CN204435430U - A kind of reverse row being applicable to upstream type Tailings Dam oozes system and upstream type Tailings Dam - Google Patents

Abstract

The utility model discloses a kind of reverse row being applicable to upstream type Tailings Dam and ooze system and upstream type Tailings Dam, wherein oppositely row's system of oozing comprises row and oozes french drain, collection seepage well, aqueduct and infiltration fairlead, collection seepage well is vertically embedded in Tailings Dam, and it is that certain slope is laid in Tailings Dam that row oozes french drain; Collection oozes french drain slope aspect collection seepage well and is communicated to collection seepage well, and the collection of same elevation aspect oozes french drain to be arranged in radiant type to collect centered by seepage well; The bottom of collection seepage well is communicated with reverse aqueduct, and reverse aqueduct is that the updrift side from the downstream of Tailings Dam to Tailings Dam tilts, and reverse aqueduct is finally communicated to infiltration fairlead.Upstream type Tailings Dam of the present utility model comprises initial dam and fill dam, is provided with aforesaid reverse row and oozes system in fill dam, the fill dam region that oppositely row oozes system place be configured to an abundant drainage seep water after in order to support the support edges body of Tailings Dam.The utility model structure is simple, easy construction, significantly can reduce accumulation body region phreatic line before dam, improves dam stability.

Description

A kind of reverse row being applicable to upstream type Tailings Dam oozes system and upstream type Tailings Dam

Technical field

The utility model relates to a kind of Tailings Dam and row oozes structure, and the row particularly relating to a kind of upstream type Tailings Dam and be applicable to upstream type Tailings Dam oozes system.

Background technology

Tailings Dam be store metal, non-metal mine carries out the place that ore sorts the mine tailing of rear discharge, tailing dam is then the Tailings Dam outlying structure of mine tailing and water of blocking, and is often referred to the overall of initial dam 1 and tailing dam 2, see Fig. 1.Initial dam 1 builds up with soil, stone material etc., and the row as tailing dam 2 is oozed or the dam of supporter.Fill dam 2 refers in manufacturing process with the dam that mine tailing is piled up.When certain piles up absolute altitude, the lithosomic body top layer that waterpower alluviation mine tailing is formed is exactly the deposition beach face 7 of this accumulation absolute altitude, corresponding to the dam crest on the sub-dam 3 of this accumulation absolute altitude, it is exactly the accumulation dam crest of this accumulation absolute altitude, the dam crest axis on this grade of sub-dam 3 is the fill dam apical axis line 8 during this accumulation absolute altitude, this axis is in straight line on sectional drawing, and three dimensions is a plane, it is parallel to initial dam 1.Along with the rising of piling up absolute altitude, deposition beach face 7 successively rises, and fill dam apical axis line 8 step by step upstream direction is passed.Tailings Dam domestic demand arranges row and oozes system, to reduce the phreatic line in accumulation body region before dam, guarantees the security of operation of tailing dam.

The tailing dam of China's Metallurgical Mines about 90% adopts upstream type to build a dam method, and namely the updrift side on dam 1 piles up the mode of building a dam of mine tailing in the early stage, be characterized in fill dam apical axis line 8 step by step upstream direction pass.Upstream type is built a dam method, the more row of current employing oozes system or Horizontal drainage of infiltrate water mode, in the early stage dam 1 forms fill dam 2, ooze french drain 5 by the row being parallel to fill dam apical axis line 8 and form the Horizontal drainage of infiltrate water system of dam body perpendicular to the aqueduct 6 of fill dam apical axis line 8, row is oozed french drain 5 and is generally adopted soft filter pipe, and aqueduct 6 generally adopts UPVC pipe or PE pipe, domatic employing slope vegetation protection, as shown in Figure 1, row oozes direction for ooze to downstream row, uniform seepage flow force downstream-directed.Conventional Horizontal drainage of infiltrate water system is drawn water without the need to manpower and mechanical forced, can Artesian Drainage ooze, construction is simple, invest little, adopt flexible pipe can adapt to the post-depositional inhomogeneous deformation of mine tailing, but there is silting problem in filter pipe, run the later stage in long-term row is oozed, water seepage drainage effect is limited, and phreatic line drawdown is little.According to statistics, about have the Tailings Dam dam break security incident of 1/4 to be lost efficacy by its osmotic control to cause.

