RU2679313C1 - Line for cutting of sustainable flat armored cable - Google Patents

Abstract

FIELD: electricity.SUBSTANCE: invention relates to technological equipment for cutting, removing and grinding the protective coating and insulation of three-core flat armored cable and can be used in electrical and other industries with significant wear of cable armor protection, a large number of short cable lengths resulting from the effect on the state of the cable of chemical exposure, mechanical deformation, electrochemical corrosion. Line for cutting three-core flat armored cable contains a giving device; knot of cutting of an armored cover and nonwoven tape; knot of isolation removal from a copper wire; polymer crushing unit; receiving device with three coils of increased capacity for collecting copper wire.EFFECT: invention provides high-performance cutting of flat three-core armored cable without damaging the copper wires, including cable lengths of 10–100 m, also provided for the separate collection of copper conductor, polypropylene and armor tape waste.1 cl, 3 dwg

Description

The invention relates to technological equipment for cutting, removing and grinding the protective coating and insulation of a three-core flat armored cable and can be used in electrical and other industries with gentle cable processing for reuse of processed products.

Three-core flat armored cable is used as a part of submersible electric pump installations for the operation of oil fields. Most of the wells operated by OAO TATNEFT use just such a cable, manufactured in accordance with the requirements of GOST R 51777-2001.

Experience shows that the cable can be used for up to 5-6 years, while the overhaul period is about 2-3 years, after lifting the cable is being repaired, removing damaged areas, cable splice. After the resource is depleted, the cable is sent for processing. Due to the significant wear of the armor cover, a large number of short cable sections, difficulties arise during processing. Cutting short segments is associated with high labor costs.

The following factors affect the condition of the cable sent for recycling:

1. The effect of gas dissolved in the formation fluid (including hydrogen sulfide) on the insulation state.

2. Mechanical deformation of insulation under the influence of thermal expansion of both copper conductors, and insulation material and armor cover.

3. Electrochemical corrosion of equipment, including cable armored cover, which may be due to the influence of aggressive well fluid, as well as the influence of various aggressive reagents that are used to increase oil recovery, well and formation cleanup.

The combination of these factors affects the condition of the cable, and hence the labor costs in its processing.

A device is known for cutting a round three-core armored cable, containing the nodes installed sequentially on the bed of the technological process: unwinding, cutting the protective coating, removing the protective coating by means of a cone with holes, cutting and removing plastic insulation, grinding the plastic insulation with the drive blade knife installed in it, made with a central hole for passing copper conductors; the device also contains a receiving unit for winding and evenly laying copper cores, and synchronization of the cable speed through all nodes of the device is provided by a traction roller and friction clutches. In addition, a straightening unit for the cable sheathing profile is introduced into the device, a cone with holes copying the cable twist angle is used to remove the cable sheathing, and three wedge knives with a central hole for passing copper veins are used to cut and remove the plastic insulation of the cable cores. (RU, patent 2344530, H02G 1/12, 2009).

The known device allows to improve the cutting of a three-core round armored cable with a damaged protective coating profile and deformed plastic insulation without causing mechanical damage to the copper core, however, it does not allow to cut a flat three-core armored cable, it does not allow to effectively cut lengths of 10-100 meters, because Using wedge knives takes a lot of time when dressing segments.

A known machine for cutting electric cables containing a bed, a three-jaw self-centering chuck with three cams and with a central hole coaxial to the axis of rotation of the three-jaw self-centering chuck, three drives, three mounts, three circular knives, three shafts, and the three-jaw self-centering chuck is mounted on the bed, each cam is fixed by means of one fastening, one drive, each drive is connected via a corresponding shaft with a corresponding disk knife, while the disk knife It becomes such that when moving the respective cam it crosses the imaginary continuation of the central opening, the circular knives are arranged symmetrically with respect to the axis of the central bore at an equal angular distance relative to each other. (RU, patent 289756, H01B 15/00, 2009).

The known device allows you to cut a flat three-core armored cable without damaging the copper conductors, however, it does not allow to provide high performance separate collection of copper core, polypropylene and waste armor tape.

The closest analogue is a device for cutting a flat three-core armored cable, containing the units installed on the bed in series with the technological process: unwinding, guiding and straightening, cutting the protective coating of the cable, removing the protective coating of the cable; cutting and removing plastic insulation of the cable with a swinging self-centering wedge knife, in the middle of which there is a groove and holes for copper cable conductors passing through the center of the blade along the axis; chopping the plastic insulation of the cable with a rotating blade knife, a pulling drive roller with three shells to ensure the forward movement of the cable, winding and evenly laying copper cable cores on the drive coils. (RU, patent 2267844, H02G 1/12, 2006).

