CN102530658B - Cable arrangement device - Google Patents

Cable arrangement device Download PDF

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Publication number
CN102530658B
CN102530658B CN201210033219.2A CN201210033219A CN102530658B CN 102530658 B CN102530658 B CN 102530658B CN 201210033219 A CN201210033219 A CN 201210033219A CN 102530658 B CN102530658 B CN 102530658B
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China
Prior art keywords
gear
axle
dish tool
cylinder
magnetic clutch
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CN102530658A (en
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王晓华
宋志军
程云龙
杨显志
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Petrochina Co Ltd
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Petrochina Co Ltd
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Abstract

The invention discloses a cable arrangement device, which comprises: the winding mechanism comprises a roller disc, a continuous pipeline is wound on the roller disc, the roller disc is rotatably arranged under the driving of a first power assembly, the continuous pipeline is wound or discharged from the roller disc along with the rotation of the roller disc, a roller base is arranged at the bottom of the roller disc, and the roller disc is fixedly connected with the roller base in the axial direction; the running mechanism comprises a transmission screw rod with bidirectional threads, a rotatable round nut is arranged on the transmission screw rod and connected with the roller disc tool through a transmission gear set, the roller base is fixedly connected with the round nut in the axial direction, and the round nut horizontally reciprocates on the transmission screw rod and drives the roller base and the roller disc tool to horizontally reciprocate when the roller disc tool is in a rotating state through the transmission gear set.

Description

Spooling gear
Technical field
The invention belongs to an a kind of part of in-vehicle coiled tubing running and pulling device, its be about a kind of for the dynamic monitoring of heavy crude heat extraction hot hole make laterally automatically can regulate spooling gear.
Background technology
In viscous crude heat extraction by steam injection process, need to carry out dynamic monitoring to heavy crude heat extraction hot hole, need when carrying out dynamic monitoring to adopt and carry out pipeline receipts discharge operation by the spooling gear (receiving exhaust system also known as pipeline) be arranged on continuous oil pipe operation engineering truck.
Spooling gear includes cylinder, coiled tubing or cable arrangements are wrapped in plurality of layers on cylinder, wirerope on cylinder must every layer of marshalling, closely and have suitable predetermincd tension, this is because when entering test continuous-tube or cable under in the well that oil field needs monitoring, the pulling force of continuous-tube is very big.
Most of spooling gears of current use are all the devices installing a cable-remover or guides and so in cylinder dead ahead.Although cable-remover or guides can make pipeline roughly be emitted on cylinder, pipeline is irregular, closely.And when tripping out pipeline, the pulling force along pipeline direction is very big, cable-remover applies pulling force or thrust in the vertical direction of pipeline, and this situation brings very large damage to pipeline.
Summary of the invention
The object of the invention is, provide a kind of spooling gear, its cylinder laterally can be walked on base, thus can keep continuous pipe that the change of angle does not occur in the upper process proposed with below.
Specifically, the object of this invention is to provide a kind of spooling gear, it is simple to operate, and have applicability strong, powerful, cost is low, safety, and farthest protection continuous pipe is injury-free.
Above-mentioned purpose of the present invention can adopt following technical proposal to realize:
A kind of spooling gear, it comprises:
Rolling-up mechanism, it comprises cylinder dish tool, described cylinder dish tool is arranged with continuous pipe, described cylinder dish tool is arranged in rotatable under the drive of the first Power Component, described continuous pipe is packed up along with the rotation of described cylinder dish tool from cylinder dish tool or is discharged, the bottom of described cylinder dish tool is provided with cylinder base, and described cylinder dish tool is fixedly connected with in the axial direction with cylinder base;
Traveling gear, it comprises the turn-screw with bidirectional helical, described turn-screw is provided with rotating circular nut, described circular nut is connected with described cylinder dish tool by driving gear set, above-mentioned cylinder base is fixedly connected with in the axial direction with described circular nut, under described cylinder dish tool is rotary state, by described driving gear set, described circular nut horizontal reciprocating on described turn-screw moves, and drives described cylinder base and described cylinder dish tool horizontal reciprocating to move.
