RU2486339C1 - Plant to extract hard ore from thin beds by drilling-out - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: proposed plant comprises machine to drill pilot well arranged in drilling room, rock cutting tool, screw to displace sludge, winch with rope and mounting trolley. Besides, it comprises equipment to reception and transfer of sludge. Note here that said winch is arranged at said mounting trolley and located in transport-sorting face. Note also that screw and cable are secured to expander on the side opposite the pilot well mouth.

EFFECT: expanded operating performances and higher efficiency.

5 dwg

Description

The invention relates to mining and can be used in the development of low-power ore seams with a strength of f≥4 according to M.M. Protodyakonov, including and in cryolite zones.

Known rock screw installations for the development of low-power clay-sand ores by drilling (Popov G.N., Yukov V.A., Pakhomov V.A. Technology and technology of underground mining of ore deposits of sedimentary origin. M: Nedra, 1975, p. 162 ... 168), which have a drill stand made in the form of a screw. The front part of the auger is equipped with a working tool (a set of incisors), which during rotation destroys the rock. Due to the fact that the helical spiral on its surface is directed towards the wellhead, the screw moves the cuttings towards the wellhead to a receiving device, for example, to a conveyor.

The disadvantage of this auger installation is that its scope is limited by the strength (not more than f≤4) of the developed rocks (coal seams, shales, etc.), and the strength of the rocks, for example, ore deposits of the Lavozersky deposit, reaches f = 12 ... 14 with a thickness of strata of about 0.6 m.

A device is known for sinking uprising workings by drilling a pilot well (RF patent No. 2004809 C1, class E21D 3/00 dated 05/20/1991), which contains a drilling rig located in a drilling (upstream) mine and connected through a drill string booms with expander. Drilling a pilot well is carried out from a mining hole in the downstream hole, i.e. drilling from the upper horizon to the lower horizon. After the pilot well reaches the lower horizon, for example, in the transport excavation, an expander is fixed on the drill string, with which pilot wells are drilled, i.e. sinking of rising production is carried out. The rock-breaking working tool (roller cone bits) is fixed in the expander from the side of the mouth of the pilot well. Remote from the rig, but in the drill hole, a winch with a cable is placed, which is connected to the drill string from the mouth of the pilot well through a special device with the ability to move along the drill string. When the drill string is broken, the specified special tool and cable hold the drill string in the well and allow it to be removed to the upper horizon, i.e. into the drill hole.

The disadvantage of the device according to US Pat. RF No. 2004809 C1 is that the use of such a installation is possible when conducting vertical mine workings, i.e. rebels, because otherwise, the specified special device, moved along the drill string, will begin to interact with the walls of the well and the device will lose its performance.

At the same time, it is known that a large volume of thin layers of strong ores have a slightly inclined or gently sloping arrangement. Thus, this device (US Pat. RF No. 2004809 C1) has a limited scope.

The closest technical solution is a mining combine for the development of strong ores from low-grade strata by drilling (Mikhailov Yu.V. Underground mining of mineral deposits. M: Publishing Center Academy, 2008, pp. 225 ... 229). This combine is installed in a drilling hole and, using a drill string and known rock cutting tools, such as roller cone bits, drills a pilot well through an ore body. The mouth of the pilot well is located in the drill hole, and its output is in another hole, for example, in transport and sorting. After the pilot well has been drilled in the transport and sorting hole, the working tool is dismantled with which the pilot well was drilled, and instead, an expander is attached to the drill string, which is delivered to the drilled well by means of a mounting trolley. The rock-breaking working tool of the expander, for example roller cone bits, is fixed in the expander from the side of the mouth of the pilot well. Drill cuttings generated during the drilling of a pilot well, by gravity moves to the exit of the drilled well in the direction of transport and sorting workings and in this workings are captured and processed by equipment included in the production unit, for its subsequent delivery to the surface.

