking beam 3 by main equilibrium block/case 41 and to guarantee.
Described positioner also can adopt twin-screw-nut body: screw rod 59 has two, and one is left-handed one for dextrorotation, and hinged with walking beam 3 and main equilibrium block/case 41 respectively, an end is that the nut that a left-handed end is dextrorotation connects together them.
Embodiment seven.Referring to Figure 12, present embodiment has three characteristics:
(1) main equilibrium block/case 41 waits stocks 76 and 77 hinges to be hung on the walking beam 3 (76,77 two ends are hinged with walking beam 3, main equilibrium block/case 41 respectively, constitute one four hinge parallelogram motion chain) by two;
(2) secondary equilibrium block/case 39 is shelved on on the fixed angle iron frame 42 of main equilibrium block/case 41 inwall slideways, and this angle iron frame has 2-3 right, is used for the position of the secondary equilibrium block/case of modulation in main equilibrium block/case;
(3) main equilibrium block/case rackwork adopts retarder one crank mechanism: a kind of retarder (worm speed reducer or planetary reducer) 71 with retrograde self-locking property is packed on the walking beam 3, be fixed with crank 70 on its output shaft 73, connecting rod 69 is set, its end is hinged with crank 70, the other end is hinged with main equilibrium block/case 41, manipulation is assemblied in the handwheel 75 on the reducer input shaft, can pass through that retarder 71, crank 70, connecting rod 69 drives main equilibrium block/casees and modulation it with the relative position of walking beam 3.
Main equilibrium block/case positioner in this programme also can be used on main equilibrium block/case and joins or hinged occasion with the walking beam cunning.
Embodiment eight.Referring to Figure 13, present embodiment has two characteristics:
(1) main equilibrium block/case is slided with walking beam 3 and is joined, and the slideway on the walking beam is exactly its upper flange 105.
(2) main equilibrium block/case positioner adopts retarder-reel, pulley tensioning mechanism: a retarder 71 with retrograde self-locking property, be packed in together on the walking beam 3 with reel 80, the output shaft and the spool shaft of retarder link by coupling, walking around hinged upper saw pulley 81 on walking beam around the wire rope 87 of reel right part connects with the right-hand member of main equilibrium block/case, walk around hinged upper saw pulley 82 on walking beam around the wire rope 83 of reel left part, right upper saw pulley 78 and hinged Idle wheel 90 at beam travelling tail end connect with the left end of main equilibrium block/case, Idle wheel 90 is assemblied in the hole of eye screw rod 91 by its axle, the eye screw rod passes the hole of walking beam afterbody end plate, and tensioning nut 92 is housed, twist tensioning nut, two strand steel wire ropes of drawing from reel 80 just are stretched in main equilibrium block/case on the walking beam 3.Handle the handwheel that connects with reducer input shaft, rotate by ordering about reel 80 behind the retarder reduction of speed, put from two strand steel wire ropes, one receipts one that reel is drawn, and the retractable equal in length, thereby both ordered about main equilibrium block/case and moved positioning, kept its tensioning state on walking beam again along the walking beam slideway.
In this programme, main equilibrium block/case also can change into the vertical slideway or the tilted slideway cunning of walking beam 3 joins, and also can change into hinged or be hung on the walking beam with stock hinges such as two with walking beam.
Among the embodiment one (Fig. 1), be arranged on traditional walking-beam counterweight/case 103 of joining with the walking beam cunning in " II " tee section walking beam inner chamber, its positioner also is that retarder-reel, pulley tensioning mechanism and present embodiment are just the same.Because can transpose at random, traditional here walking-beam counterweight/case 103 will be a kind of effective auxiliary balance device.
