RU171374U1 - A device for lowering an autonomous device into the well during the swabbing process - Google Patents

Abstract

A device for lowering an autonomous device into a well during a swab process refers to the oil and gas industry and can be used in the development and operation of wells by a swab method, namely for lowering autonomous deep instruments as part of a swab equipment. The technical result achieved by the implementation of the claimed utility model, is to increase the technical resource of threaded joints of deep-seated swab equipment and reduce the time spent on the production of preparatory works considerably by eliminating the mounting-dismounting operation device composed svabnogo oborudovaniya.Tehnichesky result is achieved in that the container features for standalone instrument performs load svabny modified with the possibility of accommodating the auxiliary tool. The body of the bulk cargo is not a hollow cylinder with an instrument compartment made in it - a “pocket” for an autonomous device and with a longitudinal side window for installing and removing the device. At the same time, the springs installed in the upper and lower parts of the pocket reliably protect the stand-alone device not only from shock, being shock absorbers, but also from unauthorized loss, playing the role of a lock. Installing and removing the stand-alone device from the depth equipment, will increase operational characteristics and reliability of equipment.

Description

The utility model (PM) relates to the oil and gas industry and can be used in the development and operation of wells by the swabbing method, namely for launching autonomous deep-well instruments as part of the swab equipment.

A set of accessories for swabbing is known (certificate for utility model RU 29746 U1, MPK7 E21B 43/00, 2003), which contains an instrument head with adapters for connection to cable heads of different sizes, swivel, jar, housing for installing swab cuffs, loads containers for their installation together with devices and sensors on the cable above the equipment and other elements that may be in demand during well development.

The disadvantage of a snap kit is the presence of a large number of transitions that must be constantly monitored. At these crossings, the useful weight of the downhole equipment is lost, which leads to its unjustified elongation, and ultimately to an increase in the height of the lubricator.

A device for measuring downhole parameters (RU 75690 U1, MPK7 E21B 47/00, 2006) is known, which comprises a housing configured to be lowered into the borehole chamber and capable of installing at least one downhole tool therein. A feature is that the specified housing has a solid base, in which at least one seat is made, designed to be installed in it a deep device. The specified body can be made integral and equipped with a gripping device that holds it in the eccentric channel of the borehole chamber, connected to the head and shank. The housing may be made with a hydraulic channel communicating when the housing is connected to the head or shank with a hydraulic channel made in the head or shank. Also, the housing may have external sealing elements, centering elements.

The disadvantage of this device in relation to the study of the well during the swab process is the lack of the ability to quickly install and securely mount stand-alone devices (AP) without dismantling this device.

The closest in technical essence to the proposed one is the swab container for the AP KS 00-01-00, which is included in the layout of the deep part of the swab equipment through standard quick-disconnect joints (BRS) at its ends. The swab container has a hollow body for placement of the AP and adapters in it: from the bottom - for connection via the BRS to the swab mandrel; from above - also by means of BRS to the load or cable end. To fix the AP, spring shock absorbers are provided, and to provide hydraulic communication between the inner cavity of the container and the downhole space, there are channels on the side surface of the housing. Such containers are currently supplied by many manufacturers of swab equipment, in particular PJSC TATNEFT Bugulminsky Mechanical Plant (passport of the technical device PS-2012 “Swab container KS-00-01” is attached).

The disadvantage of the device adopted as a prototype is the need, and each time when laying the device in the container and its removal, to disconnect the container from the deep swab equipment and disassemble it separately, which causes additional wear of the threaded connections of the equipment and increase the time for the preparatory work .

The proposed device is aimed at eliminating the disadvantages identified in the prototype. The technical result achieved in the implementation of the claimed utility model is to increase the technical resource of threaded joints of deep-seated swab equipment and reduce the time spent on preparatory and final work by eliminating the installation and dismantling of the device as part of the swab equipment.

The technical result is achieved in that the functions of the container for the AP are performed by the swap cargo, modified with the possibility of placing the AP in it. The body of the bulk cargo is not a hollow cylinder with an instrument compartment made in it - a “pocket” for the AP and with a longitudinal side window for installing and removing the device. At the same time, the springs installed in the upper and lower parts of the pocket reliably protect the AP not only from shock, being shock absorbers, but also from unauthorized loss, playing the role of a lock.

The essence of the PM is illustrated in the drawing. The device is a swab load - not a hollow cylinder 1, which includes an instrument compartment - a "pocket" 2, a longitudinal side window 3, an upper BRS 4, lower BRS 5, upper 6 and lower 7 springs. An opening 8 is made in the cylinder for flushing the instrument compartment 2.

The device operates as follows. In the swab cargo included in the borehole assembly, through the longitudinal side window 3, the AP is installed in the instrument compartment 2, fixing it with springs 6 and 7. In the swab process, the AP records the necessary parameters for well development. To take the testimony of the AP, it is removed from the instrument compartment 2 of the swab cargo 1 when lifting to the surface of the borehole assembly.

When swabbing a well, the device according to the invention is introduced into a deep well assembly by means of quick loops 4 and 5. If necessary, the number of swab loads with devices placed in them is unlimited and is regulated by the technological situation and well parameters. The proposed device can be used without placing the AP in it, if there is no need to study the well during the swab process.

Thus, the use of the proposed device will increase the technical resource of the threaded joints of the swab equipment and reduce the time spent on the preparatory work due to the elimination of the installation and dismantling of the container for AP as part of the swab equipment.

Claims (1)

A device for lowering a stand-alone device, consisting of a cable adapter, loads and a mandrel with a swab seal cuff, characterized in that at least one of the loads is made with a “pocket” for a stand-alone device and with a longitudinal side window of a certain height for installing and removing the device through him, while the device is placed between the spring shock absorbers, which are simultaneously elements of the lock, fixing it from falling out.

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