The known device allows you to cut a flat three-core armored cable without damaging the copper conductors, however, it does not allow you to effectively cut lengths of 10-100 meters, since due to the use of a wedge knife it takes a long time to refuel the segments.

The technical task to be solved is the development and creation of a line that allows cutting flat three-core armored cable without damaging copper cores, allowing without time loss to efficiently cut lengths of 10-100 meters, as well as providing high performance separate collection of copper core, polypropylene and waste armor tape.

This problem is solved by using a technological line for cutting a three-core armored cable, containing installed in series:

1. The giving device for installation of cable reels;

2. A unit for removing armored cover and non-woven tape, the upper wheel of this unit having a circular knife for cutting armored cover and non-woven tape, and the lower wheel has teeth and a side, which excludes the cable from leaving the wheel; the unit also contains a special wedge that separates the cut tape armored cover from the insulated cable cores and directs it to an inclined groove for collection in storage containers; thanks to the use of a circular knife, there is no need for preliminary cleaning of the ends when refueling; the folding design of the knife for cutting the armor tape and non-woven tape allows to sharpen or replace only the knife when the cutting edge is worn, without changing the entire armor tape cutting unit (Fig. 2);

3. A node for removing insulation from copper wire, and in front of the upper and lower wheels of the assembly, removable guide rails for three insulated cores are mounted, which makes it possible to precisely guide the cores between the lower guide wheel and the upper wheel equipped with circular knives for cutting insulation, and in case of insulation sticking quickly remove it between the wheels by removing the guide rails; the node also contains a bar for separating copper cores from the cut insulation and directing them to the pipe of the grinding unit; thanks to the use of circular knives, there is no need for preliminary cleaning of the ends when refueling;

4. The armor cover removal unit and the insulation removal unit are located on a common bed on which the electric drive is also located, which transmits torque through a chain transmission to two successively located nodes. All the wheels of the nodes are pulling, mechanically connected to each other through a gear transmission and have the same rotation speed, are easily replaced as they wear. The gap providing the depth of cut and the necessary crimping of the cable between the upper and lower wheels in pairs is adjusted depending on the cross section of the cable being cut by a screw drive manually in the upper parts of the machine nodes.

5. The grinding isolation unit, closed by a casing, and the polymer is grinded on a rotating blade blade, then the polymer enters the storage tank through an inclined trough.

6. A receiving device for copper conductors, with separate coils of increased capacity according to FIG. 1 mounted on the same axis, and the electric drive provides independent rotation of all three coils due to friction

The features of the invention are:

1. a giving device for installing cable reels;

2. The removal of the armor cover and non-woven tape is carried out using the collapsible disk knife of FIG. 2, due to which there is no need for preliminary cleaning of the ends when refueling;

3. the lower wheel of the unit for removing the armor cover and non-woven tape has teeth and a side, which excludes the cable from leaving the wheel;

4. the armor cover removal unit contains a special wedge for separating the cut armor cover from the insulated cable cores and directing it into the storage container;

5. removal of insulation from copper wire using circular knives, due to which there is no need for preliminary cleaning of the ends when refueling;

6. the location in front of the upper and lower wheels of the node removing the insulation of the guide runners, allowing you to accurately guide the cores between the lower guide wheel and the upper wheel;

7. guide rails located in front of the upper and lower wheels of the stripping unit are removable, which makes it possible to quickly eliminate it if the insulation is stuck between the wheels by removing the guide rails;

8. the stripping unit contains a bar for separating copper cores from the cut insulation and directing them to the pipe of the grinding unit;

9. placement of the armor cover removal unit and the insulation removal unit on a common bed together with an electric drive that transmits torque via a chain transmission to two sequentially located units;

10. ensuring the same speed of rotation of all wheels of the units for removing the armor cover and stripping, due to their mechanical connection through the gear transmission;

11. Ensuring easy change of wheels as they wear;

12. adjusting the gap between the upper and lower wheels in pairs, depending on the section of the cable being cut, by screw drives located in the upper parts of the nodes, which ensures the depth of cut and the necessary crimp of the cable;

13. grinding insulation after removing it from the copper wire;

14. the accumulation of crushed insulation in the storage tank;

15. accumulation of copper cores at the receiving device;

16. three separate receiver coils mounted on the same axis have increased capacity due to the use of a special welded construction instead of solid aluminum cheeks (Fig. 1);

17. The electric drive provides independent rotation of all three coils due to frictions.

Signs 1, 4, 8, 13-15, 17 are common with the prototype, signs 2, 3, 5-7, 9-12, 16 are essential distinguishing features of the invention.

