RU160678U1 - THERMAL CAMERA FOR TESTING WELL DEVICES - Google Patents

Abstract

1. A heat chamber for testing downhole tools, including interconnected and mounted on the base with functional units - heating and supply of the working agent with fans and ducts with nozzles connected to the housing with a cover, and a drive with a control system, characterized in that it contains a registration unit, a housing with a cover made of heat-insulating material, divided by an inner wall into two longitudinal compartments, on the one side of the housing in the inner wall is circulated the bore, on the other side of the casing, the compartments are connected by ducts to the heating and supply units of the working agent, and temperature sensors connected to the control system are located on the inner side of the outer surface of the casing. 2. A heat chamber for testing downhole tools according to claim 1, characterized in that the housing with a cover is made of polyisocyanurate.

Description

The utility model is intended for calibration of downhole tools used in monitoring the process of developing oil and gas fields and in the operation of underground oil and gas storage facilities.

Known heat chamber of a metrological installation for simultaneous calibration of temperature and pressure channels of complex downhole equipment, the body of the heat chamber is made of stainless steel with thermal insulation on the outside, the reference thermometer is located in the calibration zone of the heat chamber located in its upper cavity, in the immediate vicinity of the sensors of thermometers of calibrated downhole tools heaters are located in the lower part of the annular heat chamber as far as possible from the temperature measurement zone , the reference pressure gauge provides a high pressure supply through the tubes directly to the channels of the pressure gauges of downhole tools (RF Patent for the invention No. 2306534).

The disadvantage of the installation is the implementation of the body of the heat chamber from a material conducting electric current, which limits the range of downhole tools for testing, in particular, does not allow testing in a wide temperature range and calibration of magnetometers, induction and electromagnetic logging tools.

Known adopted as a prototype heat chamber (RF Patent for utility model No. 143888), including interconnected and mounted on the base of the housing with functional units - the heating and supply of the working agent with air heaters, fans and ducts with nozzles, a smoke generation unit and a drive with a system control, the inner and outer walls of the housing are made of metal, the interwall space has an insulating layer of heat-resistant material, the nozzles are removable and rotatable relative to ovyh inner walls of the housing, and the inner walls are mounted horizontally with the guides arranged at the input of the heat chamber sloping overhangs.

But its use also does not provide the conditions necessary for testing in a wide range of temperatures and calibrating such downhole tools as magnetometers, induction and electromagnetic logging tools.

The objective of the utility model is to create a heat chamber for effective testing in a wide temperature range and calibration of a wide range of downhole tools.

The technical result of the utility model is to increase efficiency, productivity and calibration work, expanding the calibration range.

The technical result is achieved by the fact that in a heat chamber for testing downhole tools, which includes a recording unit and interconnected and mounted on the basis with functional units, the heating and supply units of the working agent with fans and air ducts with nozzles connected to the housing with a cover and a drive with control system, the housing with a cover, made of heat-insulating material, is divided into two longitudinal compartments by the inner wall, on the one side of the housing in the inner wall is circulated e hole on the other side of the housing compartments connected by ducts with nozzles of nodes heating and supplying the working agent on the inner side of the outer surface of the housing has temperature sensors connected to the control system.

The body with the lid of the heat chamber for testing downhole tools is made of polyisocyanurate.

In FIG. 1 shows the design of the heat chamber, FIG. 2 is a diagram of the electrical connections of the functional units.

The housing 1 is divided into two compartments 2 by an internal wall 3, in which a circulation hole 4 is made on one side, and on the other, it is connected by air ducts to the nozzles 5 with a set of functional units 6, including heating units 8 and a working agent supply with fans 9 and a system control 10. On the inner side of the outer surface of the casing there are temperature sensors 7, which are connected to the control system 10. On the casing 1 there is a connector 12 for connecting the downhole tool with the registration unit 13.

A heat chamber for testing downhole tools works as follows. The tested downhole tool 11 is placed in compartment 2. A drive 9 is activated by a drive with a control system 10 included in a set of functional units 6, with the help of which air is circulated through air ducts with nozzles 5 in the heat chamber 1 and heated by heating units 8 according to a predetermined algorithm . Data from the downhole tool is recorded by the registration unit 13. Using the drive with the control system 10 information received from temperature sensors 7, allows to ensure uniform heating of the tested downhole tool.

As the registration unit 13, a personal computer with an interface of a downhole tool is used.

Dividing the body into two compartments ensures uniform heating of the downhole tool and allows you to increase the efficiency and productivity of calibration work, expand the calibration range of downhole tools.

The implementation of the body of the heat chamber of a heat-insulating material eliminates its influence on the measuring characteristics of the downhole tool and sets the test effects from outside the body of the heat chamber.

The use of polyisocyanurate as an insulation material is due to its low density, good compressive strength, high closed cell content, low moisture absorption, low water vapor permeability, and excellent fire and smoke performance.

Claims (2)

1. A heat chamber for testing downhole tools, including interconnected and mounted on the base with functional units - heating and supply of the working agent with fans and ducts with nozzles connected to the housing with a cover, and a drive with a control system, characterized in that it contains a registration unit, a housing with a cover made of heat-insulating material, divided by an inner wall into two longitudinal compartments, on the one side of the housing in the inner wall is circulated the bore, on the other side of the housing the compartments are connected by ducts to the heating and supply units of the working agent, temperature sensors connected to the control system are located on the inner side of the external surface of the housing. 2. A heat chamber for testing downhole tools according to claim 1, characterized in that the housing with a cover is made of polyisocyanurate.

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