SU945456A1 - Mobile installation for deepening mine wells - Google Patents

Description

(5) MOBILE. INSTALLATION FOR DEEPENING MINE WELLS

Claims (2)

The invention relates to agricultural machines, and more specifically to mechanisms for the operation of water-supply structures, and is intended for use in the production of repair and rehabilitation works of mine wells. The known mobile unit for collecting water from the shaft wells and cleaning them, which consists of a self-propelled chassis on which a centrifugal pump with a gearbox is installed to adjust the operation of the pump, the sump tank, the lifting and pressure piping Dl The installation has a bulky sump tank Z m and the lack of a way to deepen the mine wells. Also known is a mobile installation for deepening shaft wells, comprising a hydraulic elevator, a scouring nozzle, and a pipe system. hydrocyclone, tank and elevator for descent into the well, the walls of which are reinforced with tips C23. The disadvantage of this installation is the OTcyTCTBte of the possibility of lowering the attachment of the well due to its wedging against the walls of the mine. This does not allow the indicated installations to deepen the wells, i.e. to restore or increase the productivity of wells, which falls due to a decrease in the level of groundwater, in connection with the regulation of surface runoff and other circumstances. The purpose of the invention is to increase the efficiency of the process of deepening mine wells during the work to restore their water receiving part. This goal is achieved by the fact that the installation is equipped with a vibratory pile driver, which is installed on the head of the well by means of a removable support platform with a limiter. the stopper is made in aide of a truncated cone and is rigidly connected to the supporting platform with a large base. FIG. I schematically shows a general view of the installation with a section of a shaft well vertically; in fig. 2 - vibratory pile driver with a support platform and a stop on the tip with a partial cut-out of the wall of the latter for a better display of the structure; in fig. 3 principle hydraulic scheme of operation of the plant for washing and pumping the soil. The equipment of the installation is located on the back of a car or a biaxial trailer 1. To supply electricity to the pump 2, the lifting mechanism 3, the luminaire and the equipment for the production and repair of the shaft wells, a diesel electric station is provided. 5. The working water tank 6 through flexible corrugated cglang and valve (not shown) is connected to the suction pipe of the pump 2, the discharge nozzle of which is connected to the hydraulic elevator 8 through the pipeline 7 and the washing nozzle 9 welded to the hydraulic elevator knee. The hydrocyclone W is connected to the hydraulic elevator through a slurry line 11, and an ac tank 6 through a drain corrugated pipe 12. Pipeline 7 and slurry line 11 are made of metal pipes and metal sections. The upper part of these pipes is made of flexible corrugated pipes T (worn together are connected with quick-detachable cap nuts. A gasket, for example, a rubber ring, is provided at the joints. Lift 13 is provided for lowering a person to inspect and carry out repair and restoration works parts of mine wells. To vibrate the mounting of a shaft of a well 1t, a vibratory pile driver 16 is installed on its tip 15 with a seeded supporting platform 11 G /. To the latter, to prevent lateral displacements of the vibroplane The loading device is welded ™ to the stop 18, which is attached to the well of the vibrator as a truncated cone with its top down. "The grid 9 prevents the ingress into the system | -sh, -dimensionally large particles (9 items), which can plug both the elevator neck 8 and the sand hole 20 of the hydrocyclone 10. And the mesh partition 21 of the tank 6 prevents floating and other large objects from entering the water compartment 22. A tank 23 is provided in the tank, and a flushing nozzle 2k is provided to clear the tank and rinse the tank Pipe 25 serves to drain excess water. The installation works as follows. According to a known technology, the well was cleaned and the bottom filter or plate was dredged. Further excavation is carried out. The pump 2 supplies water from the tank b via the pressure pipe 7 to the eroding nozzle 9 and the water jet apparatus 8. A stream of water flowing out of the nozzle erodes the soils and a slurry is formed. The main part of the water from the pump enters the nozzle of the water jet apparatus, from which it flies out with great speed and enters the neck and, passing through the receiving chamber, entrains air or water. A vacuum is created, whereby the pulp from the well 14 is sucked into the receiving chamber through the mesh of the pipe 19. This pulp is then mixed with a stream of water — energy is transferred from one stream (stream of water) to another (pulp). Then, the mixed fluid enters the diffuser of the apparatus, where kinetic energy is converted into potential energy. Under this pressure, the pulp through the slurry line 11 enters the hydrocyclone 10. The pulp, with a certain speed, enters the hydrocyclone tangently to its cylindrical part and has a rotational movement, i.e. getting a centrifugal force. This force rejects solid particles from the axis of the hydrocyclone to its periphery, since they have a higher density than the medium. Solid particles together with a small amount of water are lowered and dumped into the dump through the sandy hole of the hydrocyclone 20. The clarified water tends to the axis of the hydrocyclone and upwards to the drain pipe 12, through which it flows back into the tank 6. Water in the tank, passage through the mesh partition 21 , is additionally cleaned from mechanical impurities and enters the working water compartment 22. 5 Mechanical impurities are deposited in the sump 23, from where they are dumped through the washing nozzle. The excess water is discharged from the tank through pipe 25. A person who is lowered into well 1 on elevator 13 and has sound communication with the operator can inspect and control the operation of the hydraulic elevator. The latter controls the operation of the plant using a portable keypad (not shown). As the well deepens, periodically lower the fasteners of the shaft. The lifting mechanism 3 lowers the vibratory pile driver 1b with the base plate 17 and the stop 18 on the top 15 of the shaft well I and put it into operation. With the deepening of the well, the tip is increased with new reinforced concrete rings. After reaching the intended depth, the bottom of the well is fixed with a plate or filter, for example, porous concrete. The use of the proposed invention will allow to mechanize the process of deepening shaft wells. Testing of the experimental (search) sample under production conditions showed that the deepening of the well with the proposed installation is possible and effective, especially in the fine grain of 5 W I / 5 M - f. At the same time, the performance of mine wells. doubled on average. Claim 1. Mobile installation for coal mine shaft wells, containing a hydraulic elevator, eroding nozzle, pipe system, hydrocyclone, tank, elevator to descend into the well, the walls of which are reinforced with tips, characterized in that, in order to increase the efficiency of the process of dredging the shaft wells, the work on the restoration of their intake part, it is equipped with a vibratory pile driver, which is installed on the well head by means of removable support platforms with a limiter. 2. Installation pop.1, about tl and chaiyu with the fact that the limiter is made in the form of a truncated cone and rigidly connected to the supporting platform, a large base. Sources of information taken into account in the examination 1. USSR author's certificate number 160122, class, E 21 F 17/00, 19b2. 2. Information sheet, Moscow Ministry of Agriculture of the USSR, M., 1973, No. tfi (prototype).