Embodiment nine.Referring to Figure 14, present embodiment is characterised in that: main equilibrium block/case is joined with the walking beam cunning and (also can be changed into walking beam hinged, or be hung on the walking beam) with stock hinges such as two, it has a kind of from transposing mechanism-cam control panel mechanism: a kind of cam control panel 96 is connected on the pumping unit support 4, fixed connecting plate 93 on main equilibrium block/case, be hinged with roller 95 on the connecting plate, this roller is stuck in the cam path 94 of cam control panel, because the shape of cam path has diversity, can be designed to optimum shape according to oil well condition, the position of the main equilibrium block/case of control changes by best rule in oil pumping process, reaches the purpose of optimum balance.
Embodiment ten.Referring to Figure 15, it is compared with embodiment nine, be characterised in that from the mechanism that transposes and change a kind of rope band control mechanism of employing into: rope band (wire rope, band or chain) 99 two ends are hinged with walking beam 3 and main equilibrium block/case 41 respectively, and be stretched in the Idle wheel (pulley hinged with pumping unit support 4, belt wheel or sprocket wheel) on 98, because of the length overall of rope band 99 is invariants, and the rope band length of being cut apart by pulley 98 during the walking beam diverse location will change by rule, thereby force the relative position of main equilibrium block/case 41 by design rule modulation it and walking beam, preferred rope band length, rope band can make pumping unit work under the optimum balance state with the position of walking beam and main equilibrium block/case articulating point.There is appreciable impact the position of Idle wheel 98 on the pumping unit support to the balance of well pumping unit state, and it can make the positioning structure makes pumping unit realize adjustment at random.
Another feature of present embodiment, be that described walking beam 3 is curved walking beams that a kind of center line is " ∧ " shape, and can be at the two ends of curved walking beam with the bolt off-load support 102 that is connected, this curved walking beam structure has 2 benefits: (1) can alleviate the weight and the rotary inertia of walking beam system; (2) slide along walking beam " II " shape inner chamber, and be enclosed within or place traditional walking-beam counterweight/case 103 of joining with the walking beam cunning on the walking beam, become a kind of walking beam and move down balancing mass and its counterbalance effect that is greatly improved, the said embodiment of the present patent application all can change into and adopt this curved walking beam structure.
Embodiment 11.Referring to Figure 16, it and embodiment nine have 2 differences:
(1) mechanism that transposes certainly changes into and adopts a kind of drag link mechanism: a push-and-pull rod 106 is set replaces cam control panel 96, this pull bar one end with main equilibrium block/case 41 directly or hinged by the connecting plate 93 that fuses with it, the other end is hinged with bearing 108, and bearing 108 is fixed on the pumping unit support 4; The cam path 94 of cam control panel can replace with a circular arc is approximate, the radius of getting this approximate circular arc is the length of pull bar 106, the center of bearing 108 with should approximate center of arc coincide, the self-regulated bit function of described drag link mechanism will be similar with the said cam control panel of embodiment nine mechanism.The position of bearing 108 is most important to counterbalance effect, can adopt screw-and-nut positioning structure: positioning nut 109 is connected with pumping unit support 4, positioning screw rod 110 withstands on or colludes on bearing 108, also can adopt the screw-and-nut positioning structure of supporting 108 among the embodiment 12, or both dual-purposes.
(2) main equilibrium block/case 41 is enclosed within on the walking beam 3, the sliding with it slideway walking beam upper flange 105(that joins of walking beam 3 also can be a lower wing plate 104), and, said cunning is joined the employing car wheel structure: trundle 107 is housed on main equilibrium block/case, and this trundle is at walking beam upper flange 105(or lower wing plate 104) go up and roll.
The wheel rolling structure that the said main equilibrium block/case 41 of this programme is joined with the walking beam cunning is applicable to the whole sliding distribution structure in the embodiment of the invention.That is: in the sliding distribution structure of the sliding distribution structure of main equilibrium block/case 41, traditional walking-beam counterweight/case 103 and walking beam 3 and secondary equilibrium block/case 39 and main equilibrium block/case 41, be hinged with trundle 107 on main equilibrium block/case 41, secondary equilibrium block/case 39 and the traditional walking-beam counterweight/case 103, this trundle is bearing on the chute surface of said sliding distribution structure.
