CN204588139U - Coarse crushing Ore stockpile system - Google Patents
Coarse crushing Ore stockpile system Download PDFInfo
- Publication number
- CN204588139U CN204588139U CN201520237979.4U CN201520237979U CN204588139U CN 204588139 U CN204588139 U CN 204588139U CN 201520237979 U CN201520237979 U CN 201520237979U CN 204588139 U CN204588139 U CN 204588139U
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- Prior art keywords
- belt conveyer
- ore
- stockpile
- work
- subsequent use
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Abstract
The utility model relates to a kind of coarse crushing Ore stockpile system, comprise work Ore stockpile, be located at the discharge system bottom work Ore stockpile, be located at the cloth belt conveyer above work Ore stockpile, it is characterized in that: be also provided with Ore stockpile for subsequent use, work feed belt conveyer and feed belt conveyer for subsequent use is provided with successively along its throughput direction above cloth belt conveyer material feeding end, the head funnel of work feed belt conveyer is a bifurcated funnel, a dump ore storage bin is provided with below the afterbody of cloth belt conveyer, two discharge chutes of bifurcated funnel lay respectively at the top of cloth belt conveyer and dump ore storage bin feed belt conveyer, Ore stockpile side for subsequent use is provided with row's material feeding hole, bottom, material feeding hole is provided with electric vibrating feeder, the material feeding end of feed belt conveyer for subsequent use extends to below electric vibrating feeder.It saves investment and running cost under the prerequisite ensureing the Semi-Autogenous operating rate of autogenous grinding.
Description
Technical field
The utility model relates to mine material and stores up technology, particularly a kind of coarse crushing Ore stockpile system.
Background technology
At present, autogenous grinding (Semi-Autogenous) technique is large due to the ratio of reduction, can save in small, broken bits in conventional rock processing and screening link, there is technological process short, low equipment investment, the advantage of convenient management, mine obtains and applies more and more widely.Autogenous grinding (Semi-Autogenous) technological requirement arranges a coarse crushing Ore stockpile before autogenous grinding (Semi-Autogenous) operation not to be affected follow-up for ore deposit requirement to meet coarse crushing operation maintenance.Because coarse crushing operation particularly uses gyratory crusher as coarse smash equipment, liner plate maintenance is general needs 4 days, so the coarse crushing Ore stockpile demand fulfillment subsequent job ore deposit of 4 days is measured in principle.Separately because autogenous grinding (Semi-Autogenous) job requirements feed is even, so a set of Component Mixing System will be arranged in general existing coarse crushing Ore stockpile bottom, this just requires coarse crushing Ore stockpile bottom excavation, and carry out basement process, if according to the ore deposit amount design coarse crushing Ore stockpile of 4 days, its exist stockyard excessive, invest too high problem.
Summary of the invention
The purpose of this utility model is to provide one to overcome the problems referred to above, reduces investment outlay and running cost, the coarse crushing Ore stockpile system ensureing the Semi-Autogenous operating rate of autogenous grinding.
The technical solution of the utility model is:
A kind of coarse crushing Ore stockpile system, comprise work Ore stockpile, be located at the discharge system bottom work Ore stockpile, be located at the cloth belt conveyer above work Ore stockpile, it is characterized in that: be also provided with Ore stockpile for subsequent use, a work feed belt conveyer and feed belt conveyer for subsequent use is provided with successively along its throughput direction above cloth belt conveyer material feeding end, the head funnel of described work feed belt conveyer is a bifurcated funnel, a dump ore storage bin is provided with below the afterbody of described cloth belt conveyer, dump ore storage bin feed belt conveyer is provided with between below the material feeding end of described dump ore storage bin top and cloth belt conveyer, two discharge chutes of described bifurcated funnel lay respectively at the top of cloth belt conveyer and dump ore storage bin feed belt conveyer, described Ore stockpile side for subsequent use is provided with row's material feeding hole, bottom, described material feeding hole is provided with electric vibrating feeder, the material feeding end of described feed belt conveyer for subsequent use extends to below electric vibrating feeder.
Above-mentioned coarse crushing Ore stockpile system, described work Ore stockpile is conical stockyard, and reserves are downstream operation one day ore deposit amount.
Above-mentioned coarse crushing Ore stockpile system, described Ore stockpile for subsequent use is strip stockyard, and reserves are downstream operation three days ore deposit amounts.
Above-mentioned coarse crushing Ore stockpile system, is provided with discharge sector gate below described dump ore storage bin.
The beneficial effects of the utility model are:
1, the Ore stockpile reserves that work are only the subsequent job ore deposit of day amount, have greatly saved capital expenditure and the equipment investment of coarse crushing Ore stockpile, have saved running cost;
2, by the ores lifting of Ore stockpile for subsequent use to the Ore stockpile that works, the reserves of Ore stockpile for subsequent use are the subsequent job ore deposit of 3 days amount, ensure that the operating rate of subsequent job fully, ensure that the output in ore dressing plant;
3, material feeding hole is arranged on the side of Ore stockpile for subsequent use, and Ore stockpile bottom for subsequent use is without excavation and do basement process, has saved investment.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model;
Fig. 2 is stockyard, ore deposit for subsequent use of the present utility model, material feeding is cheated and the structural representation of feed belt conveyer for subsequent use.