In a preferred embodiment, the front and rear sides of the bottom of described cylinder base is fixedly connected with guide rail connecting portion, the below of each guide rail connecting portion is provided with the line slideway be connected with described guide rail connecting portion male-female engagement, described line slideway is fixedly installed, and described cylinder base moves along described line slideway horizontal reciprocating.
In a preferred embodiment, each described guide rail connecting portion is at least provided with roll left wheels and right roller set, described left and right roller set is rolled mobile in described line slideway; Described line slideway is provided with left travel switch and right travel switch, and described left travel switch is in the left side of the described wheels that roll left, and described right travel switch is on the right side of described right roller set.
In a preferred embodiment, described first Power Component comprises HM Hydraulic Motor and hinge wheel, and described hinge wheel is fixedly connected with described cylinder dish tool, and described HM Hydraulic Motor drives described hinge wheel to rotate, and drives described cylinder dish tool to rotate.
In a preferred embodiment, described driving gear set comprises: the first axle, it is connected with can the first minor sprocket of synchronous axial system and the first change-wheel, and above-mentioned hinge wheel is coaxially provided with the second minor sprocket, and first and second minor sprocket described is in transmission connection by chain; Second axle, itself and the first axle be arranged in parallel, and described second axle is connected with the second change-wheel; 3rd axle, itself and the second axle be arranged in parallel, described 3rd axle is connected with the first gear, the first separate transmission component and the second transmission component is connected with between second and third axle described, under the state that the second axle rotates, drive described 3rd axle to rotate forward or backwards respectively by first and second transmission component, above-mentioned turn-screw is connected with the second gear, described second gear is fixedly connected with described circular nut, and described second gear and the first gear engage each other.
In a preferred embodiment, described first transmission component comprises the first magnetic clutch, 3rd gear and the 4th gear, described first magnetic clutch and the 3rd gear are connected on described second axle, described 4th gear is connected on described 3rd axle, and described 3rd gear is connected with the 4th gear transmission; Under the first magnetic clutch mode of operation, described 3rd gear is adsorbed on described second axle by the first magnetic clutch and rotates with the second axle, and drives the 4th pinion rotation, and described 3rd axle rotates along with the rotation of described 4th gear; Described second transmission component comprises the second magnetic clutch, 5th gear, 4th axle, 6th gear and the 7th gear, described second magnetic clutch and the 5th gear are connected on described second axle, and described 4th axle is connected between described two, three axles abreast, and described 6th gear is connected on described 4th axle, described 6th gear is connected with the 5th gear and the 7th gears meshing respectively, and described 7th gear is connected on described 3rd axle; Under the second magnetic clutch mode of operation, described 5th gear is adsorbed on described second axle by the second magnetic clutch and rotates with the second axle, and by the 6th gear driven the 7th pinion rotation, described 3rd axle rotates along with the rotation of described 7th gear.
In a preferred embodiment, by the second Power Component, the horizontal movement velocity of described cylinder base is adjustable setting, and described second Power Component comprises regulator solution pressure motor, described regulator solution pressure motor is connected to one end of described turn-screw, rotates to drive described turn-screw.
Feature and the advantage of spooling gear of the present invention are:
Compare relative to receipts outfall pipeline device in the past; walked by the longitudinal direction of cylinder; and keep coiled tubing that the advantage of the change of angle does not occur in the upper process put forward with below; coiled tubing is remained point-blank in the process of the upper side of putting; to use compared with the dish tool of fairlead with great majority in the past thus serve protection coiled tubing, reducing the object that coiled tubing damages.
Accompanying drawing explanation
In order to be illustrated more clearly in the technical scheme in the embodiment of the present invention, below the accompanying drawing used required in describing embodiment is briefly described, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.
