CN105298536A - Ore transportation and backfill system and method - Google Patents

Abstract

The invention discloses an ore transportation and backfill system and method. The ore transportation and backfill system comprises a first-stage ore conveyor, a second-stage ore conveyor, a third-stage ore and tailing conveyor, a second-stage tailing conveyor and a first-stage tailing conveyor, wherein the first-stage ore conveyor and the second-stage ore conveyor are connected to convey raw ores to the second-stage ore conveyor, the third-stage ore and tailing conveyor comprises an ore conveying belt and a tailing return belt which are connected, the ore conveying belt and the tailing return belt are oppositely parallel and are arranged in a spaced mode to convey the raw ores to the ground surface, and the second-stage tailing conveyor is connected with the tailing return belt and the first-stage tailing conveyor respectively to convey the tailings on the ground surface to a goaf for filling. The ore transportation and backfill system achieves a bidirectional material transportation mode, the width dimension of a main inclined shaft is decreased, the space occupied by the ore transportation and backfill system is decreased, and input of capital construction project amount is reduced.

Description

The transport of ore and backfill system and method

Technical field

The present invention relates to mining technique field, more specifically, relate to a kind of transport of ore and backfill system and method.

Background technology

In the industrial production, hole is adopted sylvite ore and is usually adopted normal tape or the transport of other lifting means, and the haulage device adopted mostly is discontinuous transport, and as the haulage device such as truck, cage, transport capacity is limited, is applicable to hole on a small scale and adopts sylvite Mine haul.The common troughed rubber belt conveyor that extensive sylvite ore adopts, transport capacity is large, but existence takies the shortcoming that lane space is large, dust is large.In addition, external part sylvite ore adopts wet type tailing-filled to underground goaf backfilling process, then Cemented filling is utilized, easily there is the phenomenon such as plugging, job insecurity, part sylvite ore adopts pipeline dry stowing, or truck transport dry stowing, although process stabilizing, but filling scale is less, and filling operation cost is higher.

Summary of the invention

The present invention is intended to one of solve the problems of the technologies described above at least to a certain extent.For this reason, the present invention proposes a kind of transport and backfill system of ore, and greatly, take up room little, cost is low, dust pollution is little for the transport of this ore and backfill system disposal ability.

The present invention also proposes a kind of transport and earth-filling method of ore.

The transport of the ore of embodiment and backfill system according to a first aspect of the present invention, comprise: first order ores lifting machine and second level ores lifting machine, described first order ores lifting machine is located in tunnel, stope panel, described second level ores lifting machine is located in the main tunnel of stope, and the second end of described first order ores lifting machine is connected to be delivered to by tcrude ore on the ores lifting machine of the described second level with the first end of described second level ores lifting machine; Third level ore, Tailings transportation machine, third level ore, Tailings transportation machine are located in main slant, described third level ore, Tailings transportation machine comprise connected ore conveyer belt and mine tailing backhaul band, described ore conveyer belt and the opposing parallel and spaced apart setting of described mine tailing backhaul band, with the second end of described second level ores lifting machine, the first end of described ore conveyer belt is connected that described tcrude ore is delivered to earth's surface; Second level Tailings transportation machine and first order Tailings transportation machine, described second level Tailings transportation machine is located at the main tunnel of described stope, described first order Tailings transportation machine is located in tunnel, described stope panel, and the first end of described second level Tailings transportation machine is connected to be filled to goaf by the Tailings transportation on earth's surface with described mine tailing backhaul band with the first end of described first order Tailings transportation machine respectively with the second end.

According to transport and the backfill system of the ore of the embodiment of the present invention, by by third level ore, the ore conveyer belt of Tailings transportation machine and mine tailing backhaul band opposing parallel and spaced apartly arrange in main slant, make third level ore, Tailings transportation machine can realize transporting ore and mine tailing simultaneously, achieve two-way haul mode, improve utilization rate of equipment and installations, the width dimensions of main slant can be reduced, what reduce the transport of this ore and backfill system widely occupies space, reduce the input of capital works amount, the transport of this ore and the structure of backfill system simple, transport capacity is larger, the cost of transportation of tcrude ore and the backfill cost of mine tailing low.

