CN205477744U - A broken system in pit for mine - Google Patents

Abstract

The utility model discloses a broken system in pit for mine, the mine has a plurality of middle sections, a broken system in pit for mine includes: the drop shaft, the first ore deposit machine of giving, the first ore deposit machine of giving is established the below of drop shaft, first give the ore deposit machine with the export of drop shaft links to each other, store up the ore bucket, it establishes to store up the ore bucket the first below of giving the ore deposit machine and with the first ore deposit machine of giving links to each other, the ore deposit machine is given to the second, the second establishes for the ore deposit machine store up the ore bucket the below and with it is linked to be one wholly mutually to store up the ore bucket, the shale shaker, the shale shaker with the second links to each other for the ore deposit machine, and breaker, the breaker with the shale shaker links to each other. According to the utility model discloses a broken system in pit for mine have in the pit chamber engineering volume little, promote the ore energy consumption low, promote ore expense low grade advantage, solved the problem of broken this middle section elevation ore effectively.

Description

Downhole crushed system for mine

Technical field

This utility model relates to field of metallurgy, in particular to the downhole crushed system for mine.

Background technology

The downhole crushed system in existing mine is made up of drop shaft, rock feeder and disintegrating machine.Specifically, the ore deposit in each stage casing Stone is transferred to drop shaft by drop shaft, crushes in then Ore feeding disintegrating machine by rock feeder, receives Ore absolute altitude Need to be higher than the height of Crushing Station 30 meters-60 meters.

Utility model content

One of technical problem that this utility model is intended to solve in correlation technique the most to a certain extent.To this end, this practicality is new Type propose a kind of have down-hole chamber engineering amount is little, lifting ore energy consumption is low, lifting ore expense is low advantage for mine Downhole crushed system.

According to the downhole crushed system for mine of the present utility model, described mine has multiple stage casing, described for mine Downhole crushed system include: drop shaft；First rock feeder, described first rock feeder is located at the lower section of described drop shaft, and described One rock feeder is connected with the outlet of described drop shaft；Storage ore bucket, described storage ore bucket be located at described first rock feeder lower section and with institute State the first rock feeder to be connected；Second rock feeder, described second rock feeder be located at described storage ore bucket lower section and with described storage ore bucket It is linked into a whole；Vibrosieve, described vibrosieve is connected with described second rock feeder；And disintegrating machine, described disintegrating machine and institute State vibrosieve to be connected.

Have that down-hole chamber engineering amount is little, lifting ore energy consumption is low according to the downhole crushed system for mine of the present utility model, The advantage that lifting ore expense is low.

It addition, it is special to have following additional technology according to the downhole crushed system for mine that this utility model is above-mentioned Levy:

Described storage ore bucket is located at that is positioned at bottom of multiple described stage casing.

Described disintegrating machine is jaw crusher.

Described storage ore bucket includes: back plate, and the lower edge of described back plate is located on described second rock feeder, and described back plate is from described Two rock feeders extend after upwards going up；Left plate, the lower edge of described left plate is located on described second rock feeder, described left plate Extend the most to the left from described second rock feeder；And right plate, the lower edge of described right plate is located on described second rock feeder, Described right plate extends the most to the right from described second rock feeder.

Described storage ore bucket farther includes: crossbeam, and the left part of described crossbeam is connected with described left plate, the right side of described crossbeam End is connected with described right plate；With multiple gear ore deposits iron chains, multiple described gear ore deposits iron chains is located at institute the most at interval Stating on crossbeam, the upper end of each described gear ore deposit iron chains is connected with described crossbeam.

The medial surface of each in described back plate, described left plate and described right plate is provided with abrasion-proof backing block.

The lateral surface of each in described back plate, described left plate and described right plate is provided with reinforcement.

Described reinforcement is multiple, and multiple described reinforcements are arranged the most at interval.