Fig. 1 is the schematic front view of the spooling gear of the embodiment of the present invention;
Fig. 2 is the schematic top plan view of the spooling gear of the embodiment of the present invention;
Fig. 3 is the schematic side view of the spooling gear of the embodiment of the present invention;
Fig. 4 is driving gear set and the turn-screw annexation schematic diagram of the spooling gear of the display embodiment of the present invention;
Fig. 4 A is the A portion enlarged diagram of Fig. 4;
Each gearing relationships schematic diagram when Fig. 5 is the first transmission component work of the spooling gear of the embodiment of the present invention, now circular nut is for rotating forward;
Each gearing relationships schematic diagram when Fig. 6 is the second transmission component work of the spooling gear of the embodiment of the present invention, now circular nut is reversion;
Fig. 7 is the schematic side view of the line slideway of the spooling gear of the embodiment of the present invention;
Fig. 7 A is the A-A generalized section of Fig. 7;
Fig. 7 B is the B-B generalized section of Fig. 7.
Detailed description of the invention
Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.
The position relationship of " front, rear, left and right " is herein for the state shown in Fig. 1.
As shown in Figures 1 to 4, the spooling gear that the embodiment of the present invention proposes, it comprises rolling-up mechanism and traveling gear.Described rolling-up mechanism comprises cylinder dish tool 1, described cylinder dish tool 1 is arranged with continuous pipe (being such as coiled tubing), described cylinder dish tool 1 is arranged in rotatable under the drive of the first Power Component 2, described continuous pipe is packed up along with the rotation of described cylinder dish tool 1 from cylinder dish tool 1 or is discharged, the bottom of described cylinder dish tool 1 is provided with cylinder base 1a, and described cylinder dish tool 1 is fixedly connected with in the axial direction with cylinder base 1a.Described traveling gear comprises the turn-screw 3 with bidirectional helical, described turn-screw 3 is provided with rotating circular nut 3a, described circular nut 3a is connected with described cylinder dish tool 1 by driving gear set 4, above-mentioned cylinder base 1a is fixedly connected with in the axial direction with described circular nut 3a, under described cylinder dish tool 1 is in rotary state, by described driving gear set 4, described circular nut 3a horizontal reciprocating on described turn-screw 3 moves, and drive described cylinder base 1a and described cylinder dish tool 1 horizontal reciprocating to move, namely, described cylinder dish tool 1 can be left, right parallel motion.
Specifically, as depicted in figs. 1 and 2, described spooling gear also comprises left support 1e and right support 1f, and described cylinder dish tool 1 is supported on described left and right between support 1e, 1f rotationally, and described left and right support 1e, 1f are fixed on described cylinder base 1a.
In the present embodiment, the first Power Component 2 drives described cylinder dish tool 1 to rotate forward or backwards, thus makes the continuous pipe be wrapped on cylinder dish tool 1 pack up or discharge.Because cylinder base 1a is fixedly connected with in the axial direction with cylinder dish tool 1, namely when the axial horizontal reciprocating of cylinder base 1a moves, cylinder dish tool 1 can move along with cylinder base 1a together axial horizontal reciprocating, but cylinder base 1a can not rotate along with the rotation of cylinder dish tool 1.Along with the rotation of cylinder dish tool 1, circular nut 3a is driven to rotate together by driving gear set 4, and because turn-screw 3 is for having the turn-screw 3 of bidirectional helical, circular nut 3a left and right transverse shifting on turn-screw 3 can be made by the different occluding relations of driving gear set 4, drive cylinder base 1a along turn-screw about 3 transverse shifting, and then make cylinder dish tool about 1 transverse shifting.Because cylinder dish tool 1 has the function of left and right transverse shifting, make continuous pipe remain point-blank upper putting in the process of putting, thus realize the function of packing up and discharging in good orderly continuous pipe from cylinder dish tool 1.And, because continuous pipe remains point-blank upper putting in the process of putting, make continuous pipe can not be subject to the effect of shearing force, thus protect continuous pipe, the damage of continuous pipe can be reduced.