In addition, according to transport and the backfill system of the ore of the embodiment of the present invention, following additional technical characteristic can also be had:

According to one embodiment of present invention, described ore conveyer belt and described mine tailing backhaul band are tubular conveyor belt.

According to one embodiment of present invention, described ore conveyer belt is located at the below of described mine tailing backhaul band and described ore conveyer belt and described mine tailing backhaul band extend along the length direction of described main slant respectively.

According to one embodiment of present invention, the radial dimension of described ore conveyer belt and described mine tailing backhaul band is 500mm.

According to one embodiment of present invention, described ore conveyer belt and described mine tailing backhaul band with respect to the horizontal direction of angle be 7 °-9 °.

According to one embodiment of present invention, described mine tailing backfill is the filling of dry type mine tailing.

The transport of the ore of embodiment and earth-filling method according to a second aspect of the present invention, comprises the following steps:

S1, digging is carried out to tcrude ore;

S2, by ores lifting machine, the tcrude ore of digging is transported to earth's surface, forms goaf at acceptance region;

S3, by described ores lifting machine, the mine tailing on earth's surface is transported to goaf filling.

According to one embodiment of present invention, described step S2 comprises:

S21, be transported to first order ores lifting machine by connecting the tcrude ore adopting machine digging;

S22, the tcrude ore of described first order ores lifting machine conveying is transported to second level ores lifting machine;

S23, the tcrude ore that described second level ores lifting machine is carried is transported to the ore conveyer belt of third level ore, Tailings transportation machine;

S24, by described third level ore, Tailings transportation machine conveying tcrude ore be transported to earth's surface.

According to one embodiment of present invention, described step S3 comprises:

S31, the mine tailing on earth's surface is transported to the mine tailing backhaul band of described third level ore, Tailings transportation machine;

S32, by described third level ore, Tailings transportation machine conveying mine tailing be transported to second level Tailings transportation machine;

S33, by described second level ore, Tailings transportation machine conveying mine tailing be transported to first order Tailings transportation machine;

S34, by described first order ore, Tailings transportation machine conveying mine tailing be transported to described goaf.

According to one embodiment of present invention, described step S3 also comprises:

S35, the mine tailing of unloading loaded electronic shuttle car through Cinder Machine and is transported to the filling position in described goaf;

S36, mine tailing loaded filling machine, fill described goaf.

Additional aspect of the present invention and advantage will part provide in the following description, and part will become obvious from the following description, or be recognized by practice of the present invention.

Accompanying drawing explanation

Above-mentioned and/or additional aspect of the present invention and advantage will become obvious and easy understand from accompanying drawing below combining to the description of embodiment, wherein:

Fig. 1 is the structural representation of transport according to the ore of the embodiment of the present invention and backfill system;

Fig. 2 is the flow chart of transport according to the ore of the embodiment of the present invention and earth-filling method;

Fig. 3 is the flow chart of the transport of the ore shown in Fig. 2 and the step S2 of earth-filling method;

Fig. 4 is the flow chart of the transport of the ore shown in Fig. 2 and the step S3 of earth-filling method.

Accompanying drawing illustrates:

The transport of ore and backfill system 100;

The main tunnel 102 of stope;

First order ores lifting machine 10;

Second level ores lifting machine 20;

Third level ore, Tailings transportation machine 30; Ore conveyer belt 31; Mine tailing backhaul band 32;

Second level Tailings transportation machine 40;

First order Tailings transportation machine 50.

Detailed description of the invention

Be described below in detail embodiments of the invention, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Be exemplary below by the embodiment be described with reference to the drawings, be intended to for explaining the present invention, and can not limitation of the present invention be interpreted as.

First by reference to the accompanying drawings 1 to Fig. 4 specifically describes transport and the backfill system 100 of the ore of embodiment according to a first aspect of the present invention below.

