RU2565954C2 - Device for cable protection and attachment to pump section - Google Patents

Abstract

FIELD: engines and pumps.

SUBSTANCE: this device comprises bed with neck 3 between flanges 4, 5. Part of top flange 5 of pump section 1 is composed of rectangular shape provided with bore for bolt and top site for cable 10 to be placed thereon. Casing with sidewalls 14 provided with holes is placed over said cable 10. Casing top wall lower part and said top site make the groove for cable 10. Said casing is integral while top wall features the length from flange 5 to flange 4. Stiffness ribs are made over the casing length to extend to stepped sidewalls 14. Walls 14 have elongated bore on one side and, on opposite side, a drop-like bore converging to aforesaid bed. Bolt has taper part diverging to bolt head and can be locked at drop-like bore.

EFFECT: higher reliability, simplified design.

12 dwg

Description

The proposed invention relates to safety and fastening devices of cable power lines of submersible electric motors used as drives of centrifugal pumps for the extraction of oil and other formation fluids.

In the modern oil industry, the task of securing the current-carrying cable and protecting it from mechanical damage during tripping operations is solved using various devices. It is known, for example, a fastening device, a protector, (RF Patent 23331801, class F04D 29/62, publ. 08/20/2008), containing a solid body with a groove for laying a cable extension, mounted at the installation site of the pump ribs by means of a bolted connection with a spring the puck. Mounting the housing to the base of the pump section is made directly by bolting to the spring washer and is carried out with additional support on the flange of the base of the pump section. This embodiment ensures the fixation of the cable extension from radial movement relative to the submersible installation.

However, the disadvantage is that laying the cable line in the groove is a time-consuming operation, during which mechanical damage to the cable is inevitable. The inner part of the protector is designed in such a way that the internal walls forming the groove are designed in such a way as to interfere with the free passage of the cable into the groove of the protector, which entails mechanical damage to the cable, and this design does not provide for a structure that would exert a pressure effect on the cable from the side of the protector to the cable and to the base of the pump section, which leads to poor-quality, loose cable pressing. Those. when the axial load acts on the cable, the cable will move inside the groove, being damaged on the walls of the protector, i.e. Protectorizer functions are not performed in practice. This device is not reliable. There is a possibility of a power outage in the cable and a stop of the entire pump section. In addition, during dismantling, the removal of the cable line will be accompanied by mechanical stress on the protectorizer with possible damage to the protectorizer and cable line, which complicates the dismantling and reliability of operation.

Closest to the proposed invention (prototype) is a device (unit) for attaching a cable to the elements of a pump installation (Patent N2417301, E21B 17/00, publ. 04/27/2011), containing a pump section including a base with flanges, the base has a neck made between the flanges, while part of the upper flange is made in the form of a rectangular-shaped part (called the supporting wall in the prototype), having a through hole for the bolt and the upper platform — a horizontal shelf on which the cable is laid, a casing (the protector in the description of otipa) is installed on top of the cable. The lower part of the upper wall of the casing and the upper platform of the rectangular part form a groove for laying the cable.

The side walls of the casing in the prototype are called two protective ribs of the protectorizer, connected by the upper wall (arcuate jumper). The side walls of the casing (in the description of the prototype protective ribs) have seats for accommodating fasteners that serve to fasten the cable by means of a clamping element located above the horizontal shelf of the arcuate jumper, while both protective ribs at one end are provided with holes for the fixing bolt, one of which protective ribs has an opening of a larger diameter and with a displaced center. The fixing bolt is equipped with an eccentric, the fixing bolt has a fixing nut with a washer that is installed in the hole of a larger diameter, and the end and lower surfaces of the protective ribs have a curved interface, while the lower surface of the protective ribs is a supporting surface for contacting the surface of the supporting platform of the base of the pump section.