Visible, the existing conventional levels row system of oozing is not enough to meet the build a dam row of method of upstream type and oozes demand, and in order to improve the stability of upstream type Tailings Dam, we are necessary that oozing system and method to row is further improved.

It is current domestic used one row infiltration method that radiant type row is oozed.This technology is the catchment method as radiant type water intake well the earliest, is introduced into Tailings Dam afterwards as dewatering measure.Radiant type row is oozed system and is made up of radial 10, many filter pipes 9 and the water guide fairlead 11 towards accumulation dam slope, and filter pipe 9 is arranged radially centered by radial 10, and slope aspect radial 10, can multilayer be established if desired.Seepage water in tailing dam confluxes to filter pipe 9 under head effect, and flows into radial 10 by filter pipe 9, and radial 10 collects the infiltration of each radiation filter pipe 9, then discharges outside dam by water guide fairlead 11, and its row oozes principle as shown in Figure 2 and Figure 3.This row's infiltration method is usually used in the transformation of old storehouse, oozing, constructing in existing Tailings Dam for strengthening old storehouse row.Radial 10 generally adopts reinforced concrete structure, and filter pipe 9 extends to existing fill dam 2 due to needs autoradiolysis well 10, generally adopts hard tubing.The method has the advantages such as principle is simple, successful, later maintenance overhead cost are low, but construction difficulty is comparatively large, and the more difficult control of cost.

Utility model content

The technical problems to be solved in the utility model overcomes the deficiencies in the prior art, there is provided that a kind of structure is simple, easy construction, the reverse row being applicable to upstream type Tailings Dam that greatly can reduce phreatic line and improve dam stability ooze system, also correspondingly provide a kind of and comprise the upstream type Tailings Dam that this oppositely arranges system of oozing.

For solving the problems of the technologies described above, the technical scheme that the utility model proposes is that a kind of reverse row being applicable to upstream type Tailings Dam oozes system, described reverse row's system of oozing comprises collection and oozes french drain, collection seepage well, oppositely aqueduct and infiltration fairlead, and described collection seepage well is vertically embedded in Tailings Dam; Described collection oozes french drain slope aspect collection seepage well and is communicated with collection seepage well; The bottom of described collection seepage well is positioned at upstream side communication one end to described reverse aqueduct of Tailings Dam, and the other end of reverse aqueduct is communicated with described infiltration fairlead, and reverse aqueduct tilts from the downstream upstream direction of Tailings Dam.

Above-mentioned reverse row of the present utility model is oozed in system, and preferably, described collection oozes the deposition beach face layered arrangement of french drain along different piling height, and each layer is provided with many, and collection oozes the described collection seepage well that french drain slope aspect is positioned at upstream.

Above-mentioned reverse row of the present utility model is oozed in system, and preferably, the collection being positioned at same elevation plane oozes french drain to be arranged in radiant type to collect centered by seepage well.

Above-mentioned reverse row of the present utility model is oozed in system, and preferably, described collection oozes french drain from inside to outside primarily of soft filter pipe, geotextiles and rubble topping composition, and it is consistent that its slope aspect and Tailings Dam deposit beach face.

As a total technical conceive, the utility model also provides a kind of upstream type Tailings Dam, described upstream type Tailings Dam comprises initial dam and is positioned at the fill dam of initial dam upstream, be provided with above-mentioned reverse row of the present utility model in described fill dam and ooze system, described reverse row oozes system layout bottom Tailings Dam in the fill dam of initial dam, and the fill dam region that described reverse row oozes system place is configured to after abundant drainage infiltration in order to support the support edges body of Tailings Dam.