According to an embodiment of the invention, as shown in Fig. 7 and Fig. 7 A, 7B, the front and rear sides of the bottom of described cylinder base 1a is fixedly connected with guide rail connecting portion 1b, the below of each guide rail connecting portion 1b is provided with the line slideway 5 be connected with described guide rail connecting portion male-female engagement, described line slideway 5 is fixedly installed, and described cylinder base 1a moves along described line slideway 5 horizontal reciprocating.Wherein, line slideway 5 can be placed on vehicle floor 7, to transport spooling gear.
As shown in Figure 7, each described guide rail connecting portion 1b is at least provided with the wheels 1c and right roller set 1d that rolls left, described left and right roller set 1c, 1d roll mobile in described line slideway 5; Described line slideway 5 is provided with left travel switch 5a and right travel switch 5b, and described left travel switch 5a is in the left side of the described wheels 1c that rolls left, and described right travel switch 5b is on the right side of described right roller set 1d.
According to an embodiment of the invention, described first Power Component 2 comprises HM Hydraulic Motor 2a and hinge wheel 2b, described hinge wheel is fixedly connected with cylinder dish tool 1 described in 2b, and described HM Hydraulic Motor 2a drives described hinge wheel 2b to rotate, and drives described cylinder dish tool 1 to rotate.
Furthermore, coordinate shown in Fig. 4,4A to Fig. 6, described driving gear set 4 comprises the first axle 4a be arranged in parallel, the second axle 4b and the 3rd axle 4c.First axle 4a is connected with can the first minor sprocket 4a1 of synchronous axial system and the first change-wheel 4a2, and above-mentioned hinge wheel 2b is coaxially provided with the second minor sprocket 2c, and described first and second minor sprocket 4a1,2c are in transmission connection by chain.Described second axle 4b and the first axle 4a be arranged in parallel, and described second axle 4b is connected with the second change-wheel 4b1.Described 3rd axle 4c and the second axle 4b be arranged in parallel, described 3rd axle 4c is connected with the first gear 4c1, describedly between second and third axle 4b, 4c, be connected with the first separate transmission component and the second transmission component, under the state that the second axle 4b rotates, described 3rd axle 4c is driven to rotate forward or backwards respectively by first and second transmission component, above-mentioned turn-screw 3 is connected with the second gear 3b, described second gear 3b is fixedly connected with described circular nut 3a, and described second gear 3b and the first gear 4c1 engages each other.
Further, described first transmission component comprises the first magnetic clutch 4d, the 3rd gear 4e and the 4th gear 4f.Described first magnetic clutch 4d and the 3rd gear 4e is connected on described second axle 4b, and described 4th gear 4f is connected on described 3rd axle 4c, and described 3rd gear 4e and the 4th gear 4f is in transmission connection; Under the first magnetic clutch 4d mode of operation, described 3rd gear 4e is adsorbed on described second axle 4b by the first magnetic clutch 4d and rotates with the second axle 4b, and driving the 4th gear 4f to rotate, described 3rd axle 4c rotates along with the rotation of described 4th gear 4f.
Described second transmission component comprises the second magnetic clutch 4g, 5th gear 4h, 4th axle 4i, 6th gear 4j and the 7th gear 4k, described second magnetic clutch 4g and the 5th gear 4h is connected on described second axle 4b, described 4th axle 4i is connected between described two, three axle 4b, 4c abreast, described 6th gear 4j is connected on described 4th axle 4i, described 6th gear 4j is connected with a joggle with the 5th gear 4h and the 7th gear 4k respectively, and described 7th gear 4k is connected on described 3rd axle 4c; Under the second magnetic clutch 4g mode of operation, described 5th gear 4h is adsorbed on described second axle 4b by the second magnetic clutch 4g and rotates with the second axle 4b, and driving the 7th gear 4k to rotate by the 6th gear 4j, described 3rd axle 4c rotates along with the rotation of described 7th gear 4k.