First order ores lifting machine 10, second level ores lifting machine 20, third level ore, Tailings transportation machine 30, second level Tailings transportation machine 40 and first order Tailings transportation machine 50 is comprised according to the transport of the ore of the embodiment of the present invention and backfill system 100.Specifically, first order ores lifting machine 10 is located in the (not shown) of tunnel, stope panel, second level ores lifting machine 20 is located in the main tunnel 102 of stope, second end of first order ores lifting machine 10 is connected to be delivered to by tcrude ore on second level ores lifting machine 20 with the first end of second level ores lifting machine 20, third level ore, Tailings transportation machine 30 is located in main slant (not shown), third level ore, Tailings transportation machine 30 comprises connected ore conveyer belt 31 and mine tailing backhaul band 32, the ore conveyer belt 31 opposing parallel and spaced apart setting with mine tailing backhaul band 32, with the second end of second level ores lifting machine 20, the first end of ore conveyer belt 31 is connected that tcrude ore is delivered to earth's surface (not shown), second level Tailings transportation machine 40 is located at the main tunnel 102 of stope, first order Tailings transportation machine 50 is located in tunnel, stope panel, the first end of second level Tailings transportation machine 40 is connected to be filled to goaf by the Tailings transportation on earth's surface with mine tailing backhaul band 32 with the first end of first order Tailings transportation machine 50 respectively with the second end.

In other words, the transport of this ore and backfill system 100 are primarily of first order ores lifting machine 10, second level ores lifting machine 20, third level ore, Tailings transportation machine 30, second level Tailings transportation machine 40 and first order Tailings transportation machine 50 form, wherein, third level ore, Tailings transportation machine 30 forms primarily of the ore conveyer belt 31 of opposing parallel and spaced apart setting and mine tailing backhaul band 32, first order ores lifting machine 10, second level ores lifting machine 20 and third level ore, the ore conveyer belt 31 of Tailings transportation machine 30 is mainly used in the tcrude ore in stope panel to be transported on earth's surface, and third level ore, the mine tailing backhaul band 32 of Tailings transportation machine 30, second level Tailings transportation machine 40 and first order Tailings transportation machine 50 are mainly used in the tailings transportation on earth's surface to goaf.

Particularly, first order ores lifting machine 10 and first order Tailings transportation machine 50 are spaced apart to be respectively located in tunnel, stope panel and to extend along the length direction in stope panel respectively, second level ores lifting machine 20 and second level Tailings transportation machine 40 are spaced apart to be respectively located in the main tunnel of stope 102 and to extend along the length direction in the main tunnel 102 of stope respectively, and third level ore, Tailings transportation machine 30 is located in main slant, wherein the contiguous stope panel of the first end of first order ores lifting machine 10 is located to facilitate and is placed on first order ores lifting machine 10 by the tcrude ore of digging, with the first end of second level ores lifting machine 20, second end of first order ores lifting machine 10 is connected that the tcrude ore on first order ores lifting machine 10 is transported to second level ores lifting machine 20, second end of second level ores lifting machine 20 and third level ore, the first end of the ore conveyer belt 31 of Tailings transportation machine 30 is connected that the tcrude ore on second level ores lifting machine 20 is delivered to third level ore, on the ore conveyer belt 31 of Tailings transportation machine 30, then third level ore, the contiguous earth's surface of second end of the ore conveyer belt 31 of Tailings transportation machine 30 is arranged, conveniently tcrude ore is transported to earth's surface.

And third level ore, the contiguous earth's surface of first end of the mine tailing backhaul band 32 of Tailings transportation machine 30 is arranged, conveniently mine tailing is transported to third level ore, on the mine tailing backhaul band 32 of Tailings transportation machine 30, third level ore, second end of the mine tailing backhaul band 32 of Tailings transportation machine 30 is connected with by third level ore with the first end of second level Tailings transportation machine 40, Tailings transportation on the mine tailing backhaul band 32 of Tailings transportation machine 30 is on second level Tailings transportation machine 40, second end of second level Tailings transportation machine 40 be connected with the first end of first order Tailings transportation machine 50 with by the Tailings transportation on second level Tailings transportation machine 40 on first order Tailings transportation machine 50, the contiguous goaf of second end of first order Tailings transportation machine 50 is arranged, conveniently the mine tailing on first order Tailings transportation machine 50 is transported to goaf.