In above-mentioned upstream type Tailings Dam of the present utility model, preferably, the bottom of the reservior, upstream of described collection seepage well is embedded with to cut oozes facility, and described infiltration fairlead is embedded in this section oozes in facility, described section ooze facility and infiltration fairlead along be parallel to cut ooze the vertical elevation place of facility a side slope axis direction arrange, described reverse aqueduct then along perpendicular to cut ooze facility direction lay.

In above-mentioned upstream type Tailings Dam of the present utility model, preferably, described section oozes facility is cut ooze dam, cut-off wall or ooze the assembly of dam and cut-off wall for cutting.

In above-mentioned upstream type Tailings Dam of the present utility model, preferably, be arranged in the described reverse row described fill dam oozed above system be provided with top row ooze system, described top row's system of oozing comprises oozes french drain along many aqueducts of the different elevation layered arrangement of fill dam and many rows, each layer is provided with many aqueducts and a row oozes french drain, every bar row is oozed french drain and is arranged along the direction being parallel to fill dam apical axis line in same elevation plane, every root aqueduct edge in same elevation plane is arranged perpendicular to fill dam top axis direction, and every root aqueduct oozes french drain with the row being positioned at same elevation plane is communicated with, each aqueduct tilts from the upstream toward downstream direction of Tailings Dam, each row is oozed french drain and infiltration is finally guided to the domatic drainage place of dam slope.

Above-mentioned the technical solution of the utility model is mainly based on following principle and thinking: mainly form support edges body at the initial operating stage of Tailings Dam, and this is the critical period being related to dam stabilization.Consider the material impact of support edges body for dam stabilization, build reverse row of the present utility model at support edges body construction and ooze system, mainly comprise radiant type collection and ooze french drain, collection seepage well, oppositely aqueduct, infiltration fairlead etc., also can arrange according to actual needs to cut and ooze facility.The difference that the utility model and existing radiation well array ooze is: first, row of the present utility model oozes system slope aspect upstream, ooze french drain by collection and collection seepage well collects dam body infiltration, then by reverse aqueduct and be parallel to fill dam apical axis line infiltration fairlead by outside infiltration extraction dam.The second, collecting seepage well and collection, to ooze french drain different from the form of construction work of radial and radiation chimney filter, and the material used is different, application difference.It is that one-off construction completes in existing dam body that radiation well array oozes, and radial is owing to being construct in existing dam body, and radiation chimney filter must adopt hard tubing to go deep into dam body collection to ooze, as steel pipe, to reach the object of reduction (always) saturation line of tailings pond.It is then combine with the production and operation of Tailings Dam that collection seepage well of the present utility model and collection ooze french drain; implement progressively to construct; collection oozes french drain and collection seepage well is all along with the rising of Tailings Dam deposition beach face is successively constructed; collection oozes french drain and is made up of soft filter pipe, geotextiles and rubble topping from inside to outside, and its slope aspect is consistent with deposition beach face, and is communicated with collection seepage well; collection oozes the differential settlement that french drain can adapt to deposit beach face; easy construction, open excavation amount is little, and the row being mainly used in improving newly-built Tailings Dam is oozed.3rd, appropriate location at the bottom of Tailings Dam arranges to cut oozes facility, Tailings Dam be divide in form two sections, upstream, downstream, cutting the Tailings Dam oozing installations downstream section adopts reverse row of the present utility model to ooze system, the row enhancing this district is oozed, accelerate the mine tailing consolidation in this district, its Upstream section Tailings Dam then adopts to cut and oozes the row that facility combines with the domatic row's system of oozing of the forward of " row oozes french drain+aqueduct " and ooze mode, constitutes a three-dimensional Tailings Dam and arranges the security and stability that the system of oozing improves whole dam body.

Compared with prior art, the utility model has the advantage of:

1. the utility model by adopting reverse row of the present utility model to ooze system in upstream type Tailings Dam, make the infiltration bottom Tailings Dam can be formed support edges body by drainage as early as possible, on this basis to reduce the phreatic line in Tailings Dam fill dam dramatically, the phreatic line of support edges body is made substantially to press close to earth's surface, to be conducive to the rapidly solidified of this part support edges body, for follow-up heap dam provides more solid and reliable support edges body.