SUMMARY OF THE INVENTION

When operating oil fields, one of the important elements of the equipment is a cable designed to supply electrical energy to submersible electrical installations.

Despite the fact that the overhaul period of the wells is about 2-3 years, the cable can be used up to 5-6 years. After the resource is depleted, the cable is sent for processing. When processing the cable, its division into copper conductors, waste armor cover and waste polymers allows you to save natural resources. Copper cores after remelting and obtaining a copper wire rod can again be used as part of the cable.

Due to the significant wear of the armor cover, a large number of short cable sections, difficulties arise during processing. Cutting short segments is associated with high labor costs.

The proposed invention solves the problem of developing and creating a line that allows you to cut a flat three-core armored cable without damaging copper cores, allowing you to effectively cut lengths of 10-100 meters without loss of time, and also provides high performance separate collection of copper core, polypropylene and waste armor tape. The problem is solved as follows.

When developing an oil reservoir, water is pumped through injection wells and oil is taken through production wells. A unit with an electric motor and an ЭЦН5-125 × 1400 pump on a tubing length of 1100 m was launched into the production well of DN 7 with a depth of 1350 m, electric power is supplied to the installation by cable. The production well’s production rate is 120 m ³ / day. Reagent injection was used to increase oil recovery, which affected the electrochemical corrosion of equipment. Well curvature 45 °. The inner diameter of the column is 102 mm. The overhaul period of the well was 750-850 days, during the repair, the pump was replaced, the cable remained operational. After the 3rd repair and testing of 2280 days, it was decided to replace the cable with a new one. The cable was sent for recycling. After processing the cable, smelting the copper cores, the resulting copper wire rod was used to produce a new cable. Then, as part of the installation, a new cable was lowered into the DN 8 production well. The accelerated processing and use of the old cable in the production of the new cable significantly reduced the cost of oil production.

In FIG. 1 shows the design of a coil of a receiving device for collecting copper wire.

1 - cheeks of a drum of a welded structure; 2 - shell.

In FIG. 2 shows the design of a collapsible knife for cutting armored cover with a limiter.

3 - knife; 4 - knife holder; 5 - limiter.

In FIG. Figure 3 shows the construction of a line that allows cutting flat three-core armored cable.

6 - a giving device, on a drum with a diameter of 1.8 meters, 1,130 meters of a 3 × 16 KPBP cable were wound from well DN 7;

7 - oil immersion cable (KPBP 3x16);

8 - site cutting armored cover and non-woven tape with a special collapsible knife for cutting armored cover with a limiter;

9 - a disk knife for cutting armor and non-woven tape (Fig. 2);

10 - lower wheel with teeth and side;

11 - wedge;

12 - removable guide rails for insulated cores;

13 - node cutting insulation;

14 - a strip for separating copper cores from cut insulation;

15 - site crushing polymer;

16 - receiving device with three coils (Fig.1) of increased capacity for collecting copper wire;

17 - control cabinet;

18 - storage capacity.

The application of the proposed line will allow solving the problem of cutting a flat three-core armored cable without damaging copper cores, including cable lengths of 10-100 meters, as well as ensuring high performance separate collection of copper core, polypropylene and waste armor tape; will improve safety and manufacturability when recycling a cable that has expired.

Claims (1)

A line for cutting a three-core flat armored cable containing a transfer device; a cutting unit for the armored cover and non-woven tape, and the upper wheel of this unit is equipped with a collapsible circular knife for cutting the armored cover and non-woven tape, and the lower wheel has teeth and a side; a node for removing insulation from copper wire, and the upper wheel of this node is equipped with three circular knives for cutting insulation, and removable guide rails for three insulated cores are mounted in front of the upper and lower wheels of the node; wherein the armor cover removal unit, the insulation removal unit and the electric drive, which transmits torque via a chain drive to two successive units, are located on a common bed, all wheels of the units are pulling and mechanically connected through a gear transmission and have the same rotation speed, and the gap between the upper and lower wheels in pairs is manually adjusted by a screw drive in the upper parts of the machine nodes; control cabinet; a polymer crushing unit closed by a casing, wherein the polymer is milled on a rotating blade blade; a receiving device with three coils of increased capacity for collecting copper wire mounted on one axis, and the electric drive provides independent rotation of all three coils due to frictions.

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