Thus, according to transport and the backfill system 100 of the ore of the embodiment of the present invention, by by third level ore, the ore conveyer belt 31 of Tailings transportation machine 30 and mine tailing backhaul band 32 opposing parallel and spaced apartly arrange in main slant, make third level ore, Tailings transportation machine 30 can realize transporting ore and mine tailing simultaneously, achieve two-way haul mode, improve utilization rate of equipment and installations, the width dimensions of main slant can be reduced, what reduce the transport of this ore and backfill system 100 widely occupies space, reduce the input of capital works amount, the transport of this ore and the structure of backfill system 100 simple, transport capacity is larger, the cost of transportation of tcrude ore and the backfill cost of mine tailing low.

Wherein, according to one embodiment of present invention, ore conveyer belt 31 and mine tailing backhaul band 32 are tubular conveyor belt.That is, third level ore, the ore conveyer belt 31 of Tailings transportation machine 30 and mine tailing backhaul band 32 are all formed as the conveyer belt that cross sectional shape is annular, like this, at ore conveyer belt 31, the tcrude ore on second level ores lifting machine 20 is transported in the process on earth's surface, with mine tailing backhaul band 32 mine tailing on earth's surface is transported in the process on second level Tailings transportation machine 40, can effectively reduce in transportation, flying upward of dust, decrease dust to main slant, the main tunnel 102 of stope, the pollution of tunnel, stope panel and other work planes, and, because dust pollution is little, this main slant also can as downcast, both can be reduced the input to downcast and unnecessary subincline in capital works amount, cost of winning can be reduced again.And the conveyer belt of first order ores lifting machine 10, second level ores lifting machine 20, second level Tailings transportation machine 40 and first order Tailings transportation machine 50 can adopt grooved conveyer belt to reduce the cost of conveyer belt.

Alternatively, according to one embodiment of present invention, ore conveyer belt 31 is located at the below of mine tailing backhaul band 32 and ore conveyer belt 31 and mine tailing backhaul band 32 extend along the length direction of main slant respectively.Particularly, as shown in Figure 1, ore conveyer belt 31 and the mine tailing backhaul band 32 of third level ore, Tailings transportation machine 30 are arranged in main slant opposing parallelly, wherein, ore conveyer belt 31 is located at the top of mine tailing backhaul band 32, namely the tubular conveyor belt being positioned at top of third level ore, Tailings transportation machine 30 is for being transported to earth's surface by the tcrude ore on second level ores lifting machine 20, and the tubular conveyor belt being positioned at below for by the tailings transportation on earth's surface to second level Tailings transportation machine 40, convenient mine tailing is transported to goaf.

Here it should be noted that, the ore conveyer belt 31 of third level ore, Tailings transportation machine 30 and mine tailing backhaul band 32 are not fixing conveyer belt, along with the continuous running of third level ore, Tailings transportation machine 30, ore conveyer belt 31 and mine tailing backhaul band 32 are also constantly used alternatingly.Alternatively, the conveyer belt of third level ore, Tailings transportation machine 30 can be formed as end to end ring-type, this conveyer belt can move back and forth along the track of main slant, when be positioned at top conveyer belt complete transport tcrude ore process and by tcrude ore unload after, annular downwards gradually, namely moving to below gradually, becoming the mine tailing backhaul band 32 for transporting mine tailing, and so forth.

In detailed description of the invention more of the present invention, the radial dimension of ore conveyer belt 31 and mine tailing backhaul band 32 is 500mm.Thus, the ore conveyer belt 31 of this third level ore, Tailings transportation machine 30 and mine tailing backhaul band 32 can improve the freight volume of ore and mine tailing, greatly increase productivity ratio.

Alternatively, ore conveyer belt 31 and mine tailing backhaul band 32 with respect to the horizontal direction of angle be 7 °-9 °.Such as, as shown in Figure 1, in the present embodiment, the ore conveyer belt 31 of third level ore, Tailings transportation machine 30 and the belt speed of mine tailing backhaul band 32 are 2m/s, the intensity of conveyer belt is 2000N/mm, i.e. the strength specification of the conveyer belt of ore conveyer belt 31 and the employing of mine tailing backhaul band 32 is ST2000, and the power of motor of this third level ore, Tailings transportation machine 30 is 2 × 1250kw, conveyer belt is of a size of 2560m along the length direction of main slant, and the hoisting depth of this ore conveyer belt 31 is 350m.

