RU2061865C1 - Method for open mining - Google Patents

Abstract

FIELD: mining. SUBSTANCE: method for open mining is laid in dividing a part of working area of a quarry in plane into plots, forming of non-working bank on plots of working area. The banks are alternated along quarry depth with working horizons according their spacing, spacing upper horizons of temporary non-working bank concurrently with its forming using their bringing into temporary non-working state working horizons placed beneath, spacing successive horizon of temporary non-working bank at each plot of working area after bringing it into temporary non-working state of a step of this horizon at adjacent plot of quarry working area. EFFECT: increased resultant slope of quarry working bank. 1 dwg

Description

 The invention relates to the field of mining and may find application in the open development of mineral deposits.

где B_ц шаг передвижки целика, м;
V_п средняя скорость подвигания рабочего борта, определяемая скоростью и направлением углубки карьера, м/год;
H_ц суммарная высота уступов блока горизонтов временно нерабочего борта, м;
Φ_ц угол наклона рабочего борта, градус;
ψ угол наклона временно нерабочего борта, градус;
V_ц средняя скорость подвигания уступов при разносе временно нерабочего борта, м/год,
производят переформирование рабочего борта во временно нерабочий борт с переносом на него транспортных коммуникаций и отработку при расконсервации временно нерабочего борта другого участка (см. положительное решение на изобретение "Способ открытой разработки месторождений полезных ископаемых" по заявке института Гипроруда N 4620365/27-03 (172341).There is a method of open-pit mining of mineral deposits, including dividing the quarry field into sections, mining some sections on the working board of the quarry with transporting the rock mass, forming a temporarily idle side in other sections and re-preserving temporarily non-working sections, characterized in that in order to increase the efficiency of field development with the use of rail, road or automobile conveyor transport by increasing the volume of rock mass recoverable on the bottom is the position of transport communications, transport communications are formed on a temporarily idle side and the mined rock mass is transported along them, and when moving the ledges of the working side section by the amount

where B _c step the movement of the pillar, m;
V _{p the} average speed of the working board, determined by the speed and direction of the pit recess, m / year;
H _{c the} total height of the ledges block horizontally temporarily idle side, m;
Angle Φ _p of the working side inclination degree;
ψ the angle of inclination of the temporarily idle side, degrees;
V _{C the} average speed of the movement of the ledges during the separation of temporarily idle side, m / year,
reformation of the working side into a temporary non-working board with the transfer of transport communications to it and working off during re-preservation of a temporarily non-working side of another section (see the positive decision on the invention "Method for open mining of mineral deposits" at the request of Giprorud Institute N 4620365 / 27-03 (172341 )

 With this development method, the goal is to increase the amount of rock extracted by one position of transport communications by creating an advance in the advancement of the horizon block by the size of the movement step and by forming sections of the temporarily idle side on which transport communications are located. Moreover, the height of the temporarily idle side, at least theoretically, is not limited.

 Therefore, having formed a temporarily idle side of a sufficiently high height, it is possible to increase the resulting angle of inclination of the entire working side of the quarry and, thereby, reduce the current stripping ratio in a certain period of operation of the enterprise.

But on the other hand, the creation of an advance in the advancement of the horizon block by the magnitude of the step of moving the rear pillar B _{c is} possible only with a large difference between the speed of advancement of the ledges at the spacing of the temporarily idle side V _c and the speed of movement of the working side, determined by the speed and direction of the pit recess V _p . Otherwise, the value of the denominator in the analytical expression will be quite small, and the step size of the movement, especially with an increased height of the temporarily idle side, will be large. This means that on the lower horizon of the section of the temporarily idle side, it will be necessary to create a working platform of large width, which will lead to a sharp flattening of the entire working side of the quarry and, despite the creation of the site of the temporarily non-working side, to reduce the resulting angle of inclination of the working side of the quarry. Since the value of V _{c is} always limited by the capabilities of the transport scheme of the quarry, the speed V _p should always be significantly less than half the value of the speed V _c , which indicates that the scope of the method according to the considered analogue is limited to quarries with a fairly low intensity of mining. In addition, the development method under consideration is limited to the condition of using temporary transport communications.

