CN205805610U - Ore automated transport system - Google Patents

Abstract

The open a kind of Ore automated transport system of this utility model, wherein, described Ore automated transport system includes the draw area set gradually, the first belt feeder, reprints belt feeder, sieve mining area, the second belt feeder and ore storage bin；Described draw area includes drop shaft platform, quartering hammer, the first drop shaft and the disintegrating machine set gradually, and described first belt feeder is located at below disintegrating machine；Described sieve mining area includes two second drop shafts, and two second drop shafts are respectively in order to rich ore and the lean ore of circulating, the corresponding two second drop shaft well heads of two ends difference of described reprinting belt feeder；Ore automated transport system also includes controlling platform, and described control platform all electrically connects with quartering hammer, disintegrating machine, the first belt feeder, reprinting belt feeder and the second belt feeder.The technical scheme that this utility model provides is intended to reduce the human cost of mining firm.

Description

Ore automated transport system

Technical field

This utility model relates to field of mining, is specifically related to a kind of Ore automated transport system.

Background technology

Existing mining transports Ore by mine locomotive, steel wire rope or mining belt conveyor mostly, although Means of transportation achieves automatization, but Ore from Pass drawing to entering ore storage bin, whole flow process also needs to be equipped with multiple personnel Operating post has coordinated, and working performance is relatively low, and makes mining firm's human cost higher.

Utility model content

Main purpose of the present utility model is to provide a kind of Ore automated transport system, it is intended to reduce the manpower of mining firm Cost.

Draw area that the Ore automated transport system that for achieving the above object, the utility model proposes includes setting gradually, First belt feeder, reprinting belt feeder, sieve mining area, the second belt feeder and ore storage bin；Described draw area includes that the drop shaft set gradually is put down Platform, quartering hammer, the first drop shaft and disintegrating machine, described first belt feeder is located at below disintegrating machine；Described sieve mining area includes two second Drop shaft, two second drop shafts are respectively in order to rich ore and the lean ore of circulating, corresponding two second drop shafts of two ends difference of described reprinting belt feeder Well head；Ore automated transport system also includes controlling platform, described control platform and quartering hammer, disintegrating machine, the first belt feeder, turns Carry belt feeder and the second belt feeder all electrically connects.

Preferably, in described first drop shaft, it is provided with level-sensing device and vibration ore dumping machine, and described vibration ore dumping machine is located at first Bottom drop shaft, described vibration ore dumping machine and level-sensing device all electrically connect with control platform.

Preferably, described vibration ore dumping machine is provided with converter.

Preferably, described reprinting belt feeder includes the motor of Double-directional rotary, in order to carry rich ore and lean ore respectively.

Preferably, described first belt feeder is provided with misalignment sensor, stay guard and protective device against longitudinal tear, institute State misalignment sensor, stay guard and protective device against longitudinal tear all to electrically connect with control platform.

Preferably, described second belt feeder is provided with skidding sensor, and described skidding sensor electrically connects with controlling platform.

Preferably, the setting direction of the conveyer belt of described first belt feeder and the second belt feeder is obliquely.

Preferably, the delivered length of described first belt feeder is more than the delivered length of described second belt feeder.

Preferably, described ore storage bin is divided into rich ore ore storage bin and lean ore ore storage bin.

Preferably, it is equipped with level-sensing device in described rich ore ore storage bin and lean ore ore storage bin.

In technical solutions of the utility model, described Ore automated transport system includes controlling platform, and controls platform with broken Broken hammer, disintegrating machine, the first belt feeder, loading belt feeder and the electrical connection of the second belt feeder so that staff is by controlling platform Can control the Ore whole flow process from drop shaft to ore storage bin, it is not necessary to operating post is additionally set, save mining firm's manpower and become This；And when in Ore automated transport system arbitrary flow process break down, staff by control platform can stop whole in time Working on of individual Ore automated transport system, improves the operating efficiency of staff.

