SU876980A1 - Device for measuring the volume of well interval - Google Patents

Description

(54) DEVICE FOR DETERMINING VOLUME

I

The invention relates to exploration work, namely, devices for measuring the volume of a portion of wells drilled by a percussion cable machine.

A known method of exploration of placer deposits of the North-East of the USSR - shock rope drilling. An important factor influencing the accuracy of calculating the content of the useful component in the placer is the determination of the true volume of the sample at intervals of the cavity for the flight Ij.

However, the method of measuring the volume of burnt rock in dimensional tanks (gauges) has errors due to dropping of the rock from the walls of wells and the transition of ice into the liquid phase.

To determine the volume from the measured average borehole diameter, various cavernomers are used, consisting mainly of four levers (probes - measuring feet), a measuring summing device and a recording mechanism. When raising the cracker, the ends of the levers slide along the walls of the pumpkins, and the registering device is worn with Mil on the belt of the hole of the WELLS

nogram. The cavernogram determines the average diameter of the well, from which sample volumes are calculated (2).

The disadvantages of using cavern-makers are the complexity of device design, its operation and processing of cavernogram data, the inaccuracy of determining the size of the well, since the measurement is pro-. it is located at four points and does not exclude the omission of cavities (recesses), the need to use geophysical specialists. In this connection, cavernomas are not found, they are not used in placer exploration.

In addition, the applied computational method for determining the volume based on the size of the collar tool and the angle of the splint line has a low accuracy due to causes of non-uniform drilling mud.

A set of equipment and ap, parameters for determining the volume of a well interval are known, based on the injection method, where, as a volume filler

jn water is used. The kit includes a water tank, gauge glass (volume gauge), shut-off valve, manual winch, two-wire cable, hose, sensor, load

and electrical level meter. Using the kit, water is poured into the well, which fills all the recesses. The volume of the well section (2) is determined by the water flow.

The disadvantages of this kit. are the complexity of the equipment and the complexity of the work, the impossibility of measuring wells drilled in the talik and aquifer zones, as well as in fractured rocks; high energy costs for heating water when working in the cold season, violation of drilling technology.

The purpose of the invention is to increase the productivity and reliability of results of the exploration of placer deposits.

This goal is achieved by having a device for determining the volume of a well interval, including a housing, a volumetric filler and a recorder, equipped with a bore, a piston and a stack installed in the housing with the possibility of interacting with the recorder, the latter being made in the form of a beam of multi-link elements. chains), one end of which is fixed on the bottom of a piston movably placed in the housing, and the other with a support rigidly connected to the housing, while the glass is movably fixed in the groove of the lower part of the latter.

To use the well gauge in various environments, the density of the material. Of the multi-link elements is greater than the density of the drilling and.: Llama.

FIG. 1 shows the proposed well gauge. By passing into the well, a section; FIG. 2 - the same in the process of measuring the volume of the well section.

The well gauge consists of a support 1, made in the form of a cone, rigidly connected by means of a pin 2 to a housing 3, in the lower part of which a movable cup 4 is placed, which is moved along the groove 5 of the housing 3 and fixed to it in a known manner, for example, using bolts 6 and the holes 7 in the housing 3, thereby adjusting the height of the sampling interval I. In the housing 3, the piston 8 is movably placed, connected by a bundle of multi-link elements, for example, round-link chains 9, with the support 1 on one side and the steel cable 10 with the lifting winch (not shown a) on the other. In the longitudinal slot 11 of the housing 3, secured by the housing 12, a pointer 13 is mounted and secured in a known manner, for example, with a clip (not shown), which allows the pointer 13 to move down along slot II by an anvil 14 fixed on the piston 8, and up manually.

The well meter is operated as follows.

Moving through the groove 5 of the housing 3 movable glass 4, set the required sampling interval H and glass 4

bolted onto the passage 5 of the housing 3. The pointer 13 is set to the position corresponding to the extreme upper point of the slot 11. With the help of a winch, the well gauge is lowered into the well 15 (Fig. 2). When the support I comes in contact with the bottom of the well 15, the piston undergoes a downward movement under the action of its own gravity, allowing chains 9 to freely exit from the housing 3 and evenly fill the well. The beam of chains 9 has sufficient fluidity and fills all the recesses of the well regardless of the presence of a small amount of drill cuttings in it. The movement of the piston 8 is stopped after filling the well 15 with chains 9 to the lower edge of the movable cup 4.

When moving down the piston 8 with its support 14, rigidly fixed on the piston. moves in the longitudinal slot 11 of the body 3 pointer 13. After loosening the tension of the rope 10, the winch is turned on to rise. In this case, the piston 8 moves upward, retracting the chain 9 into the housing 3, and the pointer 13 remains in place, fixing the previously occupied lower position of the piston 8. The downhole gauge rises to the surface. Measuring the distance of movement of the pointer 13, for example, using a scale (not shown) , measured in units of volume and recorded on the housing 3 along the longitudinal slot 11, determine the volume of the sampling interval.

For the next measurement, the cycle is repeated.

The use of a bundle of multi-tier elements, such as chains, as a volumetric infill 41 hole allows you to take a well gauge to measure the sample volume in wells drilled in any geological and climatic conditions, and provides accuracy sufficient for calculating mineral reserves.

The use of a wellbore.number on the exploration of placer deposits in the conditions of the Extreme North, where the work is carried out by percussion-drilling machines mainly during the cold season, improves the quality and reliability of exploration results. This is due to the fact that complex geological and climatic conditions do not allow the use of known instruments for measuring the volume of samples, and the used calculation method for determining by instrument diameter and dredging interval gives large errors, which can lead to the omission of deposits. In addition, the proposed well-, measures are simple and reliable in operation and provide rapid results, not requiring highly qualified specialists.

Claims (2)

1. A device for determining the volume of a well interval, a rotating body, a bulk filler and a recorder, characterized in that, in order to simplify the device and improve the accuracy of measurements, it is provided with a support, a piston and a cup mounted on the body in its lower part with the possibility of axial movement, and the piston is placed in the housing with the ability to interact with the recorder, the latter being in the form of a bundle of multi-link elements rigidly connected on one side with the support, and on the other with the piston. 2. A device according to claim 1, characterized in that, in order to be able to use the device in various environments, the density of the material of the multi-link elements is greater than the density of the cuttings. Sources of information taken into account in the examination 1.Albov MN Testing of mineral deposits. M., “Nedra, 1975. 2.Krendelev V.P. Drilling of wells during prospecting and exploration of placer deposits. M., “Nedra, 1976. 9ut 1