SU1618873A1 - Device for measuring fluid levels in well - Google Patents

Abstract

The invention relates to a measurement technique and is intended to measure fluid levels in a well in diagnosing the condition of operation of a water well equipment. The goal is to improve the accuracy of determining fluid levels in the well 28. The device body 29 is made of an electrically insulating material. In the housing 29, a spring-loaded rod 31 moves freely along the spline, to which the power wire 32 is fastened on top. the action of which the electrode 34 moves when the flange 24 of the weighing meter is raised. At the facility, the device is installed on the bottom of the well under the pressure pipe. When the liquid reaches the plane of the electrode 34, an electrical circuit is closed. Monitoring the level of filling of the well 28 with liquid is possible at any level of raising the discharge pipe due to automatic movement of the rod along the spline in the housing 29. 2 sludge. Yu (/

Description

The device 19 for determining the levels is 35, it means that in the well

the fluid in the borehole 28 consists of a housing 29 fixed at the end of the hose 18 with a collar 30. The housing 29 of the device 19 is fixed to the flange 24, which ensures its reliable operation. In the housing 29, a spring-loaded rod 31 moves freely along the slot, to which the power wire 32 is fastened on top, and a holder 33 made of a dielectric material is mounted on the lower end, in its groove it finds 40

static level not established. To read the pressure from the pressure gauge 10, it is necessary that this pressure be constant for at least 5-6 minutes. This will be the first weighing of the discharge pipeline with a static fluid level in the borehole 28. After this, installation of the device 19 ria to the flange 24 is required. The sensor must be installed so that the dielectric metal electrode 34. Between the wooden holder 33, its long end is lighter

on the upper plane of the flange 25, thus the lower plane of the electrode 34 will be in the same plane with the flange 25, which allows you to accurately determine the level of filling the well with fluid. Then install the hose 18 to the device under the i2K pressure pipe to the pro-19 in the base 20 of the well 21 50 with the clamp 30.

After turning on the electromagnetic valve 17 and at the same time the meter-flow meter 14, the annulus is filled

„„. „.,„ Г „.„ „„ „„ J h., .. ”of well space 28 with liquid from

the pressure pipe, and in its place the service pipe 55 of the pressure pipe 26, through adapter, remove adapter 12, screwing in it ma-12, hose 13, counter-flow meter 14, triple meter 23. After that, the sump 15 and the electromagnetic valve 17. dinin a flange 24 fixed to the pressure head. When the liquid reaches the plane by an electrolyte 33 and a housing 29, a spring 35 is installed, under the action of which the electrode 34 moves when the flange 24 is raised.

Directly at the facility device

The longitudinal axis of the spar coincided with the axis of the pipeline. Then it is necessary to turn out the pressure gauge 23 from the fitting 22, having previously blocked the valve (not shown) on

then it means that in the well

static level not established. To read the pressure from the pressure gauge 10, it is necessary that this pressure be constant for at least 5-6 minutes. This will be the first weighing of the discharge pipe at the static level of the fluid in the well 28. After that, the device must be installed with the 19 ria flange 24. The sensor must be installed so that the dielectric holder 33 with its long end lays down

type 34, an electrical circuit is closed, as a result of which the electromagnetic valve 17 and the flow meter 14 are simultaneously turned off, from which the reading of the flow rate of the filled fluid into the well is taken. At the same time, the reading 2 is taken from the pressure gauge 10, which determines the weight of the pressure pipe with the pump when the well is completely filled with liquid.

Then the pump 27 is turned on and a steady state reading is taken from the pressure gauge 10, which indicates a steady dynamic level of fluid in

The design of the level sensor body is made of a dielectric material in the form of a flange for fastening, in which a rod with a power wire, having ng, freely moves along the slot. the lower end of the dielectric plate with a metal electrode in the groove and a spring installed between this plate and the housing, allows you to quickly install it, prevents from short circuit to

case. In addition, this design of the level sensor ensures reliable monitoring of the level of well filling with liquid at any level of elevation of the discharge pipe, as it is produced

borehole, in which the weight is determined on the automatic displacement of the rod along the pore pipe with a spline in the housing.

Accounting for the flow rate of the fluid poured into the annular space is performed by a flow meter connected by means of an adapter, an electromagnetic valve and a device for determining the level with the annular space of the well.

Such a design simultaneously with the switching on of the electromagnetic valve turns on the flow meter, and when the well is filled with liquid up to the level of the level sensor, they are simultaneously turned off, which improves the measurement accuracy.

Claims (1)

Invention Formula A device for determining fluid levels in a well, comprising a housing made of electrically insulating material and a holder with an electrode, characterized in that, in order to improve the determination accuracy, it is provided with a spring-loaded rod fixed on the holder with the possibility of longitudinal movement in the housing, moreover, the spring is installed between the housing and the holder, made of dielectric. Fig 1