The disadvantage is that the entire clamping element is made in the form of a narrow metal strip (upper wall of the casing). When external forces act on the cable, a voltage concentration occurs in the place of attachment of the upper wall - the jumper of the clamping element. Those. all the load goes to a small area of the part of the clamping element encircling the cable, equal to the area of the jumper holding the cable, which leads to damage or breakage of the cable in this place. This reduces the reliability of the device. The disadvantage is that in the prototype there is no protection against mechanical frontal influences, because the jumper does not protect the cable throughout the entire length of the base of the pump section due to the fact that it is made in the form of a narrow metal strip.

The disadvantage is that the prototype consists of three components: side walls - in the description of the prototype are presented as protective ribs in the form of two separate parts, interconnected by a jumper using bolted connections. It is known that each assembly unit is a stress concentrator and carries the risk of the presence of factory defects, which negatively affects the reliability of the prototype.

The disadvantage is that when tightening the bolt with a nut, only the side walls (protective ribs) are pressed against the rectangular part (supporting wall), but the upper wall (arched bridge) is not pressed against the cable and the cable is pressed to the upper platform of the rectangular part. The prototype has two holes: one is made round in shape for the thread of the bolt, and the second hole has a larger diameter for fixing the bolt shaft with an eccentric made at the head of the bolt. The eccentric has the configuration of a larger hole and is installed in the larger hole, which prevents the bolt from turning when tightened (i.e., the function of the eccentric of the bolt is to fix the bolt in one position in the largest hole of the protector protector edge).

In the prototype, a rather labor-intensive operation of pressing the cable with two bolts, in turn, and the entire installation with three bolts.

The objective of the invention is to increase the reliability of the device for protecting and attaching the cable to the pump section (hereinafter referred to as the device) while simplifying the device and the design of the pump section as a whole. The problem is solved due to the technical result - ensuring reliable fixation of the cable with the minimum dimensions and weight of the device.

The problem is solved by the present invention due to the fact that in the device for protecting and attaching the cable to the pump section containing the base, in which there is a neck made between the flanges, while part of the upper flange is made in the form of a rectangular shape with a through hole for the bolt and the upper platform on which the cable is laid, the casing is mounted on top of the cable and has side walls provided with holes, while the lower part of the upper wall of the casing and the upper platform form a groove for the cable, a bolt, According to the invention, the casing is made integral, the upper casing wall has a length from the upper to the lower flange, stiffeners are made along the entire length of the casing, passing into the side walls of the casing, made stepwise, the side walls are provided on one side with an oblong hole, on the other hand with a larger hole the diameter of the drop-shaped form, tapering to the base, the bolt has a conical part, expanding to the head of the bolt, with the possibility of fixing in the hole of a drop-shaped form.

In the prototype, the casing consists of three components: side walls interconnected by a jumper, and in the proposed device, the casing is solid, i.e. does not have assembly elements. The absence of components and joints of parts in the proposed casing minimizes the possibility of marriage of the mounting device, thereby achieving installation speed, eliminating the minimization of errors during installation, which increases the reliability of the design and, accordingly, the reliability of the device.

The execution of the upper part of the casing with a length from the upper to the lower flange protects the cable extension from direct (frontal) mechanical damage during tripping operations along the entire length of the base of the pump section and ensures that the cable extension is pressed against the upper platform of the rectangular part along its entire length, which provides reliable and safe pressing, holding the cable, excluding mechanical damage to the device even when external forces act on the cable or on the entire column as a whole, during hoisting operations Barrier-. In contrast to the prototype, in which there is a concentration of voltage over a small area, because the clamping element is made in the form of a narrow metal strip, in the present invention, the voltage is distributed over the entire length of the casing, i.e. from the upper to the lower flange, which eliminates the concentration of stress in one narrow place, keeping the cable. This leads to increased reliability of the device.

The implementation of stiffeners along the entire length of the casing, passing to the sides of the casing, increases the tensile strength of the casing during bending, i.e. provide lateral rigidity of this design. The side walls are made stepped in order to increase the size of the side walls, that is, the cross section of the casing, which also increases the stiffness of the casing, which leads to increased reliability of the device.