Thus, third level ore, Tailings transportation machine 30 can realize transporting ore and mine tailing simultaneously, achieve two-way haul mode, improve utilization rate of equipment and installations, can reduce the width dimensions of main slant, what reduce the transport of this ore and backfill system 100 widely occupies space, reduce the input of capital works amount, simply, transport capacity is comparatively large, and operation cost is low for the transport of this ore and the structure of backfill system 100.

Wherein, according to one embodiment of present invention, mine tailing backfill is the filling of dry type mine tailing.Alternatively, mine tailing needs to carry out steps such as drying or naturally do before shipping, then loads onto on the mine tailing backhaul band 32 of third level ore, Tailings transportation machine 30 by the mine tailing after oven dry, is finally transported to goaf and backfills.Thus, adopt the backfill of dry type mine tailing can avoid a difficult problem for the flushing technique in correlation technique, such as, can effectively avoid in filling process, occur the problem of plugging, and transport and backfilling process not influenced by ambient temperature, the problem of waste water being brought into down-hole can be avoided simultaneously, decrease the potential safety hazard of down-hole.

In detailed description of the invention more of the present invention, first order ores lifting machine 10 comprises four, the bandwidth of each first order ores lifting machine 10 is 1000mm, the belt speed of conveyer belt is 2.5m/s, the strength specification of corresponding conveyer belt is ST1000, the power of motor of first order ores lifting machine 10 is 220kw, and the belt length of conveyer belt is 1500m, tcrude ore can be promoted 5m height.And the bandwidth of the conveyer belt of second level ores lifting machine 20 is 1400mm, belt speed is 2.5m/s, and the strength specification of corresponding conveyer belt is ST2000, and the power of motor of second level ores lifting machine 20 is 560kw, the belt length of conveyer belt is 2300m, tcrude ore can be promoted 5m height.

And first order Tailings transportation machine 50 also comprises four, the bandwidth of each first order Tailings transportation machine 50 is 1000mm, and the belt speed of conveyer belt is 2.5m/s, and the strength specification of corresponding conveyer belt is ST1000, the power of motor of first order Tailings transportation machine 50 is 220kw, and the belt length of conveyer belt is 1500m.And the bandwidth of the conveyer belt of second level Tailings transportation machine 40 is 1200mm, belt speed is 2.5m/s, and the strength specification of corresponding conveyer belt is ST2000, and the power of motor of second level Tailings transportation machine 40 is 450kw, and the belt length of conveyer belt is 2300m.

Transport and the earth-filling method of the ore of embodiment is according to a second aspect of the present invention specifically described below in conjunction with accompanying drawing 1 to Fig. 4.

As shown in Figure 2, according to transport and the earth-filling method of the ore of the embodiment of the present invention, comprise the following steps:

S1, digging is carried out to tcrude ore;

S2, by ores lifting machine, the tcrude ore of digging is transported to earth's surface, forms goaf at acceptance region;

S3, by ores lifting machine, the mine tailing on earth's surface is transported to goaf filling.

Wherein, as shown in Figure 3, step S2 comprises: S21, be transported to first order ores lifting machine 10 by connecting the tcrude ore adopting machine digging; S22, the tcrude ore that first order ores lifting machine 10 is carried is transported to second level ores lifting machine 20; S23, the tcrude ore that second level ores lifting machine 20 is carried is transported to the ore conveyer belt 31 of third level ore, Tailings transportation machine 30; S24, the tcrude ore that third level ore, Tailings transportation machine 30 are carried is transported to earth's surface.

