SU1073176A1 - Method of hoisting when sinking deep mine shafts - Google Patents

Abstract

METHOD OF LIFTING DEPTH MINE STEM TRAINING, FC (including preparing the foundation, installing a mobile single-end lifting machine, hanging a rope through a pulley and connecting a lifting vessel to it with the maximum permissible capacity, which is so that, in order to increase lift performance by maximizing the capacity after the start of the one-end hoist, the foundation is erected, on which the second one-end machine is mounted, and upon reaching the maximum depth of the barrel for a single-end hoisting machine connects its drive to the control panel of the main hoist of a multi-purpose machine, the rope of which is driven through an additional pulley into the barrel and the lifting vessel of the same capacity is mounted on the ropes of both hoisting machines through equalizing suspended equipment. (/), 5 O with O5

Description

The invention relates to mining, in particular, to mine construction, and can be used for lifting while driving deep shaft shafts with lifting equipment. There is a method of lifting the installation of the Bleuer system of rock mass from large depths, enclosing the installation in the installation near the building of the trunk on the monolithic foundation of the lifting machine, hanging the lifting rope and connecting it to the lifting device 1. However, the known method does not provide for the hanging of vessels on one rope. In addition, the installation of the Blair system is cumbersome, its delivery to the construction site is possible only in parts, and installation requires considerable time and labor. At the first stage of construction, the CTBOvia installation is used incompletely, since the second drum with a drive does not participate in the operation at shallow depths. The closest to the proposed technical essence and the achieved result is a lifting method, including. Further preparation of the foundation, installation of a mobile single-end machine, attachment of a rope through a pulley and connecting a vessel with a maximum permissible capacity to it. A disadvantage of the known method is the incomplete use of the mosquito of the lifting machine when penetrating the upper part of the trunk, since its power is calculated on the full depth of the trunk . As the wellbore deepens, the lifting vessel with a larger capacity must be replaced by a smaller one, since the weight of the rope increases with increasing length. With a single-end lift, it is impractical to use ropes with a large diameter, and this makes it impossible to pass deep trunks using a single-ended lift. The purpose of the invention is to improve the lifting performance by maximizing the power of the lifting installation. This goal is achieved by the fact that, according to the method of lifting, when sinking deep shafts, including preparing the foundation, installing a movable single-ended lifting mask, hanging the rope through a pulley and connecting the lifting vessel to it with the maximum permissible capacity, after starting the single-ended lifting machine build the foundation on which they mount the second one-end machine, and when the limiting depth of the barrel for a one-end hoist machine is reached, it is driven to the control panel of the main hoist machine so that the plant through a further pulley in the trunk and hung on the ropes both winders through leveling suspension device of lifting vessels of the same capacity. FIG. 1 shows the scheme of lifting goods by two mobile single-end lifting machines; in fig. 2 - the same plan view; in fig. 3 - balancing suspension device with lifting vessel m. The method is as follows. Mobile one-end lifting machine 1 is installed on the unified foundation blocks near the building of the trunk. The rope 2 of the lifting machine 1 is wound off the drum 3 and is thrown over the pulley 4 mounted on the bottom 5 of the tunneling head 6, after which the goods are lowered and lifted in the lifting vessel 7. In parallel with the operation of the lifting machine 1, the second single-end is mounted the lifting machine 8. When reaching the critical depth of the trunk for the lifting machine 1, connect the lifting machine 8. For this, the rope 9 of the lifting machine 8 is wound from the drum 10 and thrown through an additional pulley 11 pre-installed on the pulley platform 5 of the tunneling head 6. The lifting vessel 7 is suspended from a balancing suspension device 12 to which the cable 2 from the lifting machine 1 and the cable 9 from the lifting machine 8 are connected. The drive of the lifting machine 8 is connected to the control panel of the lifting machine 1 and continue to produce lowering and lifting loads. The use of the proposed method of penetrating deep shafts of shafts with lifting equipment allows to increase lift performance by maximizing the power of the lifting unit, regardless of the depth of the barrel. Sequential installation of the hoist accelerates the preparation of the bore. The use of two ropes for lifting and lowering loads to greater depths makes it possible to pass deeper trunks with the help of single-end lifting machines, to use the same lifting vessel for the entire period of penetration. Sequential mounting of lifting machines allows using one of them on another object, which contributes to more efficient use of equipment.

cpus.2

Claims (1)

METHOD OF LIFT WHEN PASSING DEEP SHAFT SHAFT, including foundation preparation, installation of a mobile single-end lifting machine, hanging the rope through a pulley and connecting a lifting vessel of maximum permissible capacity to it, characterized in that, in order to increase the lifting performance due to the maximum use of the lifting capacity of the installation , after the start of the single-end lifting machine, a foundation is erected on which the second single-end machine is mounted, and upon reaching the maximum depth of the barrel for the single-end oh lifting machine is connected to drive its main lift control panel of the machine, wherein the plant through the rope pulley in additional barrel and hung on the ropes of both winders leveling suspension device through the lifting vessel of the same container.