SU641084A1 - Deep-well pressure gauge - Google Patents

Description

The invention relates to piston geophysical equipment, namely, devices for measuring pressure in a well. Known depth spring-piston pressure gauge with an electric drive for rotating the measuring piston fl 1 Also known depth gauge, including a housing, a measuring driving force and a recording unit G2 j In this device, the measuring piston is rotated in seals using an actuator containing a screw and aku, associated with a load suspended in the body, which perceives the energy of the blows that occur when the device is lowered into the well. A disadvantage of the known devices is their unreliability in operation at high temperatures and pressures in the well. The purpose of the invention is to increase the reliability of the depth gauge in operation at high temperatures and pressures. This goal is achieved by the fact that the piston drive is made in the form of guide rods, on which the BUTT pair nut is placed, and three chambers, two of which are interconnected by hydroresistance, in the chambers are mounted a shaft with a screw rigidly connected to the screw pair nut. FIG. 1 shows a depth gauge, a longitudinal section; in fig. 2 - drive for piston rotation. The pressure gauge contains a case 1, a clock mechanism 2 located therein, on the output axis 3 of which a drum 4 is installed with a chart form 5. A holder with a recording needle b is fixed by means of a ball bearing 7 on the measuring piston 8. The balancing spring 9 is connected via an axis 10 to the actuator 11 of the measuring piston 8. The housing is made with a hole 12.

10 and the piston 8 is fixed in the housing with the aid of the packing seals 13.

The actuator 11 (Fig. 2) includes a piston 14 connected by means of a rod 15 with a guide sleeve 16, a chamber 17 and an actuator, a hydraulic resistance. 18, the receiving chamber 19, the nut 2O, v. complete with longitudinal slots for guide rods. 21 and connected with BINTOM 22. The screw is fixed in the housing by means of a bearing 23 and has a neck

24d link with axle 10,

The piston with the rod is fixed in the housing with gland seals

25 and 26. In chamber 17 there is a working fluid, and in the receiving chamber 19 is air at atmospheric pressure. In the housing there is an opening 27 for communicating the chamber of the piston 14c with a cavity.

The pressure gauge works as follows.

The well pressure transmitted through the hole 12 in the housing 1 acts on the piston 8 and with its help advances the holder with the needle 6, which records the transmitted pressure on the chart form 5, (Fig. 1).

To reduce the error due to the friction of the measuring piston 8 and the axis 10 in the gland seals 13, the measuring piston and the axis are rotated using the actuator shown in FIG. 2

The drive works as follows.

The pressure in the borehole through the opening 27 acts on the piston 14 of the piezo-actuator, which, due to the pressure difference in the borehole and the receiving chamber 19, moves it upwards. The speed of the piston is determined by the amount of hydroprotection 18 through which the working fluid (for example, oil) from chamber 17 flows into the receiving chamber

19. The force acting on the piston 14 of the piezodrive is transmitted through the rod 15 and the sleeve 16 to the nut 20 connected to the screw 22. When moving up the nut

20, fixed by rotation of the guide rods 21, causes the screw 22 to rotate. The rotation of the screw is transmitted through the neck 24 to the axis Yu, and through the axis 10 to the spindle 9 with the measuring piston B.

The rotational speed of the piston depends on the magnitude of the hydraulic resistance, the viscosity of the working fluid and the pressure in the well. The duration of operation of the drive is determined by the magnitude of the hydraulic resistance, the volume of the piezodrive chamber and the well conditions.

The use of a depth gauge with a drive of the proposed design will allow increasing its reliability in operation at high temperatures and pressures in deep wells.

Claims (1)

Claims An in-ground manometer comprising a core, a star, a measuring piston associated with a drive including a screw pair and a recording unit, characterized in that in order to increase its reliability in operation at high temperatures and pressure in the well bore The piston is made in the form of guide rods on which a screw pair nut is located, and three chambers, two of which are connected by hydroresistance, in the chambers a piston is mounted with a rod screwed with a nut rigidly connected Sources of information taken into account in the examination: 1, USSR author's certificate .№ 461219, cl. E 21 B 47 / O6, 1973. 2, USSR author's certificate № 412371, cl. E 21 B 47/06, 1972, - / J Sh fJ i H - / / psh - / -f7 /five