Wherein, in the present embodiment, as shown in Figure 1, described driving gear set 4 is arranged in left support 1e, and hinge wheel 2b is connected to the left side of cylinder dish tool 1.Left support 1e has left adapter plate 4m and right adapter plate 4n, and first, second, third and fourth axle above-mentioned is all rotatably connected to described left and right between adapter plate 4m, 4n.In addition, at left support 1e, and be provided with current colector 8 in the left side of the second minor sprocket 2c, be connected with cable by current colector and read electric signal; The connection lead of quick coupling two ends is equipped with by the opening on dish tool beam barrel, wherein one end is connected to by the electric connector of the current colector in the left support of dish tool, dish tool is placed with continuous pipe, cable is had in continuous pipe, the opening that can be connected with cable is had inside dish tool, by a slip-ring device, be connected in its cable moment with wall opening in dish tool, opposite side harvester is connected with current colector, gets final product reading and the collection of settling signal.
According to an embodiment of the invention, by the second Power Component, the horizontal movement velocity of described cylinder base 1a is adjustable setting, described second Power Component comprises regulator solution pressure motor 6, described regulator solution pressure motor is connected to one end of described turn-screw 3, rotates to drive described turn-screw 3.In the present embodiment, in the discharge process of continuous pipe, when the continuous pipe on cylinder base 1a occurs not tight, during uneven row's cable, can start regulator solution pressure motor 6, regulator solution pressure motor 6 drives turn-screw 3 to rotate.If due to the transverse shifting excessive velocities of cylinder base 1a cause above-mentioned situation time, can start regulator solution pressure motor and drive turn-screw 3 and circular nut 3a rotating in same direction, can slow down the speed of travel of cylinder base 1a on line slideway 5.If due to the transverse shifting speed of cylinder base 1a cause above-mentioned situation excessively slowly time, regulator solution pressure motor can be started and drive turn-screw 3 and circular nut 3a to rotate backward, the speed of travel of cylinder base 1a on line slideway 5 can be accelerated.Transferred the horizontal speed of travel regulating circular nut 3a and cylinder base 1a in the present embodiment by turn-screw 3 positive and negative, make continuous pipe can evenly, densification, extrude in order, or not loosely be not arranged on cylinder dish tool 1.
Wherein, the left end of described turn-screw 3 is provided with left permanent seat 3c, and right-hand member is provided with right permanent seat 3d.Under normal conditions, described turn-screw 3 is connected to described left and rightly not rotate between permanent seat 3c, 3d.And when needing the horizontal speed of travel regulating cylinder base 1a, after starting regulator solution pressure motor 6, turn-screw 3 just rotates between permanent seat 3c, 3d left and right.
The following describes the implementation procedure of the horizontal reciprocating movement of the spooling gear of the present embodiment:
First, HM Hydraulic Motor 2a drives hinge wheel 2b to rotate, thus drives cylinder dish tool 1 to rotate.Second minor sprocket 2c is coaxially fixed on the side of hinge wheel 2b, when hinge wheel 2b rotates, drives the second minor sprocket 2c to rotate, and drives the first minor sprocket 4a1 to rotate.The rotation of the first minor sprocket 4a1, drives the first axle 4a and the first change-wheel 4a2 to rotate, thus drives the second change-wheel 4b1 engaged with the first change-wheel 4a2 to rotate, and then the second axle 4b is rotated.
When the second axle 4b rotates, if now the second magnetic clutch 4g does not work, first magnetic clutch 4d works, then the 3rd gear 4e is adsorbed on described second axle 4b by the first magnetic clutch 4d and rotates with the second axle 4b, 3rd gear 4e rotates drive the 4th gear 4f and rotates, and driving the 3rd axle 4c to rotate, the first gear 4c1 on the 3rd axle 4c rotates thereupon.The rotation of the first gear 4c1 drives the second gear 3b on turn-screw 3 to rotate, the circular nut 3a be fixedly connected with the second gear 3b also together with rotate (such as claiming the rotation of circular nut 3a now for rotating forward), now circular nut 3a laterally moves to side (such as moving right) along turn-screw 3, drives cylinder base 1a laterally moving to side on line slideway 5.When moving to the right travel switch 5b that right roller set 1d encounters on line slideway 5, the first magnetic clutch 4d quits work, and the second magnetic clutch 4g starts working.