In other words, after tcrude ore digging, tcrude ore and mine tailing are in transport, mine tailing is when filling, not transport traditionally and fill method, preferably, third level ore, the ore conveyer belt 31 of Tailings transportation machine 30 is tubular conveyor belt, wherein the contiguous stope panel of the first end of first order ores lifting machine 10 is located to facilitate and is placed on first order ores lifting machine 10 by the tcrude ore of digging, with the first end of second level ores lifting machine 20, second end of first order ores lifting machine 10 is connected that the tcrude ore on first order ores lifting machine 10 is transported to second level ores lifting machine 20, second end of second level ores lifting machine 20 and third level ore, the first end of the ore conveyer belt 31 of Tailings transportation machine 30 is connected that the tcrude ore on second level ores lifting machine 20 is delivered to third level ore, on the ore conveyer belt 31 of Tailings transportation machine 30, then third level ore, the contiguous earth's surface of second end of the ore conveyer belt 31 of Tailings transportation machine 30 is arranged, conveniently tcrude ore is transported to earth's surface.Therefore, tcrude ore is transported to the process on earth's surface from stope panel, simple to operate, and transport capacity is large, and dust pollution is little.

Wherein, as shown in Figure 4, step S3 comprises: S31, the mine tailing on earth's surface is transported to the mine tailing backhaul band 32 of third level ore, Tailings transportation machine 30; S32, the mine tailing that third level ore, Tailings transportation machine 30 are carried is transported to second level Tailings transportation machine 40; S33, by second level ore, Tailings transportation machine conveying mine tailing be transported to first order Tailings transportation machine 50; S34, by first order ore, Tailings transportation machine conveying mine tailing be transported to goaf.

Preferably, the mine tailing backhaul band 32 of third level ore, Tailings transportation machine 30 is also formed as tubular conveyor belt, and mine tailing backhaul band 32 is positioned at below, the synchronous operation of ore conveyer belt 31.Particularly, third level ore, the contiguous earth's surface of first end of the mine tailing backhaul band 32 of Tailings transportation machine 30 is arranged, conveniently mine tailing is transported to third level ore, on the mine tailing backhaul band 32 of Tailings transportation machine 30, third level ore, second end of the mine tailing backhaul band 32 of Tailings transportation machine 30 is connected with by third level ore with the first end of second level Tailings transportation machine 40, Tailings transportation on the mine tailing backhaul band 32 of Tailings transportation machine 30 is on second level Tailings transportation machine 40, second end of second level Tailings transportation machine 40 be connected with the first end of first order Tailings transportation machine 50 with by the Tailings transportation on second level Tailings transportation machine 40 on first order Tailings transportation machine 50, the contiguous goaf of second end of first order Tailings transportation machine 50 is arranged, conveniently the mine tailing on first order Tailings transportation machine 50 is transported to goaf.

Particularly, Lian Caiji is at stope panel digging tcrude ore, so form goaf at acceptance region, then being transported to by the tcrude ore even adopting machine digging is positioned on the first order ores lifting machine 10 in tunnel, stope panel, then tcrude ore is respectively through first order ores lifting machine 10, second level ores lifting machine 20 and third level ore, the ore conveyer belt 31 of Tailings transportation machine 30 is transported to earth's surface, and meanwhile, mine tailing on earth's surface is transported to third level ore, on the mine tailing backhaul band 32 of Tailings transportation machine 30, then successively through mine tailing backhaul band 32, second level Tailings transportation machine 40, first order Tailings transportation machine 50 is transported to the position in contiguous goaf, complete the transport of tcrude ore and mine tailing.

Apply the transport of this ore and earth-filling method can reach 6,000,000 t at engineering year transport ore, transport mine tailing reaches 3,000,000 t, comprehensive transportation cost is low, and adopts compared with the discontinuous transportation resources such as truck, cage in correlation technique, and this transportation resources transport capacity is large; And with utilize in correlation technique mine tailing and ore respectively transportation resources compare, this transportation resources cost is low, both can reduce the input to downcast and unnecessary subincline in capital works amount, and the time that mine tailing is stored up on earth's surface can have been reduced again, decrease the pollution to surface water.

