RU2568202C1 - Device for cleaning of inner surface of tubing string - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: device comprises weighing agent 1, which one end is coupled to connection unit towards flexible tractional body 2, while its other end is coupled to cowl 3 shaped as a cone in the specified example. Scraper 4 represents a sleeve 5 with cutting elements 6 fixed on it. Scraper 4 is put on with sleeve 5 to weighing agent 1 so that it can rotate and move along axial axis of weighing agent 1. At ends of weighing agent 1 there are fixed limit stops 7, 8 of sleeve 5 in scraper 4. Scraper 4 is capable of rotational and linear movement. In result during trip operations scraper 4 takes optimal position at weighing agent 1 as stipulated by density of deposits and speed rate of fluid in the tubing string.

EFFECT: reduced probability of emergencies due to improvement in conditions for removal of cut deposits from the rubbing string by reducing dependency of emergencies occurrence on the ratio between speed rate of fluid movement and speed rates of scraper running and retrieving at deposits cutting; improved quality of cleaning.

2 cl, 2 dwg

Description

The invention relates to the oil industry and can be used to remove asphalt-resin-paraffin deposits from the inner surface of tubing.

A device for cleaning the inner surface of a tubing is known, the first option (RF Patent No. 2393333, ЕВВ 37/02, 06/27/2010), including an extended housing, which is simultaneously a weighting agent, the lower end of which is connected to the fairing. A scraper is rigidly fixed at the upper end of the weighting agent connected to the attachment unit to the flexible traction member.

Since in the known device the scraper is mounted on the upper end of the housing, the cut off deposits immediately fall into the free space and are carried out without difficulty upward from the tubing (liquid tubing). This reduces the likelihood of a scraper being thrown during the descent. However, when raising a scraper, the situation changes sharply, since the ratio of the speeds of movement of the scraper during lifting and the velocity of the liquid medium in the tubing comes to the fore, which is individual for each well and non-observance of which leads to a toss of the scraper, especially for high-yield wells.

Closest to the proposed is a device for cleaning the inner surface of the tubing containing a weighting agent, one end of which is connected to the node connecting to the flexible traction body; a scraper connected to the lower end of the weighting material for rotation; the free end of the scraper is connected to the fairing (RF, utility model patent No. 87204, ЕВВ 37/02, 09/27/2009).

A disadvantage of the known device is the following. When the scraper moves downward, the cut paraffin, when it is removed from the tubing with a liquid medium, passes through the scraper structural elements and then along the entire weighting body through the narrow space between the inner tubing wall and the weighting compound. In this case, the efficiency of sediment removal from the tubing directly depends on the speed of the fluid. Therefore, in this case, it is necessary to correlate the cutting speed (speed of descent of the scraper) with the velocity of the fluid in the tubing, which is especially important for low-production wells. Otherwise, the accumulation of cut deposits in the tubing occurs, which can lead to the passage of the scraper.

In addition, when raising the scraper, as in the case of an analogue, the ratio of the speeds of the scraper during lifting and the velocity of the liquid medium in the tubing comes to the fore, which is individual for each well and non-observance of which leads to a throw of the scraper, especially for high-yield wells.

The present invention solves the problem of creating a device for cleaning the inner surface of a tubing, the implementation of which allows to achieve a technical result, which consists in reducing the likelihood of accidents due to the possibility of improving the conditions for removal of cut deposits from the tubing by reducing the dependence of the occurrence of emergencies on the relationship between speed liquid medium in tubing and scraper descent and ascent rates when cutting sediments, and also - to improve the quality cleaning.

The essence of the invention lies in the fact that in the device for cleaning the inner surface of the tubing, including a weighting material, one end of which is connected to the node connecting to the flexible traction body, a cowl, a scraper, mounted for rotation, it is new that the second end of the weighting agent connected to the fairing, and the scraper is a sleeve on which the cutting elements are fixed, while the scraper is put on the weighting body with the sleeve with the possibility of rotation and movement along the longitudinal axis of the weight the elite. At the same time, the end stops of the scraper sleeve are fixed at the ends of the weighting compound.

The essential features of the claims of the claimed device: “A device for cleaning the inner surface of the tubing, including a weighting agent, one end of which is connected to the connection unit to the flexible traction unit, a fairing, a scraper, rotatably fixed, ...” are an integral part of the claimed device and ensure its feasibility, and therefore, ensure the achievement of the claimed technical result.