2. the utility model oozes facility by selecting upstream correct position layout to cut in upstream type Tailings Dam, to block the seepage water of Tailings Dam upstream, stop the support edges body of the seepage water supply downstream base portion of Tailings Dam upstream, thus provide more favourable condition for the rapidly solidified of support edges body.

3. because the bottom mine tailing accumulation body of Tailings Dam is the key position affecting dam stability, by adopting row of the present utility model to ooze system, phreatic line can be reduced, for the abundant consolidation of described bottom mine tailing accumulation body creates favorable conditions; Meanwhile, compared with conventional Tailings Dam, pore water pressure reduces, and effective stress increases, and therefore the anti-slide performance of support edges body is greatly improved, and this ensures the fully stable of tailings warehouse dam body by being more conducive to.

4. arranging from routine system of oozing oozes different to downstream row, reverse row system of oozing of the present utility model is oozed for upstream leading (row), and row oozes path for " collection oozes french drain → collection seepage well → oppositely aqueduct → infiltration fairlead ".When Tailings Dam initial operating stage dam crest ore drawing, the collection that the utility model oppositely arranges the system of oozing oozes french drain all can along beach face excavation construction, and excavation is convenient, and open excavation amount is little.In addition, the utility model oppositely arranges the system of oozing can make the seepage water flow direction of its region from downstream upstream direction reverse flow, and make uniform seepage flow force point to upstream, this can improve again the stability of dam body to a certain extent further.

In sum, the reverse row being applicable to upstream type Tailings Dam of the present utility model oozes system, and not only structure is simple, easy construction, and it is all greatly favourable for the stability reducing phreatic line and raising dam body, this extensive use for upstream type Tailings Dam provides better prerequisite and operation condition, and the stability and safety operation for Tailings Dam is significant.

Accompanying drawing explanation

Fig. 1 is that existing upstream type is built a dam Horizontal drainage of infiltrate water system architecture schematic diagram in method.

Fig. 2 is that the row that existing radial formula row oozes system oozes schematic diagram (analysing and observe).

Fig. 3 is that the row that existing radial formula row oozes system oozes schematic diagram (layout plan).

Fig. 4 is the structural representation (oozing system containing row of the present utility model) of the utility model embodiment middle and upper reaches formula Tailings Dam.

Fig. 5 cuts in the utility model embodiment to ooze facility and select to cut and ooze the structural representation of dam structural shape.

Fig. 6 cuts in the utility model embodiment to ooze the structural representation that facility selects cut-off wall structural shape.

Fig. 7 cuts in the utility model embodiment to ooze facility and select to cut and ooze the structural representation of dam and cut-off wall combining structure pattern.

Marginal data:

1, initial dam; 2, fill dam; 3, Zi Ba; 4, phreatic line; 5, row oozes french drain; 6, aqueduct; 7, beach face is deposited; 8, fill dam apical axis line; 81, side slope axis; 9, filter pipe; 10, radial; 11, water guide fairlead; 21, collection oozes french drain; 22, seepage well is collected; 23, reverse aqueduct; 24, seep water fairlead; 25, cut and ooze facility.

Detailed description of the invention

For the ease of understanding the utility model, hereafter will do to describe more comprehensively, meticulously to the utility model in conjunction with Figure of description and preferred embodiment, but protection domain of the present utility model is not limited to following specific embodiment.

Unless otherwise defined, hereinafter used all technical terms are identical with the implication that those skilled in the art understand usually.The object of technical term used herein just in order to describe specific embodiment is not be intended to limit protection domain of the present utility model.