The described downhole crushed system for mine farther includes: sieve ore deposit passage, described sieve ore deposit passage is located at described vibrosieve Lower section, described sieve ore deposit passage is relative with described vibrosieve in the vertical direction so that the Ore received under described Vibration Screen； With bottom ore storage bin, described bottom ore storage bin is located at the lower section of described disintegrating machine, and described bottom ore storage bin is broken with described in the vertical direction Broken machine is relative to receive the Ore of described crusher in crushing, wherein said bottom ore storage bin and described sieve ore deposit channel connection.

A part for described bottom ore storage bin is positioned at the lower section of described sieve ore deposit passage to receive the Ore of described sieve ore deposit passage.

Accompanying drawing explanation

Fig. 1 is the structural representation of the downhole crushed system for mine according to this utility model embodiment；

Fig. 2 is the partial structurtes schematic diagram of the downhole crushed system for mine according to this utility model embodiment.

Detailed description of the invention

Of the present utility model embodiment is described below in detail, and the example of described embodiment is shown in the drawings.Below with reference to The embodiment that accompanying drawing describes is exemplary, it is intended to be used for explaining this utility model, and it is not intended that to of the present utility model Limit.

Below with reference to the accompanying drawings describing the downhole crushed system 10 for mine 1 according to this utility model embodiment, mine 1 has There is multiple stage casing 20.As depicted in figs. 1 and 2, according to the downhole crushed system for mine 1 of this utility model embodiment 10 include drop shaft the 101, first rock feeder 102, storage ore bucket the 103, second rock feeder 104, vibrosieve 105 and disintegrating machine 106.

First rock feeder 102 is located at the lower section of drop shaft 101, and the first rock feeder 102 is connected to connect with the outlet of drop shaft 101 Receive by the Ore in drop shaft 101.Storage ore bucket 103 is located at the lower section of the first rock feeder 102, and storage ore bucket 103 is given with first Ore deposit machine 102 is connected to receive the Ore of the first rock feeder 102 conveying.

Second rock feeder 104 is located at the lower section of storage ore bucket 103, the second rock feeder 104 with store up ore bucket 103 to be connected to one whole Body.Vibrosieve 105 is connected with the second rock feeder 104 to receive the Ore of the second rock feeder 104 conveying, disintegrating machine 106 It is connected with vibrosieve 105 to receive the Ore of vibrosieve 105 conveying.

Specifically, in this application, two devices are connected and may refer to a device and be arranged on the downstream of another device, To receive Ore from one device (being positioned at the device of upstream side).

The downhole crushed system in existing mine is made up of drop shaft, rock feeder and disintegrating machine.Specifically, the ore deposit in each stage casing Stone is transferred to drop shaft by drop shaft, crushes in then Ore feeding disintegrating machine by rock feeder, receives Ore absolute altitude Need to be higher than the height of Crushing Station 30 meters-60 meters.It is to say, the drop shaft of existing downhole crushed system lower end outlet and Rock feeder and disintegrating machine are positioned at the position of 30 meters-60 meters, the lower section in the stage casing of bottom.Ore deposit after this crusher in crushing Stone is promoted to earth's surface, therefore causes the energy consumption of lifting ore and pit shaft quantities bigger.

The work of the downhole crushed system 10 for mine 1 according to this utility model embodiment is described below with reference to Fig. 1 and Fig. 2 Make process.Mine 1 has multiple stage casing 20, in addition to the stage casing 20 being positioned at bottom, and the Ore in remaining stage casing 20 It is transported to the first rock feeder 102 by drop shaft 101, then is transported to store up in ore bucket 103 by the first rock feeder 102.It is positioned at The Ore in the stage casing 20 of bottom can be transported to store up in ore bucket 103, specifically, is positioned at the Ore in the stage casing 20 of bottom It is transported to store up in ore bucket 103 by transport vehicle 30.

Therefore, export according to the lower end of the drop shaft 101 of the downhole crushed system 10 for mine 1 of this utility model embodiment Being generally located at same level height with the stage casing 20 being positioned at bottom, the level height of storage ore bucket 103 is substantially equivalent to (such as omit Be higher than, slightly below or be equal to) be positioned at the level height in the stage casing 20 of bottom, in order to be positioned at the ore deposit in the stage casing 20 of bottom Stone can be transported to store up in ore bucket 103.Second rock feeder 104, vibrosieve 105 and disintegrating machine 106 are sequentially arranged in storage ore deposit The lower section of bucket 103, therefore the level height of disintegrating machine 106 is close to the level height in the stage casing 20 being positioned at bottom.

