SU620592A1 - Deep-well rotary yield meter - Google Patents

Description

(54) DEEP ROTAMETRIC DEBITOMER

The invention relates to depth devices for measuring the flow of liquid and gas through a wellbore. Known depth rotometricheskie debitomer with local registration, containing rotametrichesky flow sensor, the float of which is connected to the rod with a writing pen, recording the change in flow rate on the chart form, inserted into the drum clock drive ij. Due to the relatively high friction force in the recording device, the accuracy and sensitivity of these flow meters is low. A deep rotometric flowmeter is also known, which includes a housing, a measuring cone, a float with a magnetic contact, a transfer motor controlling the operation of the electric motor, and a sealed rod connected to the recorder with clock driven, power pack and packer .2. Due to the limited dimensions of the in-depth instrument, the measurement range of these debitometers is small, since the angle of the measuring cone can not be significantly increased. The purpose of the invention is to expand the measurement range. This is achieved due to the fact that the compacted rod is connected to a clock-driven recorder through an electric motor and is hollow with a groove on the outer top, in which a float with a magnetic contact is located, the float being spring-loaded, and the switch is installed in the inner cavity of the rod. The drawing shows a schematic diagram of a deep rotametric debitometer. The debitometer has a housing 1 connected to a measuring cone 2, inside of which a float 3 is placed, connected to a spring 4, the float is installed in a bore 5 of a hollow rod 6, inside of which is mounted a clamp 7, cooperating with a magnetic contact 8. Lower end 6 / through seal 9 enters chamber 10 with atmospheric pressure. The housing 1 also contains a seal 11 for the upper end of the rod 6, which is rigidly connected to the nut 12, progressively moving along the spindle screw 13, which is rotated by the shaft 14 of the electric motor 15 fed from the power supply 16. Recorder of the debitometer is produced by a time recorder

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drive 17. Packer 18 serves to guide the measurement of the capacitor float through the measuring cone 2.

The debitomer runs a slowdown. around When the flow rate changes, the float 3 is shifted relative to the hollow stem 6. At ETS1M, the magnetic contact 8 closes one of the contacts of the switch 7 controlling the operation of the motor 15, which after a couple of screw-nuts 13-12, raises or opts the hollow stem b together with the float 3 the moment when the pressure drop in the pile 3 is balanced by the tension of the npyjlm 4.

In this case, the magnetic contact 8 will take a neutral position. Regarding the contacts of the switch 7, and the power supply circuit of the electric motor 15 is opened. The movement of the rod is a measure of the measured flow rate and is recorded by means of the recorder 17, which converts the angle of rotation of the shaft of the electric motor 15 to the movement of the recording device.

The use of a rotametric debitometer will make it possible to increase the durability of the instrument operation, especially when investigating gas wells with high flow rates. In this case, the divergence of the measurement limits provides the opportunity to explore wells with a single instrument, and, therefore, it will be possible to eliminate multiple descents of the instruments.

Claims (2)

1. Petrov A.I. Methods, and measurement techniques for production, and 9 well studies. M., Jedra, 1972, p. 172. . 2.-USSR author's certificate number 385027, cl. E 21 B 47/10, 1970.