Embodiment:

One is upstream type Tailings Dam of the present utility model as shown in Figure 4, this upstream type Tailings Dam comprises initial dam 1 and is positioned at the fill dam 2 of initial dam 1 upstream, be provided with reverse row of the present utility model in fill dam 2 and ooze system, this oppositely row ooze system layout bottom Tailings Dam in the fill dam 2 of initial dam 1, this fill dam 2 region that oppositely row oozes system place be configured to an abundant drainage seep water after in order to support the support edges body of Tailings Dam.Upstream type tailing dam is the key position affecting Tailings Dam stability in fill dam 2 region near initial dam 1, the present embodiment is arranging under oppositely row oozes the prerequisite of system, make the bottom abundant drainage of mine tailing accumulation body in this region form a support edges body, and then dam stability is largely increased.

Reverse row's system of oozing in the present embodiment comprises collection and oozes french drain 21, collection seepage well 22, oppositely aqueduct 23 and infiltration fairlead 24, and collection seepage well 22 is vertically embedded in Tailings Dam.Collection in the present embodiment oozes french drain 21 and forms primarily of soft filter pipe, geotextiles and rubble topping from inside to outside, it is along different elevation layered arrangement, collection ooze french drain 21 along with deposition beach face 7 rising successively construct, each layer collection oozes french drain 21 all to be arranged by the radiant type collected in semicircle shape centered by seepage well 22; Collection oozes the collection seepage well 22 of its upstream of french drain 21 slope aspect and is communicated to collection seepage well 22, and the collection in the present embodiment oozes french drain 21 is tilt from the downstream upstream direction of Tailings Dam, consistent with deposition beach face 7 slope aspect, is conducive to reduction open excavation amount.The bottom of collection seepage well 22 is positioned at upstream side communication one end to reverse aqueduct 23 of Tailings Dam, and reverse aqueduct 23 tilts to the updrift side of Tailings Dam, and its other end is communicated to infiltration fairlead 24, and seepage flow is derived outside dam eventually through infiltration fairlead 24.

In the upstream type Tailings Dam of the present embodiment, infiltration fairlead 24 place is also provided with to cut oozes facility 25, and infiltration fairlead 24 is embedded in this section and oozes in facility 25, cut and ooze facility 25 and infiltration fairlead 24 along being parallel to section side slope axis 81 direction of oozing a facility vertical elevation place layout.Cut to ooze facility 25 and oppositely arrange system of oozing and organically combine, utilize its infiltration fairlead 24 draining, enhance the seepage preventing effect cutting and ooze facility 25.When being subject to the restriction of the condition such as landform, geology, cutting and oozing facility 25 and also independently can be arranged at oppositely row and ooze the correct position of system upstream.Cutting in the present embodiment oozes facility 25 can ooze dam for cutting as shown in Figure 5, and cut-off wall as shown in Figure 6 or cutting as shown in Figure 7 ooze the assembly of dam and cut-off wall.

The row that above-mentioned reverse row oozes system oozes path for " collection oozes french drain 21 → collection seepage well 22 → oppositely aqueduct 23 → infiltration fairlead 24 ", ooze french drain 21 by radioactive collection to ensure farthest to collect infiltration, be collected to collection seepage well 22, and import infiltration fairlead 24 by aqueduct 23 reverse bottom it, seepage water upstream to be flow automatically outer row by Tailings Dam downstream, finally drains into outside dam; Be positioned at and cut the infiltration of oozing facility 25 upstream and ooze facility 25 collect by cutting, draining into outside dam through cutting the infiltration fairlead 24 oozed in facility 25, reducing phreatic line 4.Infiltration fairlead 24 is oozed facility 25 and is combined with cutting, and the row making oppositely row ooze system is oozed function with cutting and is oozed cutting of facility 25 and ooze function and be improved simultaneously, ensures dam stabilization.