Ore in storage ore bucket 103 is transported to the Ore in vibrosieve 105, below qualified lumpiness by the second rock feeder 104 Under being sieved by vibrosieve 105, big lumpiness Ore is transported in disintegrating machine 106 by vibrosieve 105, and disintegrating machine 106 is to this Big lumpiness Ore crushes, in order to obtain the Ore of below qualified lumpiness.It is to say, lumpiness is less than or equal to preset value Under Ore can be sieved by vibrosieve 105, lumpiness is vibrated sieve 105 more than the Ore of this preset value and is transported to disintegrating machine 106 In, and the machine 106 that is broken is broken into lumpiness less than or equal to the Ore of this preset value.

The lower end outlet being as noted previously, as drop shaft 101 is generally located at same level height with the stage casing 20 being positioned at bottom, Therefore the length of drop shaft 101 can greatly be shortened, such that it is able to greatly reduce down-hole chamber engineering amount.It is additionally, since The level height of disintegrating machine 106, close to the level height in the stage casing 20 being positioned at bottom, therefore can greatly reduce ore deposit Stone is promoted to the energy consumption on earth's surface.

The downhole crushed system 10 for mine 1 according to this utility model embodiment by arrange storage ore bucket 103 and for Second rock feeder 104 of the Ore in conveying storage ore bucket 103, such that it is able to make the level height of storage ore bucket 103 be substantially equivalent to It is positioned at the level height in the stage casing 20 of bottom.Thus it is possible not only to the lower end outlet making drop shaft 101 and is positioned in bottom Section 20 is generally located at same level height, and the level height of disintegrating machine 106 can be made close to the stage casing being positioned at bottom The level height of 20, thus be possible not only to greatly reduce down-hole chamber engineering amount, and can greatly reduce and Ore is carried Rise to the energy consumption on earth's surface.

Therefore, according to the downhole crushed system 10 for mine 1 of this utility model embodiment have down-hole chamber engineering amount little, The advantages such as lifting ore energy consumption is low, lifting ore expense is low, the problem efficiently solving this stage casing absolute altitude Ore broken.

As illustrated in figs. 1 and 2, wrap according to the downhole crushed system 10 for mine 1 of embodiments more of the present utility model Include drop shaft the 101, first rock feeder 102, storage ore bucket the 103, second rock feeder 104, vibrosieve 105 and disintegrating machine 106.

Drop shaft 101 is for carrying the Ore in remaining stage casing 20 in addition to the stage casing 20 being positioned at bottom.First rock feeder 102 lower sections being positioned at drop shaft 101, the first rock feeder 102 is connected with the outlet of drop shaft 101, defeated from there through drop shaft 101 The Ore sent can enter the first rock feeder 102.The both sides of the first rock feeder 102 can be provided with steel plate, thus it can be prevented that Ore on first rock feeder 102 drops.

Storage ore bucket 103 is connected with the first rock feeder 102, in order to the first rock feeder 102 is by ores lifting to storage ore bucket 103. It is to say, storage ore bucket 103 is positioned at the lower section of the first rock feeder 102, the Ore leaving the first rock feeder 102 falls into storage ore deposit In bucket 103.

Advantageously, store up ore bucket 103 and be located at one that is positioned at bottom of multiple stage casing 20.

As in figure 2 it is shown, in examples more of the present utility model, storage ore bucket 103 includes back plate 1032, left plate 1033 With right plate 1034.Specifically, each in back plate 1032, left plate 1033 and right plate 1034 can be steel plate.

The lower edge of back plate 1032 is located on the second rock feeder 104, and back plate 1032 upwards extends back from the second rock feeder 104. In other words, back plate 1032 tilts from the second rock feeder 104 and upwardly extends backward.