In figure, sequence number illustrates: 1 work Ore stockpile, 2 Ore stockpiles for subsequent use, 3 discharge systems, 4 cloth belt conveyers, 5 dump ore storage bins, 6 work feed belt conveyers, 7 feed belt conveyers for subsequent use, 8 bifurcated funnels, 9,10 discharge chutes, 11 dump ore storage bin feed belt conveyers, 12 discharge sector gates, 13 material feedings holes, 14 electric vibrating feeders.
Detailed description of the invention
As shown in Figure 1 and Figure 2, this coarse crushing Ore stockpile system, comprise work Ore stockpile 1, be located at discharge system 3 bottom work Ore stockpile 1, be located at cloth belt conveyer 4 above work Ore stockpile 1, described work Ore stockpile 1 is conical stockyard, and reserves are downstream operation one day ore deposit amount.Also be provided with Ore stockpile 2 for subsequent use, described Ore stockpile 2 for subsequent use is strip stockyard, and reserves are downstream operation three days ore deposit amounts.A work feed belt conveyer 6 and feed belt conveyer 7 for subsequent use is provided with successively along its throughput direction above cloth belt conveyer 4 material feeding end, the head funnel of described work feed belt conveyer 6 is a bifurcated funnel 8, a dump ore storage bin 5 is provided with below the afterbody of described cloth belt conveyer 4, discharge sector gate 12 is provided with below described dump ore storage bin 5, dump ore storage bin feed belt conveyer 11 is provided with between below the material feeding end of described dump ore storage bin 5 top and cloth belt conveyer 4, two discharge chutes 9 of described bifurcated funnel 8, 10 tops laying respectively at cloth belt conveyer 4 and dump ore storage bin feed belt conveyer 11, described Ore stockpile for subsequent use 2 side is provided with row's material feeding hole 13, electric vibrating feeder 14 is provided with bottom described material feeding hole 13, the material feeding end of described feed belt conveyer 7 for subsequent use extends to below electric vibrating feeder 14.
Principle of work of the present utility model is: when coarse crushing is to work Ore stockpile 1 heap ore deposit, if newly-built dump ore storage bin 5 reserves are few, then cloth belt conveyer 4 does not operate, on work feed belt conveyer 6, ore is discharged on dump ore storage bin feed belt conveyer 11 by the bifurcated funnel 8 of its head, ore is discharged into dump ore storage bin 5, till reaching full material; Then cloth belt conveyer 4 operates, and ore is discharged on cloth belt conveyer 4 by bifurcated funnel 8 by work feed belt conveyer 6, continues ore after coarse crushing to be discharged into work Ore stockpile 1; Ore loading in dump ore storage bin 5 transports Ore stockpile 2 for subsequent use to, when the Ore stockpile 1 that works is because when coarse crushing reason lacks ore deposit, the ore of Ore stockpile 2 for subsequent use is discharged into material feeding hole 13 by forklift, feed cloth belt conveyer 4 by feed belt conveyer 7 for subsequent use, ore is unloaded to work Ore stockpile 1.
Claims (2)
1. a coarse crushing Ore stockpile system, comprise work Ore stockpile, be located at the discharge system bottom work Ore stockpile, be located at the cloth belt conveyer above work Ore stockpile, it is characterized in that: be also provided with Ore stockpile for subsequent use, a work feed belt conveyer and feed belt conveyer for subsequent use is provided with successively along its throughput direction above cloth belt conveyer material feeding end, the head funnel of described work feed belt conveyer is a bifurcated funnel, a dump ore storage bin is provided with below the afterbody of described cloth belt conveyer, dump ore storage bin feed belt conveyer is provided with between below the material feeding end of described dump ore storage bin top and cloth belt conveyer, two discharge chutes of described bifurcated funnel lay respectively at the top of cloth belt conveyer and dump ore storage bin feed belt conveyer, described Ore stockpile side for subsequent use is provided with row's material feeding hole, bottom, described material feeding hole is provided with electric vibrating feeder, the material feeding end of described feed belt conveyer for subsequent use extends to below electric vibrating feeder.
2. coarse crushing Ore stockpile system according to claim 1, is characterized in that: be provided with discharge sector gate below described dump ore storage bin.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201520237979.4U CN204588139U (en) | 2015-04-20 | 2015-04-20 | Coarse crushing Ore stockpile system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201520237979.4U CN204588139U (en) | 2015-04-20 | 2015-04-20 | Coarse crushing Ore stockpile system |
Publications (1)
Publication Number | Publication Date |
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CN204588139U true CN204588139U (en) | 2015-08-26 |
Family
ID=53924316
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201520237979.4U Expired - Fee Related CN204588139U (en) | 2015-04-20 | 2015-04-20 | Coarse crushing Ore stockpile system |
Country Status (1)
Country | Link |
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CN (1) | CN204588139U (en) |
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2015
- 2015-04-20 CN CN201520237979.4U patent/CN204588139U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20150826 Termination date: 20200420 |
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CF01 | Termination of patent right due to non-payment of annual fee |