CN204370266U - There is the refuse dump of inner inlet wire road - Google Patents

Abstract

The utility model discloses a kind of refuse dump with inner inlet wire road, this refuse dump comprises casting region (A) and extends to the inlet wire road in this casting region (A), wherein, being distributed at least partially in described casting region (A) of described inlet wire road.The utility model is by arranging the some or all of of casting inlet wire road in the inside in casting region, and reduce the expropriation of land cost of refuse dump, inlet wire road shortens relatively in addition, reduces cost of transportation, thus improves row's rock efficiency, finally achieves casting economy.

Description

There is the refuse dump of inner inlet wire road

Technical field

The utility model relates to the refuse dump with inner inlet wire road.

Background technology

Opencast mining peels off covering ore body top and surface dust around and country rock thereof, barren rock transported to refuse dump, direct digging ore from open ore body.Wherein, refuse dump is a kind of huge artificial loose heap pad, refuse dump unstability will cause mine soil field disaster and Important Project accident, not only have influence on the normal production in mine, also will mine be made to suffer huge economic loss, because refuse dump accounts for the floor space of opencut and casting expense, to account for the ratio of opencut total cost all higher, and therefore in ore deposit exploitation in the open, the layout of the inlet wire road of refuse dump is particularly important.

As shown in Figure 1, the inlet wire road B of traditional refuse dump is arranged in the outside of casting region A, the spoir that vehicle will be peeled off from stope, and the row's rock point being transported to side, a certain row's rock bench rank by inlet wire road B carries out casting.Inlet wire road B due to traditional refuse dump is arranged on the outside of refuse dump, and when therefore carrying out refuse dump construction, land area not only comprises casting region A, also will comprise the land area of inlet wire road B, causes construction cost to raise.In addition, at the outer setting inlet wire road B of casting region A, particularly in the disadvantageous situation of orographic condition, the circuit of inlet wire road B is elongated, and cost of transportation is relatively high.In addition, because inlet wire road B is arranged on the outside of casting region A, row's rock point can only be set in the side on each row's rock bench rank of casting region A, casting process can only be carried out from a direction to other direction, a certain row's rock level height can not arrange multiple row's rock point simultaneously, and row's rock efficiency is not high.

Therefore, the art needs to provide a kind of and reduces expropriation of land cost, row's rock cost of transportation and can improve the refuse dump of row's rock efficiency.

Utility model content

The purpose of this utility model is that providing a kind of can reduce expropriation of land cost, row's rock cost of transportation and can improve the refuse dump of row's rock efficiency.

To achieve these goals, the utility model provides a kind of refuse dump with inner inlet wire road, this refuse dump comprises casting region and extends to the inlet wire road in this casting region, wherein, and being distributed at least partially in described casting region of described inlet wire road.

Preferably, described inlet wire road comprises the transport main road being positioned at described casting region and many transport leg being positioned at described casting region extended from this transport main road.

Preferably, described transport main road extends along the middle part in described casting region.

Preferably, described many transport leg are distributed in the both sides of described transport main road.

Preferably, described transport main road extends to minimum row's rock level height from the highest row's rock level height in described casting region.

Preferably, described many transport leg extend respectively in row's rock level height that described casting region is different.

Preferably, the end stretching out in described transport main road of transport leg described in every bar is provided with row's rock point.

Preferably, described row's rock point is positioned in the different row's rock level height in described casting region.

Preferably, the two ends of described transport leg are connected to the diverse location of described transport main road.

Preferably, in described casting region, be provided with multiple row's rock point, each row's rock point and described transport leg path connected.

By technique scheme, the utility model, by arranging the some or all of of casting inlet wire road in the inside in casting region, reduces the expropriation of land cost of refuse dump, inlet wire road shortens relatively in addition, reduce cost of transportation, thus improve row's rock efficiency, finally achieve casting economy.

Other feature and advantage of the present utility model are described in detail in detailed description of the invention part subsequently.

Accompanying drawing explanation

Accompanying drawing is used to provide further understanding of the present utility model, and forms a part for manual, is used from explanation the utility model, but does not form restriction of the present utility model with detailed description of the invention one below.In the accompanying drawings:

Fig. 1 is the casting region of traditional refuse dump and the distribution schematic diagram of casting inlet wire road.