Embodiment 12.Referring to Figure 17, present embodiment is compared with embodiment 11, and 3 differences are arranged:
(1) adopted curved walking beam;
(2) pull bar 106 is a kind of flexible draw bars, can adopt wire rope, also can adopt steel band or chain.
(3) have screw-and-nut positioning structure on the bearing 108 that is connected with pumping unit support 4: be shaped on chute on the bearing, the nut slider 111 that screws with positioning screw rod 112 is placed in one, this nut slider and flexible draw bar 106 are hinged, and the other end of pull bar and main equilibrium block/case are hinged; Also can change into and adopt embodiment's 11 said screw-and-nut positioners, or both dual-purposes.
(1) adopting rear-mounted scheme, is a kind of rear-mounted high-efficient energy-saving lever oil pumping machine.
(2) main equilibrium block/case is in the drag link mechanism of transposing, pull bar 106 1 ends direct (also can pass through connecting plate 93) and main equilibrium block/case 41 are hinged, the other end and connecting rod 2 hinged (connecting rod 2 adopts triangular frame structure), also can change into crossbeam 6 or crank pin hinged (as adopting curved walking beam, pull bar 106 perseverances are subjected to pulling force, also can adopt flexible draw bar, as wire rope, steel band, braid and chain).
(3) trundle 107 has upper and lower two rows, and last row is bearing on the walking beam upper flange 105, and following row is bearing on the walking beam lower wing plate 104.
In this programme, main equilibrium block/case 41(or traditional walking-beam counterweight/case 103) with the connecting of walking beam 3, can change into and adopt hingedly, or adopt two to wait stock 76,77 to cut with scissors to be hung on the walking beam.
Because the diversity of connecting rod (comprising crossbeam) curve, this programme will have better counterbalance effect than embodiment 11.
Embodiment nine to embodiment's 13 said various main equilibrium block/casees from the mechanism that transposes, can be all as the mechanism of positioning certainly of traditional walking-beam counterweight/case in the beam balance device of transposing, but traditional walking-beam counterweight/case 103 must be enclosed within or place on the walking beam 3 and joins with the walking beam cunning.
Whole embodiment of the present invention, all employing front-located mode schemes (back-crank pumping unit), all can change the rear-mounted scheme that adopts into; The rear-mounted scheme of all employings, also can change the front-located mode scheme that adopts into.
Phase modulating mechanism in the embodiment of the invention (regulating and controlling mechanism) and positioner, available handwheel is carried out manually-operable, also handwheel can be changed to stepper motor, and also available computer control step motor realizes following the tracks of control.
Claims (12)
1, a kind of high-efficient energy-saving lever oil pumping machine that is used for oilfield mainly comprises:
A power engine;
A speed reducer;
One cover drives the belt driver of speed reducer for power engine;
One cover is changed to the rotation motion of reduction unit output shaft 13 on the polished rod, straight-line down, by main crank 1, connecting rod 2, the four hinge crank-rocker mechanisms that walking beam or pleasure boat 3 and bracket base 4 are formed, wherein main crank 1 is packed in the termination of the output shaft 13 of the speed reducer that is fixedly connected with bracket base 4, walking beam or pleasure boat 3 are hinged by beam travelling supporting 7 with cantilever tip, and can in vertical guide, swing around the axle of this supporting, one end and the main crank 1 of connecting rod 2 are hinged, the other end by crossbeam 6 or directly and walking beam or pleasure boat 3 depart from the position of oscillation center hinged at it;
One cover walking beam--horse head device or pleasure boat device, and rope suspension apparatus;
One cover one-level Equilibrator comprises: crank balance or non-synchronous crank balance, traditional beam balance, combined balance system or additional horse head suspending weight balance or air-balance that the two has both;
Moving device under one cover 2 ω crank balance devices and/or the cover beam balance quality;
It is characterized in that: 2 ω cranks adopt differential phase modulating mechanism with connecting of main crank in the described 2 ω crank balance devices, moving device is a moving device under a kind of balancing mass that has a positioner under the described beam balance quality, and described traditional beam balance adopts a kind of from transposing the beam balance device.