The lower edge of left plate 1033 is located on the second rock feeder 104, and left plate 1033 is from the second rock feeder 104 the most to the left Extend.The lower edge of right plate 1034 is located on the second rock feeder 104, right plate 1034 from the second rock feeder 104 upwards to Right extension.Upwardly extend back to left it is to say, left plate 1033 tilts from the second rock feeder 104, right plate 1034 from Second rock feeder 104 tilts and upwardly extends to the right.Storage ore bucket 103 thus can be made up big and down small, substantially in funnel-form.

Therefore, the second rock feeder 104 constitutes the base plate 1031 of storage ore bucket 103.And, the second rock feeder 104, back plate 1032, left plate 1033 and right plate 1034 limit the receiving chamber for accommodating Ore, and the front end in this receiving chamber is opened wide, So that Ore leaves this receiving chamber by the front end in this receiving chamber and enters into the second rock feeder 104.

Wherein, above-below direction as shown in the arrow A in Fig. 1, fore-and-aft direction as indicated by arrow b in fig. 1, left and right directions As designated by arrows c in fig. 2.Specifically, transport vehicle 30 moves forward, in order to will be located in the ore deposit in the stage casing 20 of bottom Stone is transported to store up in ore bucket 103.

As in figure 2 it is shown, in an example of the present utility model, storage ore bucket 103 farther includes crossbeam 1035 and multiple gear Ore deposit iron chains 1036.The left part of crossbeam 1035 is connected with left plate 1033, the right part of crossbeam 1035 and right plate 1034 It is connected.Specifically, back plate 1032, left plate 1033 and right plate 1034 are welded on base plate 1031, and crossbeam 1035 welds It is connected on left plate 1033 and right plate 1034.

Multiple gear ore deposits iron chains 1036 is located on crossbeam 1035 the most at interval, the upper end of each gear ore deposit iron chains 1036 Portion is connected with crossbeam 1035.Under the effect of self gravitation, each gear ore deposit iron chains 1036 is in vertical state.Many by arranging Individual gear ore deposit iron chains 1036, such that it is able to make the Ore in storage ore bucket 103 within the unit interval with suitable amount be supplied to second to On ore deposit machine 104, and then it is supplied in vibrosieve 105, in order to can avoid storing up a large amount of Ores in ore bucket 103 in the short time Inside fall on the second rock feeder 104, and then be supplied in vibrosieve 105, vibrosieve 105 is impacted.

In a concrete example of the present utility model, as in figure 2 it is shown, back plate 1032, left plate 1033 and right plate 1034 In the medial surface of each be provided with abrasion-proof backing block 1037.Wherein, back plate 1032, left plate 1033 and right plate 1034 In the medial surface of each refer in back plate 1032, left plate 1033 and right plate 1034 each for forming this Accommodate the surface in chamber.In other words, each in the rear surface in this receiving chamber, left side wall and right side wall is equipped with resistance to Mill lining plate 1037.Thus can improve the service life of storage ore bucket 103.

As in figure 2 it is shown, the lateral surface of each in back plate 1032, left plate 1033 and right plate 1034 is provided with reinforcement Muscle 1038.Thus can improve the structural strength of storage ore bucket 103.Wherein, back plate 1032, left plate 1033 and right plate The lateral surface of each in 1034 refer to each in back plate 1032, left plate 1033 and right plate 1034 away from this Accommodate the surface in chamber.

Advantageously, as in figure 2 it is shown, reinforcement 1038 is multiple, multiple reinforcements 1038 set the most at interval Put.Thus can improve the structural strength of storage ore bucket 103 further.

Ore in storage ore bucket 103 enters into vibrosieve 105 by the opening of its front end and the work of the second rock feeder 104.Also That is, the second rock feeder 104 is positioned at the underface of storage ore bucket 103, is connected as an entirety with storage ore bucket 103, and second gives Ore deposit machine 104 works to carry the Ore stored up in ore bucket 103.

