SU1778218A1 - Method for erection of hydraulic mine dump - Google Patents

Description

The invention relates to hydraulic engineering, in particular to methods for the construction of hydraulic dumps, mainly gold dumps and tailings.

The purpose of the invention is to simplify the technology of washing and building hydraulic dump.

Figure 1 shows a hydraulic dump, Fragment of the plan; figure 2-7 - also, by the floor, the application of dust suppression coatings and a remediation layer on the surface of the washed massif. In the method the hydraulic dump separated into inner and outer sections by a dividing dumping dam ^PA-1 is parallel to the partition, a clarified water intakes into int. the first section. First, the outer section is washed along the dams and the water from it is discharged into the inner section using temporary culverts. As the surface of the reclaimed mass of the outer section is formed, a dust suppression coating is applied to it. Washing internal.

sections begin after completion of;

wash the external section, which is maintained in a flooded state (at the same time, build up another level of dams, then transfer the slurry pipeline and continue to wash the hydraulic dump. After filling the hydraulic dump, the restoration layer of soil is poured onto the surface of the washed mass 1. 4 zpf 7 ill. I

1778218A1 cross-section at different stages of construction,

The hydraulic dump is constructed as follows.

On the base 1 prepared by known methods, the enclosing dam 3 is made of strong ground material and the separation dam 3 is made of the same or less durable material, preferably water permeability4 and thereby create an external

4, located between dam3, and the inner section 5, for 1778218.

section, mi 2 and occupying the entire remaining area of the hydraulic dump. On the crest of the inner dam 3 lay a slurry pipe 6 (figure 2) with two rows of slurry outlets 7 and 8 or with rotary slurry outlets 9 (not shown conditionally in Figs. 1-7). Pulp outlets of the second row 8 - towards the inner section 5 (Fig.Z). When the external section 4 is washed up, the pulp outlets of the first row 7 are opened and the section is washed through them; after it is filled to the full height of the corresponding tier of the hydraulic dump, the pulp outlets 7 are closed, the second out pulp outlets are opened and through them the pulp is discharged into the inner section 5. When the rotary pulp outlets 9 are installed on the slurry piping 9, they are turned towards the filling section, without interrupting the pulp supply process, by pulp 25 du 6 .. The washing of the outer section 4 is carried out with a higher intensity than filling the stored material with the inner section 5, so that the surface of the alluvial deposits 10 in the outer section 4 is constant clearly located higher than the surface of the water 11 in the inner section 5. The washing of the outer section 4 is carried out along the dams 2 and 3 bounding it and gradually, as the formation and drying of the surface section 12 moving along the section 4 is formed. A dust suppression coating is applied to the surface of the alluvial deposits 10, for example, a soil layer 13. After completion of the washing up of the outer section 4, the slurry outlets 7 are closed, the slurry outlets 8 are opened or, accordingly, the rotary outlets turn towards the inner section 5 and begin to fill it. rial with the release of 'pulp under the water level 1 1.

The clarified water is diverted outside the hydraulic dump with the help of water intake devices 14 (for example, spillway wells), which are located in the inner section 5. Water from the outer section 4 is discharged into the inner section 5 through the temporary culverts 15 (for example, trays) or pipes), which are arranged on the ridge · dams 3 and subsequently dismantled10 or closed as the reclamation of the next tier of the outer section 4 is completed (Fig. 5). Then, during the construction of the next tier (Fig. 6) of the hydraulic dump, the dams 2 and 3 are first built up, pouring them onto the surface of the alluvial deposits 10 of the outer section 4, the slurry piping 6 with slurry outlets 7, 8 or 9 is transferred to the crest of the built-up dam 3 and at the same time they continue to wash the inner sections 5 from the still existing slurry pipe 6 located on the crest of the dam 3 of the previous tier, then it is disconnected and dismantled, a new slurry pipe 6 is turned on and the next tier of the outer sections 4 is washed in. protect · ¹ surface 10 of the washed massif with a new temporary dust suppression coating 13, and the pulp outlets 7, 8 or 9 are switched to the inner section 5 and continue to be washed out; the listed technological operations are repeated on each tier of the building (Fig. 7). When erecting a hydraulic dump in harsh climatic conditions, the external washout

- sections 4 are performed only in the warm season, and the washing of the inner section 5 in winter is carried out by releasing pulp under the ice into non-freezing mines created by known methods. ,

After the washing of the last tier of the outer section 4 is completed, the surface 10 of the washed mass is drained and then dumped on it with a remediation layer of soil 16, while continuing to wash the inner section 5 and after filling it, complete the restoration of the entire remaining surface of the hydraulic dump by filling the soil layer 16.

The application of the proposed method will significantly simplify the technology of reclamation of a hydraulic dump, including in winter; this eliminates the risk of ice formation in alluvial deposits of the outer section, and the stability of the hydraulic dump can be controlled by selecting the necessary distance between the enclosing and dividing dams.

Dust suppression within the external. sections is carried out gradually as ¹ formation and drainage of the surface of the alluvial array. Dusting within the inner section is prevented by its operation in a continuously flooded state.

The technological simplicity of building allows you to build hydraulic dumps of any height according to this method, respectively, reducing the area occupied by them.

Claims (6)

Claim 1, A method of erecting a hydraulic dump, including dumping and tiered extension of the enclosing dam and the separation dam between the sections, laying the slurry pipeline on the crest of the separation dam, installing permanent clarified water intakes and temporary culverts, for example, pipes or filter inserts, on the separation dam, consecutive filling of sections with the reclaimed material, applying dust suppression coatings to the surface of the reclaimed massif and filling of the remediation layer of the soil onto completely washed sec ies, characterized in that, in order to simplify the technology of washing and building up the hydraulic dump, the dividing dam is sprinkled parallel to the enclosing dam and form two sections - external and internal, the constant water intakes of clarified water are placed in the internal section, while first of all the outer section, and they lead it along the dam, and the water from the outer section is discharged into the inner section by temporary culverts, which are closed or dismantled after the completion of the reclamation of the next tier externally section during reclamation outer section, .6 blowing follows the retreating along dams krom- ~ Coy water as the formation of topside surface array it namytye dust suppression coating is applied, for example a layer of soil. 2. The method according to p. sections, and the surface of alluvial deposits 15 in the inner section support. in a flooded state at a water level not exceeding the surface mark of the washed massif of the outer section. \ 3. The method according to p. and continue to wash the new yar *. Hydraulic dump in the same sequence. 4. The method according to claim 1, characterized in that. After the completion of the washing up of the last tier of the outer section, the surface of the washed mass is drained and then a restoration layer of soil is poured onto it, while they continue to wash out the inner section and after its filling and draining complete the restoration of the entire surface of the hydraulic dump. 5. The method according to claim 1, distinguished by the fact that when erecting a hydraulic dump in harsh climatic conditions, the _t tapping of the outer section is carried out in the warm season. g L \ bj. '' \ ‘X: * \ X /> / . ·? 'L? ........ / ^d 7 ^z ..........., jav ^ F ^ r. 2 for <r p -S /.