2, high-efficient energy-saving lever oil pumping machine according to claim 1, the structure that it is characterized in that the differential phase modulating mechanism that 2 ω crank balance devices adopt is: 2 ω crank gears, 17 kinks that are connected as a single entity with 2 ω cranks 14 are on reduction unit output shaft 13, this gear is with planetary plate 20 on its coaxial external cylindrical surface, and the planetary pinion 18 of hinge in the planetary plate hole of living together is meshed, 18 again with 19 engagements of main crank gear, 19 are enclosed within on the reduction unit output shaft 13 with 13 concrete mutuallies by its center cylindrical hole, and the planetary plate that also is being connected on the planetary plate 20 is 21, it directly or by a regulating and controlling mechanism and pumping unit support 4 is located, make differential phase modulating mechanism become a fixed shaft gear train, 2 ω crank gears 17 equal 2 with the absolute value of main crank gear 19 speed ratios in this fixed shaft gear train, described regulating and controlling mechanism adopts a kind of screw-and-nut slide block-slotted link mechanism: be hinged with screw rod 24 on the bearing 25 of the band slideway that is connected as a single entity with pumping unit support 4, join with the slideway cunning of 24 nuts that screw 23 and 25, articulated connecting rod 22 on 23,22 the other end and planetary plate are hinged 21, perhaps articulated roller 27 on 23, this roller is stuck in planetary plate in 21 the straight trough, or adopt a kind of retarder-double rocker mechanism: the retarder 28 with retrograde self-locking property is connected on the pumping unit support 4, be fixed with rocking bar 31 on the overhanging end of its output shaft 30, the articulated connecting rod 22 of 31 the other end, 22 the other end and planetary plate are hinged 21, perhaps the outer end of rocking bar 31 is hinged with a roller, and this roller is stuck in planetary plate in 21 the groove.
3, high-efficient energy-saving lever oil pumping machine according to claim 1, it is characterized in that: described in the beam balance device of transposing, tradition beam balance quality 103 adopts bulk or case or structure, under the described balancing mass that has a positioner in the moving device, balancing mass comprises main balancing mass and secondary balancing mass, main, secondary balancing mass all adopts bulk or case structure, case structure is to be welded into casing with steel plate and angle steel, filling steel scrap ball in the case, scrap iron sand, the iron and steel slag, pig, stone and cement, and the upper inside wall of main equilibrium block/case 41 constitutes slideway, secondary equilibrium block/case 39 is shelved on the angle iron frame 42 that is connected with this chute surface or along this slideway joins and has secondary equilibrium block/case positioner with main equilibrium block/case cunning, and, main equilibrium block/case 41 is connected with walking beam 3, sliding joining, hinged, or with 2 isometric suspension rods 76,77 hinges are hung on the walking beam and have main equilibrium block/case positioner or the mechanism that transposes certainly, and, tradition walking-beam counterweight/case 103 or place walking beam inner chamber and walking beam cunning to join and have positioner, or place or be enclosed within on the walking beam and join and have from transposing mechanism with the walking beam cunning.
4, according to claim 1,3 high-efficient energy-saving lever oil pumping machine, it is characterized in that described secondary equilibrium block/case positioner adopts common hoisting apparatus: suspension hook/ring-sheave block-roll device or suspension hook/ring-leading block-roll device, suspension hook/ring hangs with secondary equilibrium block/case 39 and connects, it is enclosed within on the movable pulley axle of sheave block or directly links to each other with rope band 50, rope band 50 is walked around sheave block or upper saw pulley 57, on reel 48, and, described sheave block or upper saw pulley are hinged on walking beam 3 or main equilibrium block/case 41, described reel 48 is hinged on walking beam 3, by transmission shaft or directly connect with an output shaft with retarder 43 of retrograde self-locking property.