Stiffening ribs and side walls of the casing prevent the cable from moving in the radial direction and serve as protection for the cable extension from mechanical side and frontal influences throughout the entire length of the base of the pump section, which leads to an increase in the reliability of the device. But the prototype protects the cable only from lateral mechanical damage.

Unlike the prototype (in which the jumper is narrow, the area of its pressing against the cable is small), in the present invention, the cable is securely fixed to the base in comparison with the prototype, because the maximum possible pressing area is provided, which increases the reliability of the device.

In the present invention, a single bolt is used to clamp the side walls of the casing to the rectangular part, as well as to press the upper wall of the casing to the cable and to the upper platform of the rectangular part. In the prototype, this is done using three bolts, which entails an increase in the dimensions of the device itself, which reduces the clearance of the section of the tubing string. The mass of the device (assembly) in the prototype also increases. The proposed device allows to increase the clearance of the cross-section of the tubing string in comparison with the prototype due to the smaller dimensions of the device, which ensures the reliability of the device and, therefore, the safe descent and lifting of the tubing string.

In the prototype, a rather complicated and time-consuming operation of pressing the cable is with two bolts, and in turn.

In the present invention is installed and tightened simultaneously with one bolt, which simplifies the installation of the device while increasing the reliability of the device.

In the present invention, a rectangular part with a through hole serves as a seat when fixing the device with a bolt through the through hole.

When tightening the bolt with the nut in the prototype, only the side walls (protective ribs) are pressed against the rectangular part (supporting wall). The prototype has two holes, the axes of these holes are offset relative to each other, one is made round in shape for the thread of the bolt, and the second hole has a larger diameter for fixing the bolt shaft with an eccentric made at the head of the bolt. The eccentric has the configuration of a larger hole and is installed in the hole of a larger diameter, which eliminates the rotation of the bolt when tightening. In the present invention, the mounting of the device casing is carried out in a fundamentally different way. In the prototype, the eccentric bolt is installed and fixed only in the side walls of the casing (protector), i.e. its role is limited to fixing and holding the bolt in the wall of the protector. The conical part of the bolt of the present invention is made so that the radius of the through hole of the rectangular part is larger than the radius of the main part of the threaded bolt, but less than the radius of the cross section of the conical part of the bolt at the head of the bolt. The conical part enters through the drop-shaped hole into the through hole of the rectangular part, being tightened with a nut on the other side of the casing, and the side walls of the casing are tightened while the entire casing is lowered onto the cable. When the nut and washer are rotated, the bolt translates. In this case, the casing makes a movement in a plane perpendicular to the axis of the bolt. This ensures that the cable casing is pressed against the rectangular part of the base of the pump section. This leads to increased reliability of the device while simplifying the device and the design of the pump section as a whole.

And in the prototype, when the nut rotates, the protector is not lowered onto the cable and pressed against the top of the rectangular part. In the prototype, two recesses are made on the sides of the horizontal shelf of the jumper, in which two mounting holes are made specifically for fastening the cable by means of a bracket and two fasteners, bolts or screws. Thus, in the prototype, the cable does not press against the rectangular part made in the upper part of the base of the pump section by screwing the nut and washer on a bolt with an eccentric.

In the present invention, the device is fixed to the base as follows: a bolt is inserted through the drop-shaped hole of the side wall of the casing, through the through hole of the rectangular part in the base of the pump section, through the oblong hole of the second side wall of the casing. Unlike the prototype, the axes of these holes are not offset relative to each other. The bolt has a threaded main part and a conical part expanding toward the head of the bolt. At the same time, the nut, passing through the thread, pulls the bolt to its side through the oblong hole and pulls from the other side of the casing the expanding conical part to the head of the bolt to the tear-shaped hole. The narrow part of the drop-shaped hole is equal to the diameter of the main part of the bolt and is made expanding towards the cable extension. When the cone part passes through the drop-shaped hole, the cone part of the bolt, when tightened with a nut, increasing in the cross section of the drop-shaped hole, tends to occupy the largest radius, which leads to lowering the casing to the cable and tightly pressing the cable to the upper platform of the rectangular part.

