UA32394U - Portable laboratory for diagnostics of geological medium at small depths - Google Patents

Abstract

Portable laboratory for diagnostics of geological medium at small depths includes car-support in saloon of which are mounted automated work place of operator equipped with operator’s table and computer with printer and program software, instrument stand with control-measuring apparatus equipped with dampers, automonous power unit as petrol engine with electric generator, means for life provision, means for sampling, technological and supplementary equipment. Car-support is equipped with drill-analytical complex placed in saloon, this includes portable drill equipment, device for sampling rocks from wells, telemetric device of video-survey of well walls and set of geo-physical devices and appliances, with laser cavern meter and fiber-optical tensometer included.

Description

The intended useful model refers to installations for drilling wells in the ground, in particular to mobile drilling machines equipped with devices and equipment for diagnosing wells at shallow depths.

A mobile drilling machine (1|) is known, which contains a carrier vehicle and a drilling rig placed on it and a set of equipment for core selection from wells.

The disadvantages of this device are a limited number of parameters of the geological environment and their low reliability, due to the fact that information about the geological environment is obtained as a result of the analysis of the core extracted from the well with a set of available equipment, as well as the large weight and bulkiness of the drilling equipment, which makes it ineffective for diagnostics of the geological environment at shallow (up to bOhm) depths.

The closest to the expected useful model in terms of technical essence and the result that is achieved is a mobile laboratory for ecological control of the environment |2|, which contains a carrier car, in the cabin of which an automated operator's workplace is mounted, equipped with an operator's table and a computer with a printer and software, an instrument rack with control and measuring equipment, equipped with shock absorbers, an autonomous power unit in the form of a gasoline engine with an electric generator, means of life support, sampling means, technological and auxiliary equipment.

The carrier vehicle arrives at the sampling site, and water, air, and soil sampling devices are pulled out of the cabin, with the help of which samples are taken at the planned points. The received samples are delivered to the operator's desk, to his automated workplace, where with the help of control and measuring equipment fixed on the instrument rack, on the shock absorbers, the samples are examined and the received data are sent to the computer, where they are processed and diagnostic characteristics of water and air are obtained and soil Power supply of equipment and equipment is provided by an autonomous power unit.

The disadvantages of this technical solution are: the absence of a drilling-analytical complex, which does not allow to carry out a full diagnosis of the geological environment at shallow depths and requires additional material costs for drilling wells and researching the geological environment.

The proposed useful model is based on the task of creating a mobile laboratory for the diagnosis of the geological environment at shallow depths, in which, due to the provision of a vehicle-carrier with a drilling-analytical complex located in the cabin and containing portable drilling equipment, a device for sampling rock samples from wells, a telemetric device for video inspection of well walls and a set of geophysical instruments and devices, including a laser cavernometer and a fiber-optic strain gauge, provides a technical result - a reduction in the cost of diagnosing the geological environment at shallow depths, and an increase in the reliability of the information received.

The task is solved by the fact that in a mobile laboratory for diagnosing the geological environment at shallow depths, which contains a carrier vehicle, in the cabin of which an automated operator's workplace is mounted, equipped with an operator's table and a computer with a printer and software, an instrument rack with control measuring equipment, equipped with shock absorbers, an autonomous power unit in the form of a gasoline engine with an electric generator, means of life support, means of sampling, technological and auxiliary equipment, according to the useful model, the carrier vehicle is equipped with a drilling-analytical complex located in the cabin and containing portable drilling equipment , a device for sampling rocks from boreholes, a telemetry device for video inspection of the walls of boreholes and a set of geophysical instruments and devices, including a laser cavernometer and a fiber optic strain gauge.

In the prototype, the mobile laboratory for diagnosing the geological environment at shallow depths is not equipped with a drilling-analytical complex. Such a technical solution allows sampling and diagnostics of water, air and the upper layer of soils, and for diagnostics of the geological environment, additional equipment is required for drilling wells and diagnostics of the geological environment at shallow depths. The claimed utility model is equipped with a drilling-analytical complex, which provides, along with water, air and top soil sampling, well drilling and diagnostics of the geological environment at shallow depths. As a result, costs for diagnostics of the geological environment are reduced, while simultaneously increasing the quality and reliability of the obtained characteristics.