5, according to claim 1,3 high-efficient energy-saving lever oil pumping machine, it is characterized in that described main equilibrium block/case positioner adopts screw-and-nut mechanism, concrete structure is: nut 60 is affixed with walking beam 3, screw rod 59 withstand on main equilibrium block/case or screw rod 59 hinged with it by the bearing at main equilibrium block/case 41 two ends; Perhaps nut 60 is hinged with walking beam 3, and screw rod 59 and main equilibrium block/case 41 are hinged or be connected, perhaps nut 60 and 3 sliding joining of walking beam, screw rod 59 is hinged with walking beam 3, and, connecting rod 69 is set, its two ends are hinged or be connected with nut 60 and main equilibrium block/case 41 respectively, or the hinged end of an end is connected; Perhaps screw rod 59 has two, and one is left-handed one for dextrorotation, and hinged with walking beam 3 and main equilibrium block/case 41 respectively, an end is that the nut that a left-handed end is dextrorotation connects together them.
6, according to claim 1,3 high-efficient energy-saving lever oil pumping machine, it is characterized in that described main equilibrium block/case positioner adopts retarder-crank mechanism: the retarder 71 with retrograde self-locking property is packed on the walking beam 3, its output shaft 73 and crank 70 are connected, crank 70 and connecting rod 69 are hinged, and the other end of connecting rod 69 and main equilibrium block/case 41 are hinged.
7, according to claim 1,3 high-efficient energy-saving lever oil pumping machine, it is characterized in that described main equilibrium block/case positioner and traditional walking-beam counterweight/case positioner adopts retarder-reel-pulley tensioning mechanism: the retarder 71 with retrograde self-locking property, be packed in together on the walking beam 3 with reel 80, the output shaft and the spool shaft of retarder 71 link by coupling, walking around hinged upper saw pulley 81 on walking beam around the wire rope 87 of reel right part connects with the right-hand member of main equilibrium block/case 41 or traditional walking-beam counterweight/case 103, around the wire rope 83 of reel left part, walk around hinged upper saw pulley 82 on walking beam, right upper saw pulley 78 and hinged Idle wheel 90 at beam travelling tail end connect with the left end of main equilibrium block/case 41 or traditional walking-beam counterweight/case 103.
8, according to claim 1,3 high-efficient energy-saving lever oil pumping machine, it is characterized in that the mechanism of positioning certainly that the described main equilibrium block/case or the beam balance device of transposing certainly adopt is an a kind of cam control panel mechanism: a cam control panel 96 is connected on the pumping unit support 4, a fixed connecting plate 93 on main equilibrium block/case 41 or the traditional walking-beam counterweight/case 103, hinged roller 95 on the connecting plate, this roller is stuck in the cam path 94 of cam control panel.
9,, it is characterized in that the mechanism of positioning certainly that the described main equilibrium block/case or the beam balance device of transposing certainly adopt is a kind of rope band control mechanism according to claim 1,3 high-efficient energy-saving lever oil pumping machine; Rope band 99 two ends are hinged with walking beam 3 and main equilibrium block/case 41 or traditional walking-beam counterweight/case 103 respectively, and be stretched in the hinged Idle wheel 98 of pumping unit support 4 on.
10, according to claim 1,3 high-efficient energy-saving lever oil pumping machine, it is characterized in that main equilibrium block/case or the mechanism of positioning certainly that the beam balance device of transposing certainly adopts is a kind of drag link mechanism: a rigidity or flexible draw bar 106 are set, the one end is direct or hinged by the connecting plate 93 that is connected as a single entity with it with main equilibrium block/case 41 or traditional walking-beam counterweight/case 103, the other end and connecting rod 2, crossbeam 6 or crank pin are hinged, or it is hinged by bearing 108 and support 4, and, bearing 108 has the bolt and nut positioner: with in the sliding groove that fits over bearing 108 of the nut slider that screws of positioning screw rod 112 111 and hinged with pull bar 106, the nut 109 of perhaps transposing is connected with pumping unit support 4, and positioning screw rod 110 withstands on or colludes on bearing 108.