As it is shown in figure 1, vibrosieve 105 in the lower section of the second rock feeder 104 in case receive second rock feeder 104 conveying ore deposit Stone.Wherein, under the Ore below qualified lumpiness is sieved by vibrosieve 105, big lumpiness Ore is transported to by vibrosieve 105 In disintegrating machine 106 (such as jaw crusher), this big lumpiness Ore is crushed by disintegrating machine 106, in order to it is qualified to obtain Ore below lumpiness.Advantageously, disintegrating machine 106 is positioned at the lower section of vibrosieve 105 preferably to receive big lumpiness Ore.

In an embodiment of the present utility model, downhole crushed system 10 farther includes to sieve ore deposit passage 107 and bottom ore storage bin 108。

Sieve ore deposit passage 107 is located at the lower section of vibrosieve 105, and sieve ore deposit passage 107 is relative with vibrosieve 105 in the vertical direction So as the Ore received under vibrosieve 105 sieve.Advantageously, vibrosieve 105 projection in the vertical direction can fall into sieve ore deposit In passage 107, in order to sieve ore deposit passage 107 receives the Ore under vibrosieve 105 sieve.Additionally, sieve ore deposit passage 107 can be Two, two sieve ore deposit passages 107 are respectively provided at the both sides of vibrosieve 105, in order to receive vibrosieve 105 sieve from both sides Ore.

Bottom ore storage bin 108 is located at the lower section of disintegrating machine 106, and bottom ore storage bin 108 is relative with disintegrating machine 106 in the vertical direction To receive the broken Ore of disintegrating machine 106.Wherein, bottom ore storage bin 108 connects with sieve ore deposit passage 107.

Advantageously, a part 1081 for bottom ore storage bin 108 is positioned at the lower section of sieve ore deposit passage 107 so that receiving screen ore deposit passage 107 Interior Ore.Specifically, the lower end of sieve ore deposit passage 107 is connected with the upper end of a part 1081 for bottom ore storage bin 108, with Just the Ore in sieve ore deposit passage 107 enters in bottom ore storage bin 108.Ore in bottom ore storage bin 108 is thus lifted to earth's surface.

In description of the present utility model, it is to be understood that term " " center ", " longitudinally ", " laterally ", " length ", " width Degree ", " thickness ", " on ", D score, "front", "rear", "left", "right", " vertically ", " level ", " top ", " end " The orientation of the instruction such as " interior ", " outward ", " clockwise ", " counterclockwise ", " axially ", " radially ", " circumferential " or position relationship For based on orientation shown in the drawings or position relationship, it is for only for ease of description this utility model and simplifies description rather than refer to Show or imply the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not manage Solve as to restriction of the present utility model.

Additionally, term " first ", " second " are only used for describing purpose, and it is not intended that instruction or hint relative importance Or the implicit quantity indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can be expressed Or implicitly include at least one this feature.In description of the present utility model, " multiple " are meant that at least two, example Such as two, three etc., unless otherwise expressly limited specifically.

In this utility model, unless otherwise clearly defined and limited, term " install ", " being connected ", " connection ", " Gu Fixed " etc. term should be interpreted broadly, connect for example, it may be fixing, it is also possible to be to removably connect, or integral；Can Be mechanically connected, it is also possible to be electrical connection or each other can communication；Can be to be joined directly together, it is also possible to by between intermediary Connect connected, can be connection or the interaction relationship of two elements of two element internals, unless otherwise clear and definite restriction. For the ordinary skill in the art, concrete in this utility model of above-mentioned term can be understood as the case may be Implication.

In this utility model, unless otherwise clearly defined and limited, fisrt feature second feature " on " or D score Can be that the first and second features directly contact, or the first and second features are by intermediary mediate contact.And, Fisrt feature second feature " on ", " top " and " above " but fisrt feature directly over second feature Or oblique upper, or it is merely representative of fisrt feature level height higher than second feature.Fisrt feature second feature " under ", " lower section " and " below " can be fisrt feature immediately below second feature or obliquely downward, or it is special to be merely representative of first Levy level height less than second feature.