Because the second magnetic clutch 4g works, 5th gear 4h is adsorbed on described second axle 4b by the second magnetic clutch 4g and rotates with the second axle 4b, and drive the 7th gear 4k to rotate by the 6th gear 4j, described 3rd axle 4c rotates along with the rotation of described 7th gear 4k, and the first gear 4c1 on the 3rd axle 4c rotates thereupon.The rotation of the first gear 4c1 drives the second gear 3b on turn-screw 3 to rotate, the circular nut 3a be fixedly connected with the second gear 3b also together with rotate (rotation of circular nut 3a is now for rotating backward), now circular nut 3a laterally moves to side (being moved to the left) along turn-screw 3, drives cylinder base 1a laterally moving to side on line slideway 5.When moving to the left travel switch 5a that the wheels 1c that rolls left encounters on line slideway 5, the second magnetic clutch 4g quits work, and the first magnetic clutch 4d starts working.So work again and again, until operator's compartment provides halt instruction.
Wherein, the first change-wheel 4a2 and the second change-wheel 4b1 can change according to the different tube diameters of continuous pipe of discharge, with this, caliber of the moving velocity of circular nut 3a on turn-screw 3 and continuous pipe is matched.
In the discharge process of continuous pipe, when the continuous pipe on cylinder base 1a occurs not tight, during uneven row's cable, regulator solution pressure motor 6 can be started, regulator solution pressure motor 6 drives turn-screw 3 forward or reverse, to regulate the horizontal speed of travel of circular nut 3a and cylinder base 1a.
The foregoing is only several embodiments of the present invention, those skilled in the art does not depart from the spirit and scope of the present invention according to carrying out various change or modification to the embodiment of the present invention disclosed in application documents.

Claims (4)

1. a spooling gear, is characterized in that, described spooling gear comprises:
Rolling-up mechanism, it comprises cylinder dish tool (1), described cylinder dish tool (1) is arranged with continuous pipe, described cylinder dish tool (1) is arranged in rotatable under the drive of the first Power Component (2), described continuous pipe is packed up along with the rotation of described cylinder dish tool (1) from cylinder dish tool (1) or is discharged, the bottom of described cylinder dish tool (1) is provided with cylinder base (1a), and described cylinder dish tool (1) is fixedly connected with in the axial direction with cylinder base (1a);
Traveling gear, it comprises the turn-screw (3) with bidirectional helical, described turn-screw (3) is provided with rotating circular nut (3a), described circular nut (3a) is connected with described cylinder dish tool (1) by driving gear set (4), above-mentioned cylinder base (1a) is fixedly connected with in the axial direction with described circular nut (3a), under described cylinder dish tool (1) is in rotary state, by described driving gear set (4), described circular nut (3a) moves at the upper horizontal reciprocating of described turn-screw (3), and drive described cylinder base (1a) and described cylinder dish tool (1) horizontal reciprocating to move,
Described first Power Component (2) comprises HM Hydraulic Motor (2a) and hinge wheel (2b), described hinge wheel is fixedly connected with (2b) described cylinder dish tool (1), described HM Hydraulic Motor (2a) drives described hinge wheel (2b) to rotate, and drives described cylinder dish tool (1) to rotate;
Described driving gear set comprises: the first axle (4a), it is connected with can first minor sprocket (4a1) of synchronous axial system and the first change-wheel (4a2), above-mentioned hinge wheel (2b) is coaxially provided with the second minor sprocket (2c), and described first and second minor sprocket (4a1,2c) is in transmission connection by chain, second axle (4b), itself and the first axle (4a) be arranged in parallel, and described second axle (4b) is connected with the second change-wheel (4b1), 3rd axle (4c), itself and the second axle (4b) be arranged in parallel, described 3rd axle (4c) is connected with the first gear (4c1), described second, three axle (4b, the first separate transmission component and the second transmission component is connected with 4c), under the state that the second axle (4b) rotates, respectively by first, two transmission components and drive described 3rd axle (4c) to rotate forward or backwards, above-mentioned turn-screw (3) is connected with the second gear (3b), described second gear (3b) is fixedly connected with described circular nut (3a), described second gear (3b) and the first gear (4c1) engage each other,