Fig. 2 is the casting region of the refuse dump of detailed description of the invention of the present utility model and the distribution schematic diagram of casting inlet wire road.

Description of reference numerals

The inlet wire road that A casting region B is traditional

1 transport main road 2 transport leg

3 row's rock points, 4 transport leg

Detailed description of the invention

Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is described in detail.Should be understood that, detailed description of the invention described herein, only for instruction and explanation of the utility model, is not limited to the utility model.

The refuse dump of what the utility model provided have inner inlet wire road, this refuse dump comprises casting region A and extends to the inlet wire road in this casting region, wherein, the inside being distributed in casting region A at least partially of this inlet wire road, the inlet wire road being distributed in the outside of casting region A is communicated with stope, thus decreases the land area of refuse dump outside the A of casting region, saves expropriation of land cost, relatively shorten casting transportation range simultaneously, can cost of transportation be reduced.Preferably, with reference to Fig. 2, inlet wire road all can be arranged on the inside of casting region A to inlet wire road, then the land area of refuse dump can only include the area of casting region A, can reach the optimization of land area cost.Particularly refuse dump external environment condition complicated and arrange inlet wire road difficulty when, the method for casting inlet wire road is set in the inside of casting region A as preferred embodiment, refuse dump can be overcome and overcome the restricted problem that ambient conditions brings.In addition, the barren rock peeled off from stope, roach, by being arranged on the inlet wire road of A inside, casting region, directly can being discharged to the inside of casting region A, shortening transportation range and haulage time, have economical timesaving advantage.

In order to carry out casting in different row's rock level heights, inlet wire road can comprise the transport main road 1 being positioned at casting region A and many transport leg 2 being positioned at casting region A extended from transport main road 1.Vehicle can first be entered in the A of casting region by transport main road 1, then to different row's rock bench rank, carries out casting by transport leg 2.The number of transport leg 2 can be determined according to field geology conditions, and the utility model does not limit the number of transport leg 2.

Further, preferably, transport main road 1 can extend along the middle part of casting region A, and this design makes vehicle enter each transport leg 2 be connected with this transport main road 1 is convenient save time from transporting main road 1.But the utility model does not limit the transport position of main road 1 in the A of casting region, as long as transport main road 1 is in the inside of casting region A, be convenient to casting.

Further, many transport leg 2 of same row's rock level height can be arranged on the one or both sides of transport main road 1.In a certain row's rock level height, when many transport leg 2 are arranged on the side of transport main road 1, the direction being provided with transport leg 2 can be opened up multiple row's rock point and carry out casting, when many transport leg 2 are arranged on the both sides of transport main road 1, multiple row's rock point can be opened up in the both sides of transport main road 1 and carry out casting.As preferred embodiment of the present utility model, with reference to Fig. 2, many transport leg 2 are distributed in the both sides of transport main road 1, the row's of improve rock efficiency.

In addition, according to the geological conditions of actual refuse dump, transport main road 1 can extend to other arbitrary heights from arbitrary height, when geological conditions allows, preferably, transport main road 1 can extend to minimum row's rock level height from the highest row's rock level height of casting region A, transport main road 1 is so set, improve the connectedness of the transport leg 2 on transport main road 1 and arbitrary height, namely transport main road 1 to arrange rock bench rank with any one and be communicated with, casting can be carried out in different row's rock level heights simultaneously, while the row's of improve rock efficiency, the anywhere (except the unallowed situation of geological conditions) that can arrive in the A of casting region carries out casting, improve the space availability ratio of refuse dump.

Correspondingly, in order to enter the row's rock bench rank in different row's rock level height, many transport leg 2 extend respectively in row's rock level height that casting region A is different, thus realize the object of multiple row's rock bench rank casting simultaneously.Such as, the overburden amount at stope mining initial stage is larger, the inlet wire road provided by the utility model, can arrange in rock level height in difference and carry out casting and the row's of being formed rock bench rank, for the casting modes such as pressure slope pin formula Drainage rock method can be adopted to provide steric requirements, casting efficiency can be improved well.