Thus, third level ore, Tailings transportation machine 30 can realize transporting ore and mine tailing simultaneously, achieve two-way haul mode, improve utilization rate of equipment and installations, the width dimensions of main slant can be reduced, reduce the space that this equipment occupies widely, reduce the input of capital works amount, the structure of this equipment is simple, and transport capacity is comparatively large, and the cost of transportation of tcrude ore and mine tailing is low.Moreover, at ore conveyer belt 31, the tcrude ore on second level ores lifting machine 20 is transported in the process on earth's surface, with mine tailing backhaul band 32 mine tailing on earth's surface is transported in the process on second level Tailings transportation machine 40, can effectively reduce in transportation, flying upward of dust, decrease dust to main slant, the main tunnel 102 of stope, the pollution of tunnel, stope panel and other work planes, and, because dust pollution is little, this main slant also can as downcast, both can be reduced the input to downcast and unnecessary subincline in capital works amount, cost of winning can be reduced again.

In addition, as shown in Figure 4, according to one embodiment of present invention, step S3 also comprises: S35, the mine tailing of unloading loaded electronic shuttle car through Cinder Machine and is transported to the filling position in goaf; S36, mine tailing loaded filling machine, fill goaf.

That is, mine tailing is after three grades of transports and after being unloaded by mine tailing, by Cinder Machine, mine tailing is loaded in electronic shuttle car, then electronic shuttle car by tailings transportation to goaf need fill the position of mine tailing, finally mine tailing is loaded filling machine, by filling machine, mine tailing is filled to goaf, realizes transport and the backfilling process of mine tailing.Alternatively, mine tailing backfill is the filling of dry type mine tailing.

Thus, according to transport and the earth-filling method of the ore of the embodiment of the present invention, can realize transporting ore and mine tailing simultaneously, achieve two-way haul mode, improve utilization rate of equipment and installations, the width dimensions of main slant can be reduced, what reduce the transport of this ore and backfill system 100 widely occupies space, reduces the input of capital works amount, the transport of this ore and the structure of backfill system 100 simple, transport capacity is comparatively large, the cost of transportation of tcrude ore and the backfill cost of mine tailing low.Moreover, adopt the backfill of dry type mine tailing can avoid a difficult problem for the flushing technique in correlation technique, effectively avoid in filling process, occur the problem of plugging, and transport and backfilling process not influenced by ambient temperature, the problem because waste water being brought into down-hole can being avoided simultaneously, decreasing the potential safety hazard of down-hole.

To form according to other of the transport of the ore of the embodiment of the present invention and backfill system 100 and method of operating is all known for those of ordinary skills, be not described in detail here.

In describing the invention, it will be appreciated that, term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end " " interior ", " outward ", " clockwise ", orientation or the position relationship of the instruction such as " counterclockwise " are based on orientation shown in the drawings or position relationship, only the present invention for convenience of description and simplified characterization, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore limitation of the present invention can not be interpreted as.

In addition, term " first ", " second " only for describing object, and can not be interpreted as instruction or hint relative importance or imply the quantity indicating indicated technical characteristic.Thus, be limited with " first ", the feature of " second " can express or impliedly comprise one or more these features.In describing the invention, the implication of " multiple " is two or more, unless otherwise expressly limited specifically.

In the present invention, unless otherwise clearly defined and limited, the term such as term " installation ", " being connected ", " connection ", " fixing " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or connect integratedly; Can be mechanical connection, also can be electrical connection; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, above-mentioned term concrete meaning in the present invention can be understood as the case may be.

In the present invention, unless otherwise clearly defined and limited, fisrt feature second feature it " on " or D score can comprise the first and second features and directly contact, also can comprise the first and second features and not be directly contact but by the other characterisation contact between them.And, fisrt feature second feature " on ", " top " and " above " comprise fisrt feature directly over second feature and oblique upper, or only represent that fisrt feature level height is higher than second feature.Fisrt feature second feature " under ", " below " and " below " comprise fisrt feature directly over second feature and oblique upper, or only represent that fisrt feature level height is less than second feature.

In the description of this manual, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " example ", " concrete example " or " some examples " etc. means to describe in conjunction with this embodiment or example are contained at least one embodiment of the present invention or example.In this manual, identical embodiment or example are not necessarily referred to the schematic representation of above-mentioned term.And the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiment or example.