Accompanying drawing explanation

In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, below will be to embodiment Or the required accompanying drawing used is briefly described in description of the prior art, it should be apparent that,

Accompanying drawing in describing below is only embodiments more of the present utility model, comes for those of ordinary skill in the art Say, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to the structure shown in these accompanying drawings.

Fig. 1 is the structural representation of this utility model Ore automated transport system one embodiment.

Drawing reference numeral illustrates:

The realization of this utility model purpose, functional characteristics and advantage will in conjunction with the embodiments, are described further referring to the drawings.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the present utility model rather than all Embodiment.Based on the embodiment in this utility model, those of ordinary skill in the art are not making creative work premise Lower obtained every other embodiment, broadly falls into the scope of this utility model protection.

It is to be appreciated that directional instruction (such as up, down, left, right, before and after ...) in this utility model embodiment It is only used for explanation relative position relation under a certain particular pose (as shown in drawings) between each parts, motion conditions etc., as When really this particular pose changes, then directionality instruction changes the most therewith.

It addition, such as relating to the description of " first ", " second " etc. is only used for describing purpose in this utility model, and can not manage Solve as instruction or imply its relative importance or the implicit quantity indicating indicated technical characteristic.Thus, define " the One ", the feature of " second " can express or implicitly include at least one this feature.In description of the present utility model, " many Individual " it is meant that at least two, such as two, three etc., unless otherwise expressly limited specifically.

In this utility model, unless otherwise clearly defined and limited, term " connects ", " fixing " etc. should do broad sense reason Solving, such as, " fixing " can be fixing connection, it is also possible to is to removably connect, or integral；Can be to be mechanically connected, it is possible to To be electrical connection；Can be to be joined directly together, it is also possible to be indirectly connected to by intermediary, can be the connection of two element internals Or the interaction relationship of two elements, unless otherwise clear and definite restriction.For the ordinary skill in the art, permissible Understand above-mentioned term concrete meaning in this utility model as the case may be.

It addition, the technical scheme between each embodiment of this utility model can be combined with each other, but must be with ability Based on territory those of ordinary skill is capable of, when technical scheme combination occur conflicting maybe cannot realize time will be understood that The combination of this technical scheme does not exists, the most not within the protection domain that this utility model requires.

The utility model proposes a kind of Ore automated transport system.

Refer to Fig. 1, in this utility model one embodiment, this Ore automated transport system, including putting of setting gradually Mining area the 10, first belt feeder 20, reprinting belt feeder 30, sieve mining area the 40, second belt feeder 50 and ore storage bin 60；Described draw area 10 wraps Including drop shaft platform 11, quartering hammer the 12, first drop shaft 13 and the disintegrating machine 14 set gradually, described first belt feeder 20 is located at broken Below machine 14；Described sieve mining area 40 includes two second drop shafts 41, and two second drop shafts 41 are respectively in order to rich ore and the lean ore of circulating, described Reprint the most corresponding two second drop shaft 41 well heads in two ends of belt feeder 30；Ore automated transport system also includes controlling platform 70, Described control platform 70 and quartering hammer 12, disintegrating machine the 14, first belt feeder 20, reprinting belt feeder 30 and second belt feeder 50 all electricity Connect.

Described Ore automated transport system includes controlling platform 70, and control platform 70 and quartering hammer 12, disintegrating machine 14, the One belt feeder 20, loading belt feeder 30 and the second belt feeder 50 electrically connect so that staff is that is controlled by controlling platform 70 Ore processed is from the whole flow process of drop shaft platform 11 to ore storage bin 60, it is not necessary to additionally arrange operating post, and whole process realizes automatization Controlling, the signal concentrated collection of all devices, to controlling platform 70, is uniformly coordinated whole Ore by control platform 70 and automatically transports Communication system, is greatly saved the human cost of mining firm, also improves the Ore Transportation efficiency of mining firm；And work as Ore certainly In dynamic transportation system, any appliance breaks down, and staff can stop whole Ore in time by control platform 70 and automatically transport Working on of communication system, improves the automatization of the transportation system of mining firm's Ore, also makes Ore automated transport system More intelligent.

