SU1270311A1 - Downhole thermometer - Google Patents

Abstract

The invention relates to the field of geophysical and hydrodynamic surveys of wells and is intended to measure the flow rate of fluid from a well. The purpose of the invention is to increase sensitivity and ease of use. For this, the measuring chamber 1 is made in the form of a shell 4 and connected to it with the help of knitting needles 6 of the hubs 5. With the help of a thread, the hub 5 is connected respectively to the shank 8 and the housing 7 of the turbine speed converter (T) 2. planes, one of which passes along the geometrical axis T 2, and the other two are perpendicular to it and intersect it. Using a logging elevator, the device connected to the logging cable is lowered into the well. The fluid flow enters the measuring chamber 1 and acts on T, 2. The speed of rotation T 2 is converted by converter 5 into an electrical signal proportional to the flow velocity. To unify and expand the flow measurement range, the measuring chamber is replaceable. 1 Cpf-ly i ill. (Lu h.

Description

The invention relates to geophysical and hydrodynamic studies of wells and can be used to measure the flow rate of ¹ fluid from the well. 5

The purpose of the invention is to increase the sensitivity of the device in operation.

The drawing shows a schematic diagram of the proposed downhole flowmeter.

The downhole flowmeter consists of a measuring chamber 1, with a hydrodynamic turbine 2 and a flow straightener · 3 placed in it. The chamber is made in the form of a shell 4, detachable along three planes, one of which runs along the geometrical axis of the turbine, and the other two are perpendicular to it. The shell is connected to two hubs 5 by means of knitting needles 6. The hubs 5 are screwed at their ends into threads made respectively in the housing 7 of the speed converter of the turbine 2 into an electrical signal, and in the shank 8. The measuring chamber is interchangeable, i.e. the flowmeter is equipped with a set of interchangeable shells of various outer diameters with corresponding interchangeable turbines 2 and a jet straightener 3, designed for different measurement ranges.

Downhole flowmeter operates as follows.

Depending on the task of the study, choose the appropriate housing of the flow converter, respectively, the turbine 2 and the straightener 3.ι The turbine and the straightener are built into the cavity of the body and then screw its ends into the corresponding sockets of the converter case of the speed of the turbine and the shank 8.

After checking the operability, tuning and balancing of the turbine, the device is connected to the cable tip of the logging cable and lowered into the study interval using a logging elevator. The fluid flow, moving along the well outlet, 1θ enters the measuring chamber, acting on the turbine. The rotation speed of the turbine is converted by the converter into an electrical signal; proportional to the flow rate. ' fifteen

Claims (2)

This invention relates to geophysical and hydrodynamic well studies and can be used to measure the flow rate of fluid from a well. The purpose of the invention is to increase the sensitivity of the device in operation. The drawing shows a schematic diagram of the proposed downhole flow meter. A downhole flowmeter consists of a measuring chamber 1, with a hydrodynamic impeller 2 placed in it and a jet 3. The camera is made in the form of a shell 4, with a connector in three planes, one of which passes along the geometrical axis of the impeller, and the other two are perpene / diculary to it. The shell is connected to the two hubs 5 with the help of the spokes b. The hubs 5 are screwed with their ends into the sockets using a thread, respectively, in the housing 7 of the converter of the speed of the turbine 2 into an electrical signal, and in the shaft 8. The measuring chamber is replaceable, i.e. The flow meter is equipped with a set of replaceable shells of different outer diameter with the corresponding replaceable impellers 2 and a sweater 3, calculated for different measuring ranges. The well meter operates as follows. Depending on the research task, the corresponding case of the flow converter is selected, respectively, the turbine 2 and the spouting device 3.iThe turbine and the straightener jet are inserted into the cavities of the compus- Health checks, settings and balancing of the impeller are connected to the cable tip of the logging cable and lowered into the test interval using a logging elevator. The fluid flow, moving along the well bore, enters the measuring chamber, affecting the impeller. The rotational speed of the impeller is converted by the converter into an electrical signal proportional to the flow velocity. Claim 1. A wellbore flow meter comprising a measuring chamber with a flow transducer placed in it, including a hydrodynamic impeller and a jet driver, a turbine rotational speed converter into an electrical signal and a shank connected respectively from above and below to the measuring chamber, characterized in that the purpose of increasing the sensitivity and ease of operation, the measuring chamber is made in the form of a shell and the hubs connected to it with the help of the spokes, the latter being threaded respectively with the shank and the casing of the converter turbine speed, and the split shroud formed in three planes, one of which extends along the geometric axis of the impeller, and the other two - perpendicularly thereto and intersect it. 2. The flow meter according to claim 1, wherein the flow chamber is made interchangeable in order to unify it and expand the range of flow measurement.