Although illustrate and describe embodiments of the invention above, be understandable that, above-described embodiment is exemplary, can not be interpreted as limitation of the present invention, those of ordinary skill in the art can change above-described embodiment within the scope of the invention when not departing from principle of the present invention and aim, revising, replacing and modification.

Claims (10)

1. the transport of ore and a backfill system, is characterized in that, comprising:

First order ores lifting machine and second level ores lifting machine, described first order ores lifting machine is located in tunnel, stope panel, described second level ores lifting machine is located in the main tunnel of stope, and the second end of described first order ores lifting machine is connected to be delivered to by tcrude ore on the ores lifting machine of the described second level with the first end of described second level ores lifting machine;

Third level ore, Tailings transportation machine, third level ore, Tailings transportation machine are located in main slant, described third level ore, Tailings transportation machine comprise connected ore conveyer belt and mine tailing backhaul band, described ore conveyer belt and the opposing parallel and spaced apart setting of described mine tailing backhaul band, with the second end of described second level ores lifting machine, the first end of described ore conveyer belt is connected that described tcrude ore is delivered to earth's surface;

Second level Tailings transportation machine and first order Tailings transportation machine, described second level Tailings transportation machine is located at the main tunnel of described stope, described first order Tailings transportation machine is located in tunnel, described stope panel, and the first end of described second level Tailings transportation machine is connected to be filled to goaf by the Tailings transportation on earth's surface with described mine tailing backhaul band with the first end of described first order Tailings transportation machine respectively with the second end.

2. the transport of ore according to claim 1 and backfill system, it is characterized in that, described ore conveyer belt and described mine tailing backhaul band are tubular conveyor belt.

3. the transport of ore according to claim 1 and backfill system, is characterized in that, described ore conveyer belt is located at the top of described mine tailing backhaul band and described ore conveyer belt and described mine tailing backhaul band extend along the length direction of described main slant respectively.

4. the transport of ore according to claim 2 and backfill system, it is characterized in that, the radial dimension of described ore conveyer belt and described mine tailing backhaul band is 500mm.

5. the transport of ore according to claim 1 and backfill system, is characterized in that, described ore conveyer belt and described mine tailing backhaul band with respect to the horizontal direction of angle be 7 °-9 °.

6. the transport of ore according to claim 1 and backfill system, is characterized in that, described mine tailing backfill is the filling of dry type mine tailing.

7. the transport of ore and an earth-filling method, is characterized in that, comprise the following steps:

S1, digging is carried out to tcrude ore;

S2, by ores lifting machine, the tcrude ore of digging is transported to earth's surface, forms goaf at acceptance region;

S3, by described ores lifting machine, the mine tailing on earth's surface is transported to goaf filling.

8. the transport of ore according to claim 7 and earth-filling method, it is characterized in that, described step S2 comprises:

S21, be transported to first order ores lifting machine by connecting the tcrude ore adopting machine digging;

S22, the tcrude ore of described first order ores lifting machine conveying is transported to second level ores lifting machine;

S23, the tcrude ore that described second level ores lifting machine is carried is transported to the ore conveyer belt of third level ore, Tailings transportation machine;

S24, by described third level ore, Tailings transportation machine conveying tcrude ore be transported to earth's surface.

9. the transport of ore according to claim 7 and earth-filling method, it is characterized in that, described step S3 comprises:

S31, the mine tailing on earth's surface is transported to the mine tailing backhaul band of described third level ore, Tailings transportation machine;

S32, by described third level ore, Tailings transportation machine conveying mine tailing be transported to second level Tailings transportation machine;

S33, by described second level ore, Tailings transportation machine conveying mine tailing be transported to first order Tailings transportation machine;

S34, by described first order ore, Tailings transportation machine conveying mine tailing be transported to described goaf.

10. the transport of ore according to claim 7 and earth-filling method, it is characterized in that, described step S3 also comprises:

S35, the mine tailing of unloading loaded electronic shuttle car through Cinder Machine and is transported to the filling position in described goaf;

S36, mine tailing loaded filling machine, fill described goaf.