Further, level-sensing device 131 and vibration ore dumping machine 132, and described stop vibratory ore-drawing it are provided with in described first drop shaft 13 Machine 132 is located at bottom the first drop shaft 13, and described vibration ore dumping machine 132 and level-sensing device 131 all electrically connect with control platform 70.

Ore height in first drop shaft 13 can be measured by described level-sensing device 131, and is fed back by real-time measurements To controlling platform 70 so that staff can know height and the capacity of Ore in the first drop shaft 13 in time, and then when first slips When mine-containing amount is bigger in well 14, the ore drawing amount of drop shaft platform 11 can be reduced, it is to avoid Ore supersaturation occurs in the first drop shaft 13 Situation and hinder Ore to circulate downwards, it is ensured that in described first drop shaft 13 Ore circulation smooth and easy.Preferably, described level-sensing device 131 For ultrasonic material level detection unit 131 or radar level gauge 131 or Plumb-bob Material Level Meter 131.

The vibration ore dumping machine 132 arranged bottom described first drop shaft 13 controls the releasing of Ore, energy by vibrating motor In effectively reducing described first drop shaft 13, the situation such as Ka Kuang, suspended arch occurs, it is ensured that in described first drop shaft 13, Ore ore removal is uniform And it is easy to control.Preferably, described vibration ore dumping machine 132 is provided with converter, and described converter can effectively control vibration ore dumping machine 132 Motor speed and torque, and then the frequency of vibration of vibration ore dumping machine 132 can be controlled, be further ensured that described first drop shaft 13 Ore circulation is smooth and easy.

Further, described reprinting belt feeder 30 includes the motor (not shown) of Double-directional rotary, and described motor is by rotating forward With reversion respectively in order to transport rich ore and lean ore；Described sieve mining area 40 includes circulating two second drop shafts of rich ore and lean ore 42, the second drop shaft 42 well head described in corresponding two is distinguished at the two ends of described reprinting belt feeder 30.In the present embodiment, described reprinting belt In order to transport rich ore when machine 30 rotates forward, described rich ore is circulated into described second belt feeder 50 by the second drop shaft 42 described in；Institute Stating when reprinting belt feeder 40 inverts in order to transport lean ore, described lean ore is circulated into described second by another described second drop shaft 42 Belt feeder 50, the setting of described reprinting belt feeder 50 makes Ore Transportation system be not required to the most manually to sieve ore deposit, improve further The work efficiency of mining firm.

Further, described first belt feeder 20 is provided with misalignment sensor 21, stay guard 22 and longitudinal tear guarantor Protection unit 23, described misalignment sensor 21, stay guard 22 and protective device against longitudinal tear 23 are all electric with control platform 70 Connect.

The sideslip situation of the conveyer belt of the first belt feeder 20 can be monitored by described misalignment sensor 21, when conveyer belt runs Time partially, described misalignment sensor 21 output low level signal is to controlling platform 70, and staff can be in time by controlling platform 70 Start described stay guard 22, cut off the control power supply of the first belt feeder 20, it is achieved emergency shutdown, it is ensured that Ore normal Transport, simultaneously protection equipment safety.Preferably, described misalignment sensor 21 is installed quantity and is not limited, and is and is connected in parallel.

When the conveyer belt of described first belt feeder 20 is penetrated by foreign body or during the situation such as conveyer belt generation tear, described longitudinal direction The sensor output electrical signals of tearing protective device 23 is to controlling platform 70, and staff can control in time by controlling platform 70 The shutdown of described first belt feeder 20, prevents the continuation of the first belt feeder 20 conveyer belt from damaging, and protects equipment safety.

Further, described second belt feeder 50 is provided with skidding sensor 51, described skidding sensor 51 and control platform 70 electrical connections.Described skidding sensor 51 can monitor the transfer rate of described second belt feeder 50 conveyer belt, when conveyer belt occurs Stall or hypervelocity time, described skidding sensor 51 export the signal of telecommunication to control platform 70, staff by control platform can and Time control the emergency shutdown of described second belt feeder 50, it is ensured that equipment safety.Preferably, described second belt feeder 50 also includes running Sensor 21, stay guard 22 and protective device against longitudinal tear 23 partially.

