SU281860A1 - THERMOMETER DEPTH HELIX - Google Patents

Description

The invention relates to depth thermometers for measuring temperature in oil and gas wells.

Helic depth thermometers for measuring temperature in wells are known, which contain a thermometric unit and a recording device made in the form of a carriage suspended from a spring. In such thermometers, the obtained record of readings is difficult to decipher in view of the fact that the carriage of the recorder makes an oscillatory motion and the record is obtained as one line with marked marks.

The aim of the invention is to create such a thermometer, the registration mechanism of which would provide a higher accuracy of temperature registration. This goal is achieved by the fact that the registering device is designed as a chassis fixed inside the case, on which a carriage is mounted, connected to a rod with annular protrusions, kinematically connected with a locking mechanism of a movable sleeve carrying a spring-loaded load. FIG. 1 shows the basic design of the thermometer; in fig. 2 - sample recording temperature.

The depth thermometer consists of a housing 1, the upper part of which is screwed in an adapter 2. A thermo-bottle 3, made in the form of a coil, is attached to the adapter. Thermoball can be of any design. In the case of the fluid principle, the thermal bulb must be protected from borehole pressure. With the vapor-liquid principle of operation, the thermal bulb is not protected from borehole action. It is protected from mechanical damage by the casing 4, which has slots for entering the downhole environment. The casing is screwed to adapter 2, into the upper part of which the head 5 is screwed in, which serves to lower the device into the well. Helix spring 6 is also connected to adapter 2, the internal cavity of which is connected via adapter 2 with a capillary tube's internal capillary tube 3 to the free end of the helix spring 6 by means of a shaft 8 a writing device 9 is attached. Shaft 8 is mounted in two bearings 10 located in the sub 11. The sub is screwed into the housing 1, the housing 12 is screwed onto the second end of the sub. Inside the housing is located the chassis 13 on which the carriage is mounted

14 with the form. The carriage is connected to the rod

15 with annular protrusions, which with the help of the latch 16 holds the carriage in the defined position. The latch is pressed to the rod by a spring 17. The rod passes through the sleeve 18, on which is installed the stopper 19 with the spring 20. The latch 16 is fixed on the movable load 21, on which is also reinforced the finger 22 having a recess, which includes the stopper 19. Movable load 21 s by means of the spring 23, it is constantly pressed against the sleeve 18, forcing the latch 16 to enter the sleeve slot and hold the rod 15 in a certain position. To increase the weight, additional weights 24 may be added to the load 21. The tension of the spring 23 can be adjusted by means of the nut 25.

The operation of the device is as follows.

As the device descends into the well, the well temperature will affect the thermal bottle 3, heating the fluid in the system, which leads to an increase in pressure in the thermal bottle-helix system. Under pressure, the helix spring 6 begins to unfold. The angle of the spring reversal is proportional to the measured temperature. To fix the temperature at the measuring point, the instrument is shaken, under the action of which the system triggers the recording. The instrument can be shaken under heavy braking during its descent or when falling from a certain height. In the latter case, the wire is pulled back to a certain height and allowed the device to fall freely.

When shaking, the load 21 moves downwards under the action of inertial force, releasing the latch 16 from engaging with the disk, rod 15 and the carriage moving downwards under its own weight. At the same time, the stopper 19 enters the space between the discs of the rod under

the action of the finger 22 and does not allow the carriage to move further. Thus, this system, with only one shaking of the device, allows the carriage to move only 5 steps. At the end of the inertial force, the load 21 under the action of the spring 23 returns to its original position and the latch 16 under the action of the spring 17 occupies the working position, and the stopper leaves the

0 inter ring space. When measuring the temperature at the next point, the temperature fixing operation is repeated. A schedule for recording the temperature using such a recording system is shown in FIG. 2

5 Record of readings can be obtained in the system “Temperature-depth or“ Temperature-time, if you shake the device after a certain time. Temperature measurement can be made as with the release,

0 and when lifting the device, as well as when it is stationary. In all cases, the carriage will move in one direction, which allows registration to occur both during descent and when the thermometer is raised.

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Subject invention

A Helix deep-well thermometer, containing a thermometric unit and a recording device, characterized in that

0 increase the accuracy of temperature recording, in it the registering device is made in the form of a fastened inside the case, on which a carriage is mounted, connected to a rod with annular protrusions, kinematically connected with a locking mechanism of a movable sleeve carrying a spring-loaded load.

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