The oblong hole is made of the same radius with parallel guides for the purpose of vertical movement of a bolt in it along parallel guides.

The teardrop-shaped hole is made with different radii, interconnected by conical guides in order to move the conical part of the bolt in it along the conical guides from a smaller radius of the teardrop-shaped hole to a larger one. Damage to the cable is eliminated due to the smooth adjustment of the cable clamp. Tightening the nut makes it possible to smoothly adjust the clamping of the cable with an accuracy of microns. Insulation is applied to each conductive element of the cable, on top of which lead is applied when using the cable at higher temperatures. If the cable is made using lead, it is heavier and requires a tighter pressure than a cable without lead. Thus, smooth adjustment of the cable clamp leads to the expansion of technological capabilities.

The nut is installed with a washer. A spring washer serves to prevent the nut from twisting under the influence of vibration and external influences. A bolt is used for fastening.

In the present invention, the protective device is facilitated to a minimum weight, that is, the dimensions are reduced to the minimum possible. The dimensions and weight of the proposed device allow you to install additional equipment, for example, telemetry, electrical insulation, etc., in this area, without going beyond the dimensions of the pump section, which also leads to the expansion of technological capabilities. The prototype has large dimensions, it is much more voluminous, which reduces the possibility of installing additional equipment.

This design can be made of any metal grades that are not susceptible to aggressive environments, which allows you to use the device in any conditions, which also leads to the expansion of technological capabilities and increases the number of cycles of use of this device, which increases the reliability of the device.

The invention is illustrated by drawings, where in Fig.1 shows a side view of the proposed device; figure 2 is a side view of the base section of the pump; figure 3 is a section A-A in figure 2; figure 4 is a front view of the support wall and the neck of the pump section; figure 5 - side wall of the casing with an elongated hole; figure 6 - side wall of the casing with a drop-shaped hole; Fig.7 is a bolt with a head with a conical and main parts, side view; on Fig - nut, the main view and the left view; figure 9 - spring washer, the main view and the left view; figure 10 - casing isometric; figure 11 is a device, an isometric view from above; on Fig - installation diagram of the device on the sections of the pump installation.

The device comprises a pump section 1 (Figs. 1-12), including a base 2 (Figs. 1 and 2), a neck 3 (Figs. 1 and 2), flanges 4 and 5 (Figs. 1 and 2), a rectangular part 6 (figure 2 and 3), having a through hole 7 (figure 2 and 3) for the bolt 8 (figure 7) and the upper platform 9 (figure 2, 3, 4), on which the cable 10 (figure 1 and 4). On top of the cable 10 is placed on the casing 11 (figure 10). The casing 11 has stiffening ribs 12 (FIG. 4), passing into the side walls 13 and 14 and the upper wall 15. The side wall 13 (FIGS. 4 and 6) is provided on one side with an oblong shaped hole 16, and the side wall with a hole on the other side drop-shaped form 17 (Fig.6 and 5) From the side of the holes of oblong form 16 on the bolt 8 is installed nut 18 (Fig.8) with a washer 19 (Fig.9). The bolt 8 has a conical part 20 (Fig. 7), expanding to the head of the bolt 21 (Fig. 7), and a main part with a thread 22 (Fig. 7), and the conical part 20 of the bolt is fixed on the drop-shaped hole 17. In this case, the upper platform 9 forms a groove 23 (figure 4) with the proposed device 24 (figure 11).

The device operates as follows.