The disadvantages of the prototype device is the following:

1) The scope of the prototype is limited, because this combine can be used at dip angles of 10–12 degrees or more. This is due to the fact that, at smaller dip angles, the drill cuttings do not move by gravity along the drilled well, i.e. complicates the operation of the expander. Thus, it is impossible to mine strong ore by drilling from thin seams with dip angles of less than 10 ... 12 degrees. In addition, a large volume of low-grade strata with ore strength f≥4 is located in cryolite zones having a temperature below 0 ° C. Therefore, the gravity-free movement of drilling mud containing moisture through an expandable well is difficult;

2) after the completion of the drilling of the pilot well, the expander goes to the mouth of the pilot well, i.e. into the drill hole. Therefore, to drill each pilot well, it is necessary to move the expander to the transport and sorting mine (or to the downstream horizon). Moving is carried out, as a rule, by some vehicle along the mine workings to the wellbore, the expander is lowered along the wellbore, and then delivered to the pilot well to be drilled to fix it on the drill string. Such a number of transport operations leads to a decrease in the productivity of the production unit and reduces its efficiency.

Thus, the known prototype device has a limited scope and low productivity.

The aim of the present invention is to expand the operational capabilities and efficiency of plants for the extraction of strong ores from low-grade strata by drilling.

This goal is achieved by the fact that the winch is placed in the transport and sorting hole and mounted on the mounting trolley, and the screw and cable are attached to the expander from the side opposite the mouth of the pilot well, and the expander is made with a protrusion in the form of a square for transmitting rotation to the screw having a spiral directed in the direction opposite to the mouth of the pilot well, and a bracket is provided between the cable and the screw providing free rotation of the screw.

The invention is illustrated by drawings, presented in figure 1 ... 5.

Figure 1 schematically shows a General view of the installation, in which a drilling rig for drilling a pilot well and for subsequent drilling of this well is placed in the drilling, and remotely located mounting trolley, winch with a cable and equipment for receiving and transporting drill cuttings are placed in transport sorting output.

Figure 2 schematically shows a section AA, which explains the relative position in the transport and sorting excavation of the mounting trolley, winch with cable and equipment for receiving and transporting drill cuttings.

Figure 3 shows a general view of the expander, its relationship with the screw and cable, as well as its location relative to the mouth of the pilot well and the winch mounted on the mounting cart.

Figure 4 shows a section bB, explaining the combination of elements and the relationship between the screw and the cable, providing free rotation of the screw.

Figure 5 shows a cross-section BB explaining the relative position of the screw and expander and the form of communication between them, providing interaction between the screw and expander.

An installation for the extraction of strong ores from low-grade strata by drilling consists of a drilling rig 1, fixed in a drill hole 2 by stop jacks 3, having a drill string 4 made of drill rods equipped with a drilling tool 5, for example, with a cone bit (not shown), through a threaded joint 5 , for drilling a pilot well 6, the mouth 7 of which is located in the body of the ore formation.

The installation includes a remote mounting trolley 8, located in the transport and sorting excavation 9, equipped with a winch 10 with a cable 11. Using a lifting device 12, for example hydraulic jacks, the winch 10 is able to move in a vertical plane. The winch 10 has a handle 13 for rotation (or may be equipped with an electric drive).

For drilling a pilot well 6, the installation has an expander 14, a rock cutting tool of which, for example, cone 15, is fixed from the mouth 7 of the pilot well 6. The expander 14 is made with a protrusion 16 in the form of a square. From the side opposite the wellhead 7, the expander 14 is connected via a protrusion 16 to the screw 17, which interacts with the walls of the drilled borehole 18 by means of a helical spiral, which has a direction in the direction opposite to the mouth 7 of the pilot well. The fastening element 19, such as a cotter pin or pin, provides a reliable connection between the expander 14 and the screw 17.