The claimed technical result is achieved as follows. The quality of cleaning the inner surface of the tubing is directly related to the provision of conditions for the removal of cut deposits by the liquid medium from the tubing. In this case, the conditions for the removal of cut sediments from the tubing are determined by both the design of the scraper device and the speed of movement of the liquid medium in the tubing, which carries the cut deposits to the outside.

When the scraper is fixed on the lower end of the weighting agent, when the scraper moves downward, the cut off deposits under the action of a moving fluid pass through the elements of the scraper and then along the weighting agent through the narrow space between the inner tubing wall and the weighting agent, i.e. overcome the entire internal space corresponding to the cleaned surface of the tubing. In this case, in improving the conditions for removal of cut deposits, the main role is played by the correspondence of the scraper descent speed (cutting speed) to the fluid velocity in the tubing, the mismatch of which leads to a high probability of scraper tossing.

The optimal conditions are for the removal of cut deposits, when either the wire or the open space immediately follows the cutting zone, i.e. when securing the scraper at the top. When the scraper is fixed at the upper end of the weighting agent, when the scraper moves downward after cutting, the paraffin immediately enters the free space and is carried out without difficulty upward with the liquid medium. Therefore, with such a fastening of the scraper, the number of tosses of the scraper during descent is reduced.

However, when lifting the scraper (the same applies to the option of securing the scraper at the bottom of the weighting agent), the probability of the scraper tossing up increases, since in this case the ratio of the speeds of the scraper and the liquid also plays an important role, which is different for each well.

In the proposed device, the scraper is worn on the weighting with the possibility of rotation and movement along the longitudinal axis of the weighting. To prevent slipping from the weighting agent, the end stops of the scraper sleeve are fixed at the ends of the weighting agent.

In this case, when descending, the scraper, under the action of the oncoming flow of the liquid medium, occupies a position near the upper limiter on the weighting material and, under the action of the gravity weighting force, moves downward, crashing into the deposits. In the claimed device, the scraper is held in the upper position by the upper limiter, the gravity of the weighting agent and the oncoming flow of the liquid medium. As a result, in the inventive device during descent, the scraper is fixed on the upper end of the weighting agent. This provides optimal conditions for the removal of cut deposits, when either the wire or open space immediately follows the cutting zone, since the cut deposits immediately fall into the free space and are easily carried upward by the liquid medium, which reduces the number of scraper surges during descent.

When lifting the device upward at a speed exceeding the speed of the liquid medium, the scraper occupies a lower position on the weighting material near the lower limiter of the scraper stroke and is held in it by the cutting force obtained through the scraper wire pulling it up and the lower stroke limiter, fixing its position on the weighting compound. Thus, in the inventive device when lifting at a speed exceeding the speed of movement of the liquid medium, the scraper is fixed on the lower end of the weighting agent, which also provides good conditions for the removal of cut deposits from the tubing.

If the fluid velocity exceeds the scraper's lifting speed and, in addition, the cutting force is low (for example, the operation of cleaning the sediment layer cut during descent is performed), the scraper moves under the fluid force to the upper position and is fixed at the upper limiter. Thus, in this case, the scraper is fixed at the upper end of the weighting agent, which also ensures good removal of cut deposits from the tubing.

From the foregoing, it follows that in the claimed device, both during the descent of the device and when lifting the device, the scraper, as a result of the possibility of rotational and linear movements, occupies an optimal position on the weighting agent, due to the density of deposits and the speed of movement of the liquid medium in the tubing.

Since the position of the scraper is directly related to the density of deposits and the velocity of the fluid in the tubing, this allows you to pre-select the mass of the cargo, taking into account the range of possible densities of the cut sediments and the velocities of the fluid in the tubing. As a result, the conditions for removal of cut sediments from the tubing are improved, which reduces the likelihood of a scraper toss up, and therefore reduces the likelihood of emergency situations.

In addition, the functionality of the claimed device is expanded, in comparison with the prototype, since the possibility of preliminary selection of the mass of the cargo, taking into account the range of possible densities of cut sediments and the velocities of the fluid in the tubing, allows the use of the claimed device in wells with different flow rates.

Since the position of the scraper on the weighting agent is not fixed, namely: “the scraper is put on the weighting element with the sleeve with the possibility of rotation and movement along the longitudinal axis of the weighting agent”, this allows to increase the weighting length to the length of the lubricator, i.e. increase the weight of the weighting agent. This feature allows you to vary the weight of the weighting agent, providing the necessary conditions for cutting in a particular tubing, taking into account the speed of movement of the liquid medium in it. As a result, the cutting conditions, the conditions for the removal of cut deposits from the tubing are improved, the quality of cleaning increases, the likelihood of a scraper toss up, and therefore the likelihood of emergency situations, is reduced.