Described first transmission component comprises the first magnetic clutch (4d), 3rd gear (4e) and the 4th gear (4f), described first magnetic clutch (4d) and the 3rd gear (4e) are connected on described second axle (4b), described 4th gear (4f) is connected on described 3rd axle (4c), and described 3rd gear (4e) and the 4th gear (4f) are in transmission connection; Under the first magnetic clutch (4d) mode of operation, described 3rd gear (4e) is adsorbed on described second axle (4b) by the first magnetic clutch (4d) and rotates with the second axle (4b), and driving the 4th gear (4f) to rotate, described 3rd axle (4c) rotates along with the rotation of described 4th gear (4f);
Described second transmission component comprises the second magnetic clutch (4g), 5th gear (4h), 4th axle (4i), 6th gear (4j) and the 7th gear (4k), described second magnetic clutch (4g) and the 5th gear (4h) are connected on described second axle (4b), described 4th axle (4i) is connected to described two abreast, three axle (4b, 4c), described 6th gear (4j) is connected on described 4th axle (4i), described 6th gear (4j) is connected with a joggle with the 5th gear (4h) and the 7th gear (4k) respectively, described 7th gear (4k) is connected on described 3rd axle (4c), under the second magnetic clutch (4g) mode of operation, described 5th gear (4h) is adsorbed on described second axle (4b) by the second magnetic clutch (4g) and rotates with the second axle (4b), and driving the 7th gear (4k) to rotate by the 6th gear (4j), described 3rd axle (4c) rotates along with the rotation of described 7th gear (4k).
2. spooling gear according to claim 1, it is characterized in that, the front and rear sides of the bottom of described cylinder base (1a) is fixedly connected with guide rail connecting portion (1b), the below of each guide rail connecting portion (1b) is provided with the line slideway (5) be connected with described guide rail connecting portion male-female engagement, described line slideway (5) is fixedly installed, and described cylinder base (1a) is moved along described line slideway (5) horizontal reciprocating.
3. spooling gear according to claim 2, it is characterized in that, each described guide rail connecting portion (1b) is at least provided with the wheels that roll left (1c) and right roller set (1d), and described left and right roller set (1c, 1d) is rolled mobile in described line slideway (5); Described line slideway (5) is provided with left travel switch (5a) and right travel switch (5b), described left travel switch (5a) is in the left side of the described wheels that roll left (1c), and described right travel switch (5b) is on the right side of described right roller set (1d).
4. spooling gear according to claim 1, it is characterized in that, by the second Power Component, the horizontal movement velocity of described cylinder base (1a) is adjustable setting, described second Power Component comprises regulator solution pressure motor (6), described regulator solution pressure motor is connected to one end of described turn-screw (3), rotates to drive described turn-screw (3).
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Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1457450A1 (en) * 2003-03-14 2004-09-15 Konrad Lechermann Portable winding drum
CN2861113Y (en) * 2006-01-09 2007-01-24 沈阳泰博达石油测控仪器有限公司 Double-roller linkage well testing winch
CN201694772U (en) * 2010-05-28 2011-01-05 沈阳泰博达石油测控仪器有限公司 Petroleaum cable well test winch capable of finely adjusting cable positions of drums

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