A comparative analysis of the proposed solution with the prototype allows us to conclude that the proposed device differs from the known one in providing a vehicle-carrier with a drilling-analytical complex located in the cabin and containing portable drilling equipment, a device for sampling rock samples from wells, a telemetry device for video inspection of well walls and a set of geophysical instruments and devices, including a laser cavernometer and a fiber optic strain gauge.

Thus, the claimed method meets the "novelty" criterion.

In Fig. the general view of the device is shown.

The proposed device contains a vehicle-carrier 1, in the cabin 2 of which there is a workplace 3 of the operator, an instrument rack 4 with control and measuring equipment 5, an autonomous power unit 6, sampling means 7 of water, air and soil, as well as a drilling and analytical complex 8, containing a portable drilling rig 9 for drilling small-diameter wells, a device 10 for sampling rock samples from wells, a telemetry device 11 for video inspection of well walls, equipment 12 for performing a complex of geophysical studies, including a laser cavernometer 13 and a fiber-optic strain gauge 14.

The device works like this.

Carrier vehicle 1 arrives at the work site. From cabin 2, means 7 of water, air, and soil sampling are pulled out, with the help of which samples are taken. Then the drilling-analytical complex 8 is pulled out of the cabin 2, deployed to the working position and with the help of a portable drilling rig 9, wells with a diameter of 30-3bmm are drilled to the design depth, up to bOhm. After drilling the wells, rock samples are taken from the walls of the wells with the rock sampling device 10. The received samples of rocks, soil, water and air arrive at the operator's workplace, where with the help of control and measuring equipment 5, fixed on the instrument rack 4, they perform their chemical and analytical research. At the same time, the physical parameters of rock samples are determined. The received data is sent to the computer. Then a telemetry device 11 is lowered into the well one by one, with the help of which a video inspection of its walls is carried out, a laser cavernometer 13, which determines the geometric characteristics of the well, a fiber-optic strain gauge 14, which determines the stress state of the geological environment, as well as equipment 12, which reads geophysical parameters geological environment.

The initial data obtained in this way are sent to the computer, where they are processed and receive diagnostic characteristics of the geological environment, as well as soil, water and air samples. The power supply of the equipment is provided by the autonomous power unit 6. After the completion of the work, the drilling and analytical complex 8 is rolled up and placed in the cabin 2 of the carrier car 1, the means for sampling soil, water and air and technological and auxiliary equipment are also located here, the power unit b and the carrier car are turned off 1 is sent to the next point.

The intended device provides full diagnostics of the geological environment at shallow depths, reduces the costs of performing these works, while simultaneously improving the quality of the obtained parameters due to the fact that: 1. The vehicle-carrier is equipped with a drilling-analytical complex. 2. Modern geophysical and geochemical devices, equipment and methods of geological environment research are used.

Sources of information 1. A.S. 2019664. Russian Federation, IPC E 21 B 7/02, 7/26. Drilling and crane machine/ A. V. Perfilyev (RF). - Meo5041817/03; Application 12.05.92; Publ. 15.09.94, Bull. Me17. 2. Patent of the Russian Federation Mo57021, IPC C 01 MU 1/02, V bORZ/00. Mobile laboratory for ecological environmental control / I. A. Gerasimov, R. A. Kantyukov, V. P. Poluzktov, V. I. Ravykovich, A. I. Serov, G. P.

Stavkin, G. A. Yaryigin (RF). - Mo2006118056/22; Application 05/26/2006; Publ. 27.09.2006, Bull. Mo27. 7 o ni shk y : y yy. ri eEBeIB IV OV and Her g vh KOM bsonoi Honny 1 E y

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Claims (1)

The laboratory is mobile for diagnostics of the geological environment at shallow depths, containing a carrier vehicle, in the cabin of which an automated operator's workplace is mounted, equipped with an operator's desk and a computer with a printer and software, an instrument rack with control and measuring equipment, equipped with shock absorbers, autonomous an energy unit in the form of a gasoline engine with an electric generator, means of life support, means of sampling, technological and auxiliary equipment, which is distinguished by the fact that the carrier vehicle is equipped with a drilling and analytical complex located in the cabin and contains portable drilling equipment, a device for sampling rock samples from wells, a telemetric device for video inspection of well walls and a set of geophysical instruments and devices, including a laser cavernometer and a fiber-optic strain gauge.