Preferably, the setting direction of the conveyer belt of described first belt feeder 20 and the second belt feeder 50 is obliquely, enters And make described first belt feeder 20 and lower other equipment that can arrange of the second belt feeder 50 so that described Ore automatic transportation The layout of system is more reasonable.

Preferably, the delivered length of described first belt feeder 20 is more than the delivered length of described second belt feeder 50.

Further, described ore storage bin 60 is divided into rich ore ore storage bin 60 and lean ore ore storage bin 60.Described Ore automated transport system is also Including the 3rd belt feeder (sign), described 3rd belt feeder one end connects the second belt feeder 50, and the other end connects an ore storage bin 60. In the present embodiment, described 3rd belt feeder is in order to carry lean ore to lean ore ore storage bin 60, and described rich ore ore storage bin 60 is located at described second One end of neighbouring 3rd belt feeder of belt feeder 50.

Preferably, being equipped with level-sensing device 131 in described rich ore ore storage bin 60 and lean ore ore storage bin 60, described level-sensing device 131 can be real Time monitor the Chu Kuangliang of Ore in described ore storage bin 60, prevent ore storage bin 60 from the situation of supersaturation occurring.

The foregoing is only preferred embodiment of the present utility model, not thereby limit the scope of the claims of the present utility model, Every under inventive concept of the present utility model, the equivalent structure utilizing this utility model description and accompanying drawing content to be made becomes Change, or directly/be indirectly used in other relevant technical fields and be included in scope of patent protection of the present utility model.

Claims (10)

1. an Ore automated transport system, it is characterised in that include the draw area set gradually, the first belt feeder, reprint skin Band machine, sieve mining area, the second belt feeder and ore storage bin；Drop shaft platform that described draw area includes setting gradually, quartering hammer, the first drop shaft And disintegrating machine, described first belt feeder is located at below disintegrating machine；Described sieve mining area includes two second drop shafts, and two second drop shafts are respectively In order to rich ore and the lean ore of circulating, the most corresponding two second drop shaft well heads in the two ends of described reprinting belt feeder；Ore automatic transportation system System also includes controlling platform, described control platform and quartering hammer, disintegrating machine, the first belt feeder, reprinting belt feeder and the second belt Machine all electrically connects.

2. Ore automated transport system as claimed in claim 1, it is characterised in that be provided with in described first drop shaft level-sensing device and Vibration ore dumping machine, and described vibration ore dumping machine is located at bottom the first drop shaft, described vibration ore dumping machine and level-sensing device all with control flat Platform electrically connects.

3. Ore automated transport system as claimed in claim 2, it is characterised in that described vibration ore dumping machine is provided with frequency conversion Device.

4. Ore automated transport system as claimed in claim 1, it is characterised in that described reprinting belt feeder includes Double-directional rotary Motor, in order to carry rich ore and lean ore respectively.

5. Ore automated transport system as claimed in claim 1, it is characterised in that described first belt feeder is provided with sideslip sensing Device, stay guard and protective device against longitudinal tear, described misalignment sensor, stay guard and protecting longitudinal rupture dress Put and all electrically connect with control platform.

6. the Ore automated transport system as described in arbitrary in claim 1-5, it is characterised in that described second belt feeder is provided with Skidding sensor, described skidding sensor electrically connects with controlling platform.

7. the Ore automated transport system as described in arbitrary in claim 1-5, it is characterised in that described first belt feeder and The setting direction of the conveyer belt of two belt feeders is obliquely.

8. Ore automated transport system as claimed in claim 7, it is characterised in that the delivered length of described first belt feeder is big Delivered length in described second belt feeder.

9. the Ore automated transport system as described in arbitrary in claim 1-5, it is characterised in that described ore storage bin is divided into rich ore ore deposit Storehouse and lean ore ore storage bin.

10. Ore automated transport system as claimed in claim 9, it is characterised in that in described rich ore ore storage bin and lean ore ore storage bin It is equipped with level-sensing device.