In addition, the end stretching out in transport main road 1 of every bar transport leg 2 can the row of being provided with rock point 3, make to advance from the end of transport leg 2 to connected transport main road 1 casting, make to carry out casting by easy stages in the horizontal direction.It should be noted that, at the casting initial stage, during the row's of choosing rock point 3, in conjunction with the actual geological conditions of refuse dump, the favorable terrain made full use of in native field is selected, and row's rock point 3 in later stage is chosen based on row's rock bench rank in early stage.

Further, because many transport leg 2 can be arranged in different row's rock level height, correspondingly, the row's rock point 3 stretching out in the end of transport main road 1 being arranged on transport leg 2 can be positioned in the different row's rock level height of casting region A, thus can arrange in difference, level height carries out casting simultaneously.

In addition, the two ends of transport leg 2 can be connected to the diverse location of transport main road, form time transport leg 4 as shown in Figure 2, by secondary transport leg 4, connect the transport leg 2 in different row's rock level height, row's rock point 3 can opened up from the casting region away from transport main road 1, for row's rock point 3 provides transport channel, and interconnect between the different transport leg 2 arranged in rock level height, make the transportation of casting more flexible, be convenient to casting.

Further, be provided with multiple row's rock point 3 in the A of casting region, each row's rock point 3 and transport leg 2 path connected, wherein, then the number of arranging rock point 3 is not limit, as long as geological conditions allows casting and is convenient to be communicated with transport routes.Such as, in a certain row's rock level height, at least two row's rock points 3 are set at the two ends of this height, then can carry out casting with advancing from two ends to central authorities simultaneously, and casting can be carried out by the row's rock point 3 simultaneously in different row's rock level heights, take full advantage of the space of casting region A, substantially reduce the casting time, the row's of significantly improving rock efficiency.

By technique scheme, the utility model, by arranging the some or all of of casting inlet wire road in the inside in casting region, reduces the expropriation of land cost of refuse dump, inlet wire road shortens relatively in addition, reduce cost of transportation, thus improve row's rock efficiency, finally achieve casting economy.

Below preferred embodiment of the present utility model is described by reference to the accompanying drawings in detail; but; the utility model is not limited to the detail in above-mentioned embodiment; within the scope of technical conceive of the present utility model; can carry out multiple simple variant to the technical solution of the utility model, these simple variant all belong to protection domain of the present utility model.

It should be noted that in addition, each the concrete technical characteristic described in above-mentioned detailed description of the invention, in reconcilable situation, can be combined by any suitable mode.

In addition, also can be combined between various different embodiment of the present utility model, as long as it is without prejudice to thought of the present utility model, it should be considered as content disclosed in the utility model equally.

Claims (10)

1. one kind has the refuse dump of inner inlet wire road, this refuse dump comprises casting region (A) and extends to the inlet wire road in this casting region (A), it is characterized in that, being distributed at least partially in described casting region (A) of described inlet wire road.

2. refuse dump according to claim 1, it is characterized in that, described inlet wire road comprises the transport main road (1) being positioned at described casting region (A) and many transport leg (2) being positioned at described casting region (A) extended from this transport main road (1).

3. refuse dump according to claim 2, is characterized in that, described transport main road (1) extends along the middle part of described casting region (A).

4. refuse dump according to claim 2, is characterized in that, described many transport leg (2) are distributed in the both sides of described transport main road (1).

5. according to the refuse dump in claim 2-4 described in any one, it is characterized in that, described transport main road (1) extends to minimum row's rock level height from the highest row's rock level height of described casting region (A).

6. refuse dump according to claim 5, is characterized in that, described many transport leg (2) extend respectively in row's rock level height that described casting region (A) is different.

7. refuse dump according to claim 6, is characterized in that, the end stretching out in described transport main road (1) of transport leg (2) described in every bar is provided with row's rock point (3).

8. refuse dump according to claim 7, is characterized in that, described row's rock point (3) is positioned in the different row's rock level height of described casting region (A).

9. refuse dump according to claim 6, is characterized in that, the two ends of described transport leg (2) are connected to the diverse location of described transport main road (1).

10. refuse dump according to claim 9, is characterized in that, is provided with multiple row's rock point (3) in described casting region (A), each row's rock point (3) and described transport leg (2) path connected.