A bracket 21 is attached to the end of the screw 17 through a fastening element 20, for example, a bolt, which is connected to the cable 11 and, thanks to the hole 22 having a diameter greater than the diameter of the element 20, allows the screw 17 to rotate freely relative to the cable 11.

For receiving and further transportation of drill cuttings obtained by drilling pilot well 6, the installation has a receiving funnel 23 connected to the slurry pump 24. Drill cuttings are transported through a pipe 25 to a receiving vessel 26, for example, to a trolley transported by rail 27 to a transport -sorting output 9. The lifting device 12 is protected by an apron 28 from the influence of drill cuttings, and the supply of water (or air) while drilling the pilot well 6 and when it is drilled is carried out through holes 29.

The installation for the extraction of strong ores from low-grade strata by the method of drilling as follows.

By means of a drilling rig 1, a drill string 4 and a drilling tool (not shown in the drawing), a pilot well 6 is drilled using a well-known technology, the wellhead 7 of which is located in the body of the ore formation, and the pilot well 6 exits into the transport and sorting mine 9. An assembly trolley 8 is supplied to the exit of the pilot well 6 along a rail path 27, comprising a winch 10 with a cable 11, an expander 14 and a screw 17. The expander 14 is connected to the drill string 4 through a threaded connection 5, and the process of drilling the pilot well begins 6 by a length of not more than the length of the screw 17. Then, the expander 14 is fed by the machine 1 to the outlet of the drilled well 18, connected through the protrusion 16 and the fastening element 19 with the screw 17, which, in turn, is connected through the bracket 21 to the cable 11 , and the process of drilling the pilot well 6 continues.

Drill cuttings, due to the screw spiral of the screw 17, directed to the side opposite to the mouth of the pilot hole 7, are moved to the outlet of the drilled hole 18 into the receiving funnel 23, then the slurry pump 24 is transported through pipeline 25 to the vessel 26 and then to the place of processing.

When the expander 14 reaches the mouth 7 of the pilot well 6, i.e. at the end of the drilling process, the reamer 14 is disconnected in the drill hole 2 from the drill string 4 and, together with the screw 17 and the cable 11, is placed in the drilled hole 18. Then the winch 10 is rotated with the handle 13 and the reamer 14 and the screw 17 are moved by the drilled hole 18 through the drilled hole 18 into transport and sorting excavation 9 to the mounting trolley 8. Then the trolley 8 moves along the rail track 27 to the subsequent pilot well 30 to drill it, the receiving funnel 23 moves to it (if necessary, equipment for collecting drill cuttings) , a hoist 10 is placed with a lifting device 12 at the required height, the expander 14 is fixed on the drill string 4, and the ore mining process is repeated by drilling.

Due to the placement of the screw 17 from the side opposite the mouth 7 of the pilot well 6 and the direction of the screw spiral to the side opposite to the mouth 7 of the pilot well 6, as well as the connection of the screw 17 to the cable 11 from the winch 10, which is not located in the drilling 2, is ensured the ability to drill ore not only in inclined formations, but in weakly inclined and horizontal, as well as in cryolite zones. Eliminates the operation of transporting the expander 14 through the shafts (or other workings) to the place of its installation on the drill string.

Claims (1)

Installation for the extraction of strong ores from low-grade strata by the method of drilling, including a drilling rig for drilling a pilot well, located in a drilling hole and connected through a drill string with an expander for subsequent drilling of a pilot well, a rock cutting tool mounted in the expander from the side of the pilot wellhead , auger for moving drill cuttings, a winch with a cable, a mounting trolley, as well as equipment for receiving and transporting drill cuttings remotely located in a transport and sorting station characterized in that the winch is located in the transport and sorting hole and mounted on a mounting trolley, and the screw and cable are attached to the expander from the side opposite the mouth of the pilot well, and the expander is made with a protrusion in the form of a square for transmitting rotation to the screw having a spiral directed in the direction opposite to the mouth of the pilot well, and a bracket is provided between the cable and the screw providing free rotation of the screw.

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