11, according to claim 1,3 high-efficient energy-saving lever oil pumping machine, it is characterized in that: in the sliding distribution structure of main equilibrium block/case 41, traditional walking-beam counterweight/case 103 and walking beam 3 and the sliding distribution structure of secondary equilibrium block/case 39 and main equilibrium block/case, be hinged with trundle 107 on main equilibrium block/case 41, secondary equilibrium block/case 39 and the traditional walking-beam counterweight/case 103, this trundle is bearing on the chute surface of said sliding distribution structure.
12, according to the high-efficient energy-saving lever oil pumping machine of claim 1, it is characterized in that: described walking beam 3 is curved walking beams that a kind of center line is " ∧ " shape, and at curved walking beam two ends with the bolt off-load support 102 that is connected.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 92245653 CN2147374Y (en) | 1992-12-31 | 1992-12-31 | High-effect energy-saving rod oil suction machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 92245653 CN2147374Y (en) | 1992-12-31 | 1992-12-31 | High-effect energy-saving rod oil suction machine |
Publications (1)
Publication Number | Publication Date |
---|---|
CN2147374Y true CN2147374Y (en) | 1993-11-24 |
Family
ID=33784532
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN 92245653 Expired - Lifetime CN2147374Y (en) | 1992-12-31 | 1992-12-31 | High-effect energy-saving rod oil suction machine |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN2147374Y (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106894790A (en) * | 2017-04-25 | 2017-06-27 | 西南石油大学 | A kind of link balance beam pumping unit |
-
1992
- 1992-12-31 CN CN 92245653 patent/CN2147374Y/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106894790A (en) * | 2017-04-25 | 2017-06-27 | 西南石油大学 | A kind of link balance beam pumping unit |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CA1333546C (en) | Long stroke well pumping unit with carriage | |
CN1042053C (en) | High-efficient energy-saving lever oil pumping machine | |
CN1079923A (en) | A kind of rolling-mill housing that is used to have the conventional mill of three or more adjustable driven rolls | |
CN1200871C (en) | Lifting apparatus | |
US5528947A (en) | Rod pumping assembly | |
CN217751456U (en) | Mobile hole plugging robot for industrial silicon furnace | |
CN109591865B (en) | Goods mobile device for logistics storage | |
CN2147374Y (en) | High-effect energy-saving rod oil suction machine | |
CN106315454B (en) | A kind of straight line elevating mechanism | |
CN110295762A (en) | Construction walling robot | |
CN2168096Y (en) | Pumping unit | |
CN101672173B (en) | Dual horsehead fine balance energy-saving walking beam pumping unit | |
CN201288538Y (en) | Mechanical automatic control hydraulic transmission oil pumping machine | |
CN2888067Y (en) | Pumping unit | |
CN215701698U (en) | Rope-driven robot | |
CN108750934A (en) | A kind of big quality concrete pipe fitting lifting means | |
CN101201000A (en) | Flexible driving mechanism oil pumping device | |
CN208866199U (en) | A kind of architectural engineering combined type angle pipe equipment | |
CN113103220A (en) | Rope-driven robot and driving method | |
CN87104623A (en) | Fluid motor-driven antithesis balance oil extractor | |
CN214141362U (en) | Galvanized steel wire rope balance lifting device | |
CN1409004A (en) | Machine for using buoyancy and gravity | |
CN118144006B (en) | Lifting mechanical arm and mechanical arm guiding mechanism | |
CN108421860A (en) | A kind of architectural engineering combined type angle pipe equipment | |
CN218538998U (en) | Prefabricated part lifting appliance for shield tunnel |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CX01 | Expiry of patent term |