SU679830A1 - Depth manometer - Google Patents

Description

one

The invention relates to depth gauges for measuring the pressure along the wellbore and at the bottom of a well during the action on a formation, in particular, in the presence of an in-situ moving source of combustion.

A depth gauge is known, comprising a housing, a pressure receiver, an elastic sensing element, and a recording unit l.

The known depth gauge allows, through the use of a special actuator in the recording mechanism, to measure pressure in conditions of

The essential goal of the known device is the need for its constant movement along the well, which prevents the device from being thermostatted (a certain depth corresponds to each particular temperature in the well), and prevents long-term measurements at any of the well points studied.

A well manhole is also known for examining wells in the process of thermal action on the formation, which is the closest to

technical entity 2.

The registration mechanism in the in-depth manometer is made in the form of a chassis fixed inside the case, on which a carriage is installed, connected to a rod with annular projections, kinematically connected with the stop mechanism of the movable sleeve, the layers

0 spring loaded.

The pressure can be measured both during the descent and ascent of the instrument, as well as during its long-term stay at any point of the well.

A significant disadvantage of the known manometer is the low accuracy of the recording of the processes under study in time, as well as the limited temperature limit of work.

The aim of the invention is to provide a pressure measurement in an extended range of operating temperatures.

The goal is achieved by the fact that in the depth gauge, comprising a housing with a pressure receiver, an elastic sensing element / recording unit and a separator, the pressure receiver is moved beyond the limits of the pressure gauge housing, and the separator

.-. and holds two elastic cylinders, one of which is housed in the pressure gauge body and the other in the pressure receiver, while the cylinders are interconnected by a pipeline and filled with liquid metal.

FIG. 1 shows the proposed pressure gauge; in fig. 2 - section aa n a fi 1.

The depth gauge contains a pressure receiver 1 and a housing 2 in which an elastic sensitive element 3 is placed, a recording unit 4 with a clock or inertial drive 5. A pressure receiver and a pressure gauge housing are connected by a pipe 6. A wire suspension 7, a pipe -6 is connected to two separators 8 and 9, made in the form of elastic cylinders.

The device works as follows.

The depth gauge is lowered into the well on the wire suspension 7 so that the pressure receiver 1 is at the required point of the in-situ moving combustion chamber, the pressure in which the researcher is interested. In this case, the manometer body 2 is located in the well zone, where the temperature conditions are safe for the elastic sensor element 3 and other devices of the device. the internal cavity of the elastic sensing element 3, and thus the sensitive element. The displacement of the working end of the elastic sensing element proportional to the pressure of the formation is recorded in the recording mechanism. In the presence of a clock drive, the registration occurs in time. The volumes of the separators are chosen so that

allow to take into their working cavities an excess amount of filler, appearing due to its thermal expansion.

The temperature range of operation of the proposed depth gauge extends to plus 600-700 0, which allows obtaining information about the modes of thermal effects on the formation in the presence of an intra-layer moving source of combustion. Wherein

write parameter in coordinates

pressure-time can be carried out autonomously, as well as with the transfer of indications to the surface, allowing the operational

control of the regimes of the thermal effect on the formation with the aim of their optimization. The use of the device will increase the removal of oil from the depleting areas of oil fields, which determines the high economic efficiency of the invention.

Claims (2)

1. Copyright certificate №263227, cl. G 01 L 7/04, 1964. five 2. Depth gauge, Journal of Oil Nick, 3, 1972 (prototype).