 Thus, the considered analogue, providing high efficiency when using temporary transport communications in a quarry with a sufficiently low mining intensity due to an increase in the duration of the operation of transport communications in one position, is an ineffective way to increase the resulting tilt angle of the open pit.

 Below are considered methods of developing deposits, the implementation of which is directly aimed at increasing the resulting angle of inclination of the working side of the quarry and reducing the current stripping ratio in certain periods of its operation.

 There is a method of open development of mineral deposits with the abandonment of a temporarily idle side within the quarry with sites of reduced width. This provides in the first period of the quarry, a decrease in the operational coefficient of stripping. After a certain period of time, when the height of the temporarily idle side reaches the set value, it begins to spread to the final contours of the quarry. At the same time, the rate of advancement of the ledges should be high enough to ensure timely spacing of the temporary side and uninterrupted operation of the quarry for ore mining (see the monograph by A. I. Arsentyev "Determining the productivity and boundaries of quarries. M. Nedra, 1970, pp. 109- 115).

 With this method of development, one section of the temporarily idle side is formed according to the height of the working zone, which does not use all the possibilities to increase the angle of inclination of the entire working side.

 There is a method of open development of deposits with the allocation in the career stages (queues) of development. With this method, intermediate circuits with an inclination angle greater than the inclination angle of the working board are distinguished inside the final contour of the quarry. Mining operations at horizons reaching the contour of the first stage quarry are stopped, forming a temporarily idle side.

 When a temporarily non-working side on the first stage circuit reaches the calculated height, it begins to spacing with the aim of successively moving the ledges to the second stage quarry contour, where they also begin to form a temporary non-working board, etc. (see the monograph by A. I. Arsentyev "Determining the productivity and boundaries of quarries. M. Nedra, 1970, pp. 297-303; monograph by V. V. Rzhevsky" Technology and complex mechanization of open cast mining. M. Nedra, 1980 , p. 527; brochure by V.S. Khokhryakov, P.T. Tserenshchikov "Phased development of mining in quarries. M. publication of the Institute" Tsvetmetinformatsiya ", 1968, p. 6, 20; book by V.S. Khokhryakov, A .T. Shelesta “Designing quarries.” M. Nedra, 1969, p. 181; article by V.P. Linev “Determining the parameters of the working area of a quarry with sections of temporarily idle sides.” “Mountain Journal”, N 5, 1986, pp. 15-17).

 Of the known methods of open-pit mining of deposits, the closest in technical essence to the proposed invention is a method with highlighting the stages of its development in a quarry.

 The main technological feature of the prototype is the alternation in depth of the quarry of the sections of the temporarily idle side with the working horizons according to their spacing and the spacing of the upper horizons of the temporarily idle side simultaneously with its formation by bringing the temporarily inoperative position below the working horizons.

 Indeed, when the temporarily idle side on the contour of the first stage reaches the calculated height, the separation of its upper horizons begins, but at the same time, the height of the temporarily idle side from the bottom continues due to the ongoing deepening of the quarry. Thus, the section of the temporarily idle side “slides” along the contour of the stage, gradually reducing its height due to the difference in the speeds of its separation and build-up from below. This is the main technological difference between the prototype and the first analogue considered above. The economic efficiency of the development method for the prototype is achieved by reducing the current stripping ratio by attributing a portion of the volume of stripping operations to later periods of field development. Moreover, the efficiency increases with the volume of temporarily conserved breeds, i.e. with the increase in the size of the section temporarily idle side of its height and length.

 The possible height of the temporarily idle side in the section, and consequently, the resulting angle of inclination of the entire working side of the quarry, increase with increasing speed of its separation, i.e. with an increase in the rate of advancement of the ledge on the working horizons according to the separation of the temporarily idle side (see, for example, the article by V.P. Linev "Determining the resulting angle of inclination of the working side of the quarry", "Mountain Journal", N 10, 1987, pp. 29-31) .