Thus, from the foregoing, it follows that the claimed device for cleaning the inner surface of the tubing during implementation provides a technical result, which consists in reducing the likelihood of accidents due to the possibility of improving the conditions for removal of cut deposits from the tubing by reducing the dependence of the occurrence of emergencies on the ratio between the speed of movement of the liquid medium in the tubing and the speeds of the descent and rise of the scraper when cutting sediments, and also - to improve Quality purification.

In FIG. 1 shows the claimed device for cleaning the inner surface of the tubing with the upper position of the scraper; in FIG. 2 - with the bottom position of the scraper.

The claimed device for cleaning the inner surface of the tubing contains a weighting agent 1, one end of which is connected to the node connecting to the flexible traction body 2, and the second is connected to the fairing 3, made in the example in the form of a cone. The scraper 4 is a sleeve 5, on which the cutting elements are fixed 6. The scraper 4 with the sleeve 5 is worn on the weighting 1 with the possibility of rotation and movement along the longitudinal axis of the weighting 1.

At the ends of the weighting 1 are fixed stroke limiters 7, 8 of the sleeve 5 of the scraper 4, for example, by means of threaded rods.

The claimed device operates as follows. Open the valve, turn on the electric motor, which drives the drum for winding the scraper wire, and lower the claimed device into the tubing, which, under the influence of the weight of the weighting agent, continues to slowly move forward, cutting off the paraffin.

A fairing 3 crashes into the deposits first, which centers the position of the device in the tubing. The fairing 3 provides a laying of the working channel: loosens and at the same time smooths deposits in front of the scraper 4. In the proposed embodiment, the fairing 3 is made in the form of a cone. The conical shape reduces the oncoming resistance of the medium when the weighting agent 1 moves down, which facilitates the advancement of the entire device as a whole, makes the progression smoother.

The weighting agent 1 gradually falls down under the weight of its weight. The initial position of the scraper 4 is on the lower end of the weighting agent 1. The position of the scraper 4 is not fixed, since the scraper 4 is worn on the weighting device with the possibility of rotation and movement with force along the longitudinal axis of the weighting material 1. As a result, the scraper 4 crashes into the deposits under the weight of the weighting agent 1 and the account of the friction force is rotated while moving downward, performing a cut. In this case, the scraper 4 encounters in its path the resistance of a liquid medium moving in the opposite direction. As a result of the possibility of rotational and linear movements, the scraper 4 occupies the upper position on the weighting material 1. The scraper 4 is held on the weighting material in the upper position by the scraper stroke stopper 7, the oncoming fluid flow and the cutting force created by the weight of the weighting material 1. Cut off deposits without encountering obstacles in its path are carried out by a stream of liquid medium.

After passing the cone 5 in the tubing to the depth of cleaning, a reverse stroke of the device is performed. The cutting process is similar to the previous one. However, the position of the scraper 4 on the weighting 1 is determined by the ratio of the lifting speed of the device (cutting speed) and the speed of the liquid medium.

When lifting the device upward at a speed exceeding the speed of the liquid medium, the scraper 4 occupies a lower position on the weighting material 1 near the lower stroke limiter 8 of the scraper and, when the device moves upward, is held in it by the cutting force obtained through the scraper wire (not shown) pulling it upward and the lower stroke limiter 8, fixing its position on the weighting material 1. As a result, optimal conditions are provided for removal of cut deposits from the tubing.

When the fluid velocity exceeds the lifting speed of the scraper 4 and the cutting force is low, the scraper 4 moves to the upper position under pressure of the liquid medium and is fixed at the upper limiter 7, which also provides optimal conditions for removal of cut deposits from the tubing.

Claims (2)

1. A device for cleaning the inner surface of the tubing, including a weighting material, one end of which is connected to the connection unit to the flexible traction body, a cowl, a scraper, mounted rotatably, characterized in that the second end of the weighting compound is connected to the cowling, and the scraper is a sleeve on which the cutting elements are fixed, while the scraper is put on the weighting material with the sleeve so that it can rotate and move along the longitudinal axis of the weighting material. 2. The device according to claim 1, characterized in that the end stops of the scraper sleeve are fixed at the ends of the weighting compound.

Images