In the description of this specification, reference term " embodiment ", " some embodiments ", " example ", " specifically show Example " or the description of " some examples " etc. means to combine this embodiment or example describes specific features, structure, material or Feature is contained at least one embodiment of the present utility model or example.In this manual, schematic to above-mentioned term Statement is necessarily directed to identical embodiment or example.And, the specific features of description, structure, material or feature Can be so that one or more embodiments in office or example to combine in an appropriate manner.Additionally, in the case of the most conflicting, Those skilled in the art can be by the different embodiments described in this specification or example and different embodiment or the spy of example Levy and be combined and combine.

Although above it has been shown and described that embodiment of the present utility model, it is to be understood that above-described embodiment is example Property, it is impossible to being interpreted as restriction of the present utility model, those of ordinary skill in the art can in the range of this utility model Above-described embodiment be changed, revise, to replace and modification.

Claims (10)

1. the downhole crushed system for mine, it is characterised in that described mine has multiple stage casing, described for ore deposit The downhole crushed system on mountain includes:

Drop shaft；

First rock feeder, described first rock feeder is located at the lower section of described drop shaft, and described first rock feeder goes out with described drop shaft Mouth is connected；

Storage ore bucket, described storage ore bucket is located at the lower section of described first rock feeder and is connected with described first rock feeder；

Second rock feeder, described second rock feeder is located at the lower section of described storage ore bucket and is linked into a whole with described storage ore bucket；

Vibrosieve, described vibrosieve is connected with described second rock feeder；With

Disintegrating machine, described disintegrating machine is connected with described vibrosieve.

Downhole crushed system for mine the most according to claim 1, it is characterised in that described storage ore bucket is located at many One that is positioned at bottom of individual described stage casing.

Downhole crushed system for mine the most according to claim 1, it is characterised in that described disintegrating machine is jaw Disintegrating machine.

Downhole crushed system for mine the most according to claim 1, it is characterised in that described storage ore bucket includes:

Back plate, the lower edge of described back plate is located on described second rock feeder, and described back plate is from described second rock feeder the most backward Extend；

Left plate, the lower edge of described left plate is located on described second rock feeder, described left plate from described second rock feeder to On extend to the left；With

Right plate, the lower edge of described right plate is located on described second rock feeder, described right plate from described second rock feeder to On extend to the right.

Downhole crushed system for mine the most according to claim 4, it is characterised in that described storage ore bucket is further Including:

Crossbeam, the left part of described crossbeam is connected with described left plate, and the right part of described crossbeam is connected with described right plate； With

Multiple gear ore deposits iron chains, multiple described gear ore deposits iron chains is located on described crossbeam the most at interval, each described gear The upper end of ore deposit iron chains is connected with described crossbeam.

Downhole crushed system for mine the most according to claim 4, it is characterised in that described back plate, a described left side The medial surface of each in side plate and described right plate is provided with abrasion-proof backing block.

Downhole crushed system for mine the most according to claim 4, it is characterised in that described back plate, a described left side The lateral surface of each in side plate and described right plate is provided with reinforcement.

Downhole crushed system for mine the most according to claim 7, it is characterised in that described reinforcement is multiple, Multiple described reinforcements are arranged the most at interval.

Downhole crushed system for mine the most according to claim 7, it is characterised in that farther include:

Sieve ore deposit passage, described sieve ore deposit passage is located at the lower section of described vibrosieve, and described sieve ore deposit passage is in the vertical direction with described Vibrosieve is relatively so that the Ore received under described Vibration Screen；With

Bottom ore storage bin, described bottom ore storage bin is located at the lower section of described disintegrating machine, and described bottom ore storage bin is in the vertical direction with described Disintegrating machine is relative to receive the Ore of described crusher in crushing, wherein said bottom ore storage bin and described sieve ore deposit channel connection.

Downhole crushed system for mine the most according to claim 9, it is characterised in that described bottom ore storage bin A part is positioned at the lower section of described sieve ore deposit passage to receive the Ore of described sieve ore deposit passage.