 However, under the conditions of an existing quarry with the existing transport scheme, the possible productivity of each horizon is limited by the capacity of the scheme, which is especially severely manifested in railway transport. Since the productivity of the horizon is determined by the product of its length within the section of the temporarily working side and the speed of moving the ledge on the horizon, with a fixed value of it, an increase in the length of the section of the temporarily idle side will inevitably lead to a decrease in the speed of the movement of the ledges on the working horizons according to the separation of the temporarily idle side, and therefore, to reduce the resulting angle of inclination of the entire working side of the quarry, which is the main disadvantage of the prototype.

 The aim of the present invention is to remedy this drawback and increase the efficiency of the method of developing deposits by increasing the resulting angle of inclination of the working side of the quarry by increasing the speed of moving the ledges on the working horizons according to the separation of temporarily idle sides.

 This goal is achieved by dividing part of the open pit working area into sections, by forming temporarily idle sections on the working area sections, alternating along the open pit depth with working horizons according to their spacing, spacing of the upper horizons of the temporarily idle side simultaneously with its formation by putting it into a temporarily idle position below the working horizons, by the separation of the next horizon of the temporarily idle side in each of the sections of the working area after bringing in temporarily inactive position of the ledge of this horizon on an adjacent section of the working area of the quarry.

 The invention is illustrated in figure 1, which schematically shows part of the working area of the quarry, divided in plan into two sections l and II. The conditional border between the sections is depicted by a straight dashed line, although in the general case it can also be a broken line. The numbers indicate the horizon numbers from top to bottom.

 From the FIG. 1 of the diagram it follows that on the l section of the working zone sections of the temporarily idle side are formed from horizons 1, 2, 3 and 7, 8, 9. The ledges at the same horizons in the II section of the working zone are intensively moving.

 In section II of the working zone, temporarily idle sides are formed from horizons 4, 5, 6 and 10, 11, 12, which, in turn, are worked out in section I. Thus, the alternation in depth of the quarry of the sections of the temporarily idle side and working horizons according to their spacing is ensured.

 The separation of temporarily idle sides, for example, formed in the first section from horizons 7, 8, 9, is performed starting from the upper horizon. In this case, conditions are provided for the separation of horizon 7, because on the above horizon 6, a working platform of the calculated width is formed. Simultaneously with the separation of horizon 7, the height of this temporarily idle side is increased by bringing the ledge on horizon II to the temporarily inoperative position. In this case, the separation of horizon 7 in the I section of the working area is carried out after putting the ledge of this horizon in the II section of the working zone of the quarry into a temporarily inactive position. Similarly, the upper horizons are spaced apart in other sections of the temporarily idle side: the horizon spacing l is made after the ledge of this horizon in section II stops, the horizons 4 and 10 are separated after the ledges are temporarily inoperative in these horizons in section I.

 The economic efficiency of the proposed method is ensured by increasing the resulting angle of inclination of the working side along the breed, which is achieved by increasing the speed of the ledges on the working horizons according to the separation of temporarily non-working boards and, on this basis, increasing the permissible height of the temporarily non-working side.

 For example, if the sections of the working zone are equal in length, then the application of the method will double the speed of moving the ledges on the working horizons according to the separation of temporarily idle sides with a fixed capacity of the transport scheme.

The calculations show that, for example, during the formation of sections of the temporarily idle side from the side of the hanging side of the deposit, the angle of incidence of the ore body is 60 ^o , the speed of the pit recess is 8 m / year and the angle of inclination of the temporarily idle sides is 35 ^o , the speed of advancement of the ledges at working horizons the separation of temporarily idle sides from 40 to 80 m / year will increase the resulting angle of inclination of the working rock side of the quarry by 4 ^o . For the conditions of existing large iron ore quarries, this will provide the possibility of attributing the excavation of tens of millions of cubic meters of rock to subsequent periods in each quarry.

 The main features of the proposed method, both known and new, are significant, since the absence of any of them does not make it possible to achieve the goal.

