RU75690U1 - DEVICE FOR RESEARCHING WELLS - Google Patents

Abstract

The utility model relates to the oil and gas industry and can be used to measure the physical parameters of the medium when exploring wells. The device comprises a housing made with the possibility of descent into the borehole chamber and the possibility of installing a downhole device in it. In this case, the housing has a solid base, in which a seat is made, designed to be installed in it a deep device. The housing can be made integral and equipped with a gripping device that holds it in the eccentric channel of the borehole chamber, or connected to the head and shank. The housing can be made with a hydraulic channel, which when connecting the housing to the head or shank communicates with a hydraulic channel made in the head or shank. Also, the housing may have external sealing elements, centering elements. 2 ill.

Description

The utility model relates to the oil and gas industry and can be used to measure the physical parameters of the medium when exploring wells.

A device for measuring downhole parameters, including lowered into the borehole on a pipe string, a landing nest in the form of a borehole chamber, in which is located a downhole tool / RU 2249108 C1, E21B 47/00, publ. 2005.03.27 /. The deep device, inside which the measuring system is located, is made in the form of a hollow body having hydraulic channels. The measuring system is made in the form of one or a number of devices or is made in the form of a hollow cylinder with one or more sensors for measuring one or more physical quantities. To prevent dynamic load from the housing to the measuring system, when installing and removing the depth tool, there are dampers made of one or more elements in the form of, for example, cuffs, rings, springs, foam, foam, etc.

The known device is a complex design, since several measuring systems, several hollow sensor housings, often negatively affecting each other, are located in one hollow body of a deep-well instrument. They are connected with each other and with the annular and / or annular space by means of hydraulic channels that are often clogged with mechanical impurities.

The main drawback is the piling of the structure, when another housing with any sensor is inserted into one hollow body. It turns out that various sensors enclosed in sealed hollow housings are inserted into the common hollow body of the measuring system. It is very difficult to create hydraulic channels in the hollow body, connecting the hollow body of the sensors to measure various parameters. The location in one hollow body of mutually affecting sensors (for example, a flowmeter and sound level meter) reduces the accuracy of measurements and determination of well parameters.

The fragility of the hollow body with external sealing elements is caused by the small thickness of the walls of the body, for example, under the sealing elements, collet, which leads to its destruction during its shock installation (using a mechanical jar) in the borehole chamber.

The task to which the claimed technical solution is directed is to develop such a design of a device for researching wells that allows measurements of various well parameters in accordance with the required geological and technical conditions.

When implementing a utility model, the problem is solved by achieving a technical result, which consists in simplifying the design, increasing the reliability and efficiency of measuring physical quantities in the pipe cavity and / or annulus in production and injection wells with one or more production facilities (formations).

The specified technical result is achieved by the fact that in the known device for measuring downhole parameters, comprising a housing made with the possibility of descent into the borehole chamber and the possibility of installing at least one depth device in it, the feature is that said housing has a solid base, in which at least one seat is designed for installation of a downhole device therein. 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.

Due to the implementation of the housing for the installation of devices in the form of a solid base, optimization of the technological mode of separate deep installation is achieved by ensuring the autonomy of their work. At the same time, there is no need for the housing to have narrow hydraulic channels of small diameter, often clogged with dirt, paraffin, mechanical impurities, sand, etc. Separate fixing of devices will allow obtaining reliable results of borehole parameters during research, especially when applied simultaneously and separately (ORE ) (production and injection) of several strata of wells of multilayer fields.

When installing deep instruments in the borehole chamber, an increase in the reliability of the device is ensured by the presence of a rigid solid base that takes all the impact upon itself, since it is the most durable and mechanically resistant to tearing, breaking, bending, and corrosion than thin hollow bodies.

Device for researching a well is illustrated by drawings, where Fig.1-2 shows a device for researching wells.

A device for researching wells includes a housing 1 made in the form of a solid base and with the possibility of installation in a borehole chamber having hydraulic channels for connecting the pipe and annular spaces. As

material for the base, you can use, for example, metal or material prepared on the basis of polymer or plastic masses, providing the necessary rigidity for installation of deep devices and the safety of the case under shock. In case 1, seats 2 are made for installing deep-well devices 3. The deep-well device 3 is understood to mean a hollow body in which a sensor with a sensing element is built-in, designed to measure downhole parameters in a pipe or annular space.

Case 1, depending on the geological conditions, can be made integral, for example, from a number of sections - buildings connected to each other.

The housing 1 of the device can be connected to the collet 4 device for fixing and holding it with devices 2 in the eccentric pocket of the borehole chamber, or can be connected to the head 5 and the shank 6. In the housing 1 can be made of a hydraulic channel 7 (figure 2), communicating when connecting the housing 1 to the head 5 or the shank 6 with a hydraulic channel 9 made in the head 5 or the shank 6, and allowing to measure pressure, for example, in the area of the shank 6. The housing 1 of the device may be provided with external sealing E elements 8, centering elements.

A device for researching wells works as follows.

One or more downhole chambers are lowered into the well on a pipe string depending on the geological and field conditions and the required research parameters. Using wireline or logging equipment, the housing 1 is lowered and installed in the borehole chamber with depth devices 2, stand-alone or connected to a ground-based measuring complex. Downhole fluid or working agent, passing through the hydraulic channels of the borehole chamber, acts on downhole instruments that determine the required physical borehole parameters.

Claims (4)

1. Device for researching wells, comprising a housing made with the possibility of descent into the borehole chamber and the possibility of installing at least one downhole device, characterized in that said housing has a solid base in which at least one seat is made intended for installation in it of the deep device. 2. The device according to claim 1, characterized in that the housing can be made integral. 3. The device according to claim 1, characterized in that it is equipped with a gripping device holding it in the borehole chamber, or connected to the head and shank. 4. The device according to claims 1 and 3, characterized in that the housing is 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.