In the upstream type Tailings Dam of the present embodiment, be arranged in oppositely row's fill dam 2 oozed above system to be provided with top row and to ooze system, top row is oozed and is adopted Horizontal drainage of infiltrate water system, specifically comprise many rows and ooze french drain 5 and Duo Gen aqueduct 6, many rows ooze french drain 5 and Duo Gen aqueduct 6 along different elevation layered arrangement, and each layer is provided with many aqueducts 6 and a row oozes french drain 5, every bar row is oozed french drain 5 and is arranged along being parallel to fill dam apical axis line 8 direction in same elevation aspect, every root aqueduct 6 is arranged perpendicular to fill dam apical axis line 8 direction on same elevation aspect edge, and every root aqueduct 6 oozes french drain 5 with the row of same elevation aspect is communicated with, each aqueduct 6 tilts from the upstream toward downstream direction of Tailings Dam and finally guide to dam slope slope drainage facility.In the upstream type Tailings Dam of the present embodiment, capital construction phase engineering quantity is mainly initial dam 1, cuts to ooze facility 25 and arrange and ooze system bottom facility.Form beach face along with mine tailing is piled up, radiant type collection of can successively constructing oozes french drain 21 and collection seepage well 22, and after beach face rises to certain altitude, radiant type collection oozes french drain 21 and do not possess construction space, then can Horizontal drainage of infiltrate water system layout routinely.

Claims (8)

1. the reverse row being applicable to upstream type Tailings Dam oozes a system, it is characterized in that: described reverse row's system of oozing comprises collection and oozes french drain, collection seepage well, oppositely aqueduct and infiltration fairlead, and described collection seepage well is vertically embedded in Tailings Dam; Described collection oozes french drain slope aspect collection seepage well and is communicated with collection seepage well; The bottom of described collection seepage well is positioned at upstream side communication one end to described reverse aqueduct of Tailings Dam, and the other end of reverse aqueduct is communicated with described infiltration fairlead, and this reverse aqueduct tilts from the downstream upstream direction of Tailings Dam.

2. reverse row according to claim 1 oozes system, it is characterized in that: described collection oozes the deposition beach face layered arrangement of french drain along different piling height, and each layer is provided with many, and collection oozes described in french drain slope aspect and collects seepage well.

3. reverse row according to claim 2 oozes system, it is characterized in that: the collection being positioned at same elevation plane oozes french drain to be arranged in radiant type to collect centered by seepage well.

4. the reverse row according to claim 1,2 or 3 oozes system, it is characterized in that: described collection oozes french drain from inside to outside primarily of soft filter pipe, geotextiles and rubble topping composition, and it is consistent that its slope aspect and Tailings Dam deposit beach face.

5. a upstream type Tailings Dam, described upstream type Tailings Dam comprises initial dam and is positioned at the fill dam of initial dam upstream, it is characterized in that, the reverse row be provided with in described fill dam according to any one of Claims 1 to 4 oozes system, described reverse row oozes system layout bottom Tailings Dam in the fill dam of initial dam, and the fill dam region that described reverse row oozes system place is configured to after abundant drainage infiltration in order to support the support edges body of Tailings Dam.

6. upstream type Tailings Dam according to claim 5, it is characterized in that, the bottom of the reservior, upstream of described collection seepage well is embedded with to cut oozes facility, and described infiltration fairlead is embedded in this section oozes in facility, described section ooze facility and infiltration fairlead along be parallel to cut ooze the vertical elevation place of facility a side slope axis direction arrange, described reverse aqueduct then along perpendicular to cut ooze facility direction lay.

7. upstream type Tailings Dam according to claim 6, is characterized in that, described section oozes facility and be cut-off wall, cut and ooze dam or cut the assembly oozing dam and cut-off wall.

8. the upstream type Tailings Dam according to claim 5 or 6 or 7, it is characterized in that, be arranged in the described reverse row described fill dam oozed above system be provided with top row ooze system, described top row's system of oozing comprises oozes french drain along many aqueducts of the different elevation layered arrangement of fill dam and many rows, each layer is provided with many aqueducts and a row oozes french drain, every bar row is oozed french drain and is arranged along being parallel to fill dam top axis direction in same elevation plane, every root aqueduct edge in same elevation plane is arranged perpendicular to fill dam top axis direction, and every root aqueduct oozes french drain with the row being positioned at same elevation plane is communicated with, each aqueduct tilts from the upstream toward downstream direction of Tailings Dam, each row is oozed french drain and infiltration is finally guided to the domatic drainage place of dam slope.