 Indeed, if the working area is not divided into sections in terms of plan, then obviously, the spacing of the next horizon of the temporarily idle side will be carried out along the entire length of the side of the working area, which does not make it possible to increase the speed of spacing. The refusal to alternate temporarily idle side sections with the working horizons according to their spacing in depth determines the formation of only one such section in the working area, which will not allow full use of the possibilities to increase the resulting angle of the entire working side of the quarry. The rejection of the principle of simultaneous separation of a temporarily idle side from above and increasing its height from below by bringing the lower horizons to a temporarily inoperative position will lead to the fact that initially a temporarily idle side of the estimated height will be formed, and then they will be carried out. But in order to prevent the ledges from stopping at lower working horizons during the separation of the formed temporarily idle side, on the horizon of its lower base, it will be necessary to create an advancing platform of sufficient width, which will lead to a decrease in the resulting inclination angle of the entire working side of the quarry. And finally, on the materiality of a new feature of the invention: the rejection of the proposed sequence of actions for the spacing of the next horizon of a temporarily idle side in adjacent sections of the working area will lead to the impossibility of increasing the speed of the ledge on this horizon. If, for example, we start spreading horizon 7 in section 1 before the ledge on this horizon is stopped in a temporarily inactive position in section II, then it is necessary to advance this ledge at the same time in both sections of the working area, which will lead to a decrease in the speed of advancement of the ledge, and therefore, to reduce the permissible height of the temporarily idle side and reduce the resulting angle of inclination of the working side of the quarry.

 The novelty of the proposed method consists in a new sequence of actions for the formation and separation of sections of the temporarily idle side in adjacent sections of the working area of the quarry while performing these operations on each of the sections of the working area.

 The invention can be applied both to increase the resulting angle of the working side of the quarry, represented by the horizons on which working platforms of the calculated width are formed, and to distribute temporarily idle sides with large dimensions in depth and in plan formed on the intermediate circuit, which is especially typical for many major iron ore quarries now.

 In the first case, the implementation of the proposed method is as follows.

 Let us assume that the project has established the possibility and expediency of forming two sections of a temporarily idle side in both sections of the working zone, i.e. as shown in figure 1. In this situation, the ledge at horizon 1 is stopped on the l section of the working area, which is the beginning of the formation of the temporarily idle side section from horizons 1, 2 and 3. After this side is finally formed, the ledges at horizons 4, 5, 6 and 7 are stopped , which provides the beginning of the formation of a temporarily idle side in the same section of the working zone, consisting of horizons 7, 8, 9. During the formation of a temporarily idle side, on the l section of the working zone, horizons 1, 2, 3 form a section of the temporarily idle side of the horizon in 4, 5, 6 on the II site of the working area, etc. After the final formation of all sections of the temporarily idle side stipulated by the project, further development of the horizons is carried out using the above technology.

 In the second case, when the idle side formed on the intermediate circuit is spaced, the implementation of the invention is carried out in the reverse sequence of actions: on the II section of the working zone (see Fig. 1), horizons 1, 2 and 3 are carried out with the formation of working areas of the estimated width , after which the ledge at horizon 1 is stopped and the distribution of this horizon at l section of the working area is started. The stop of the ledge at horizon 1 is the beginning of the formation of a temporarily idle side from horizons 1, 2, and 3 in section II of the working zone. As the ledges are temporarily inoperatively placed on these horizons, they are spaced on an adjacent l section of the quarry working area.

 Currently, the proposed invention is being implemented in the design documentation developed by the Giprorud Institute for the quarry of the Krivoy Rog Southern Iron Ore Mining and Processing Plant.

Claims (1)

 A method of open development of mineral deposits, including dividing part of the open pit working area into sections, forming temporarily idle sections on the working area sections, alternating along the open pit depth with working horizons according to their spacing, spacing of the upper horizons of the temporarily idle side simultaneously with its formation by reduction to a temporarily inoperative position below the working horizons, characterized in that, in order to increase the resulting angle of inclination of the working bo mouth of the quarry by increasing the speed of advancement of the ledges on the working horizons on the spacing of temporarily idle sides, the spacing of the next horizon of a temporarily idle side in each of the sections of the working zone is carried out after the ledge is temporarily inoperative of the ledge of this horizon on an adjacent section of the working zone of the quarry.