During assembly of the section of the submersible pump unit 1 (Fig. 1, Fig. 12), the device 24 (Fig. 11) is mounted to the base of the pump section 2 (Figs. 1 and 2) as follows: the bolt 8 (Fig. 7) is installed through a drop-shaped hole 17 (Fig.6) of the side wall 14 (Fig.6) of the casing 11 (Fig.10), then through the through hole 7 (Fig.2 and 3) of the rectangular shape 6 (Fig.2 and 3) at the base of the section pump 2 (figures 1 and 2), then it passes through an oblong hole 16 (figure 5) of the second side wall 13 (figure 5) of the casing. The bolt 8 (Fig.7) consists of a main part with a thread 22 (Fig.7) and a conical part 20 (Fig.7), expanding to the head of the bolt 21 (Fig.7). When tightening the nut 18 (Fig. 8) pulls the bolt 8 (Fig. 7) to its side through the elongated hole 16 (Fig. 5) and pulls the expanding conical part 20 (Fig. 7) from the other side 14 (Fig. 6) to the head of the bolt 21 (Fig.7) to the tear-shaped hole 17 (Fig.6). The narrow part of the drop-shaped hole 17 (Fig. 6) is equal to the diameter of the main part of the bolt 22 (Fig. 7) and is made expanding towards the cable extension 10 (Figs. 1 and 4). When passing the conical part 20 (FIG. 7) through the tear-shaped hole 17 (FIG. 6), the conical part of the bolt 20 (FIG. 7) while tightening with the nut 18 (FIG. 8), increasing in cross section of the tear-shaped hole 17 (FIG. 6), tends to occupy the largest radius, which leads to lowering the device to the cable 10 (Figs. 1 and 4) and tightly pressing the cable 10 (Figs. 1 and 4) to the upper platform 9 (Figs. 2, 3, 4) of a rectangular shape.

The oblong hole 16 (Fig. 5) is made of the same radius with parallel guides for the purpose of vertical movement of the bolt 8 (Fig. 7) along the parallel guides.

The teardrop-shaped hole 17 (FIG. 6) is made with different radii interconnected by the conical guides in order to move the conical part of the bolt 20 (FIG. 7) along the conical guides from the smaller radius of the teardrop-shaped hole 17 (FIG. 6) to the larger one. Damage to the cable 10 (figures 1 and 4) is excluded due to the smooth adjustment of the clamping of the cable 10 (figures 1 and 4). Tightening the nut 18 (Fig. 8) makes it possible to smoothly adjust the pressing of the cable 10 (Figs. 1 and 4) with an accuracy of microns. Insulation is applied to each conductive element of the cable, on top of which lead is applied when using the cable at higher temperatures. If the cable 10 (FIGS. 4 and 1) is made using lead, it is heavier and requires a more tight pressing as compared to cable 10 without lead. Thus, the smooth adjustment of the clamping of the cable 10 leads to the expansion of technological capabilities.

The nut 18 (Fig. 8) is installed with the washer 19 (Fig. 9). The spring washer 19 is used to prevent the nut 18 from unwinding under the influence of vibration and external influences.

Thus, the proposed device also leads to a reduction in time and simplification of installation, dismantling, reducing the size and number of nodes of bolted connections in the structure, minimizing the occurrence of errors during dismantling of the device, eliminating the possibility of cable breakage, ensuring the reliability of the device.

Dimensions, weight and the absence of the constituent elements of the casing provide the device low cost.

Claims (1)

The device for protecting and attaching the cable to the pump section containing the base, in which there is a neck made between the flanges, while part of the upper flange is made in the form of a rectangular part having a through hole for the bolt and the upper platform on which the cable is laid, the casing is mounted on top cable and has side walls provided with holes, while the lower part of the upper wall of the casing and the upper platform form a groove for the cable, a bolt, characterized in that the casing is made whole, the upper wall of the casing has lengths from the upper to the lower flange, along the entire length of the casing, stiffeners are made, passing into the side walls of the casing, made in steps, the side walls are provided on one side with an oblong hole, on the other hand with a larger diameter drop-shaped hole, tapering to the base, the bolt has conical part, expanding to the head of the bolt, with the possibility of fixation in the hole of a drop-shaped form.

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