CN205774608U

CN205774608U - A kind of steel-making tailings resource reclaiming system

Info

Publication number: CN205774608U
Application number: CN201620722745.3U
Authority: CN
Inventors: 杨东海; 杨立武
Original assignee: Individual
Current assignee: Individual
Priority date: 2016-07-11
Filing date: 2016-07-11
Publication date: 2016-12-07
Anticipated expiration: 2026-07-11

Abstract

The utility model discloses a kind of steel-making tailings resource reclaiming system, this utility model passes through appropriate design, jaw crusher, impact crusher and three kinds of specification particle diameter tailings of vibrosieve output can be passed through, wherein particle diameter is the tailings of 10mm 15mm and tailings that particle diameter is 4.75mm 10mm may be used for the coarse aggregate in concrete mix, particle diameter is that the tailings of 0 4.75mm can be with the fine aggregate in concrete mix, and the tailings of three kinds of particle diameters can be also used for blending and enters clinker；Magneticly elect slag fine powder by dry-dressing machine, return smelting iron and steel system and again smelt recovery metallic iron；By tramp iron separator output granule steel, further such that tailings resource reclaims the product of output more economic worth；This utility model is turned waste into wealth, the problem both having solved environmental pollution, the problem solving again the wasting of resources.

Description

A kind of steel-making tailings resource reclaiming system

Technical field

This utility model relates to secondary resource reclaimer technical field, especially relates to a kind of steel-making tailings resource and returns Receipts utilize system.

Background technology

Slag is the slag that steel-making is discharged, and is divided into vessel slag, open hearth slag and electroslag according to the type of furnace；Output, is about crude steel and produces The 15%～20% of amount；Mainly it is made up of the oxide of calcium, ferrum, silicon, magnesium and a small amount of aluminum, manganese, phosphorus etc.；Main mineral facies are silicon Acid DFP, dicalcium silicate, monticellite, calcium and magnesium rhodonite, calcium aluminoferrite and silicon, magnesium, ferrum, manganese, the oxide shape of phosphorus The solid solution become, possibly together with a small amount of free calcium oxide and metallic iron, fluor-apatite etc..Some areas because of Ore titaniferous and vanadium, Slag the most slightly contains these compositions.In slag, the content of various compositions is because of the steel-making type of furnace, steel grade and every stove steel smelting stage Difference, have bigger difference.

At present, iron and steel enterprise is many can use ore-dressing technique to reclaim part ferrum in slag, two kinds of products of output: slag selects high-grad iron ore deposit And tailings, wherein slag selects high-grad iron ore deposit to return smelting system, continues to reclaim metallic iron therein, and remaining tailings not yet has economy Reasonably mostly processing mode, be to store up at present, both polluted environment, wasted again resource.

Therefore, how providing a set of system that can effectively recycle steel-making tailings is people in the art Member needs badly and solves the technical problem that.

Utility model content

The purpose of this utility model is to provide a kind of steel-making tailings resource reclaiming system, and this system can will be refined Steel tailings is processed into multiple useful products, is applied to the industry such as cement and building, and the product of Partial Species can also return steel Ferrum smelting system is smelted again, to reclaim metallic iron therein, has higher practicality and economy.

For solving above-mentioned technical problem, the technical scheme that this utility model provides is:

A kind of steel-making tailings resource reclaiming system, including the jaw crusher for tailings carries out coarse crushing；

Also include the impact crusher for tailings being carried out broken shaping；

Also include No. 1 vibration for the tailings of the 15mm rank particle diameter of described impact crusher output is sieved Sieve, for No. 2 vibrosieves that the tailings of the 10mm rank particle diameter of described impact crusher output is sieved, for institute The tailings of the 4.75mm rank particle diameter stating impact crusher output carries out No. 3 vibrosieves sieved；

Also include for containing No. 1 feed bin that particle diameter is 10mm-15mm tailings, being 4.75mm-10mm for containing particle diameter No. 2 feed bins of tailings, for containing No. 3 feed bins that particle diameter is 0-4.75mm tailings；

Also include the tailings after broken shaping is carried out No. 1 dry-dressing machine of magnetic separation output slag fine powder, No. 2 dry-dressing machines and No. 3 dry-dressing machines；

At also including that several are to the tailings after described No. 1 dry-dressing machine, No. 2 dry-dressing machines and No. 3 dry-dressing machine magnetic separation The tramp iron separator of reason output granule steel；

Also include the charging aperture for the tailings after described jaw crushing crusher machine being delivered to described impact crusher No. 0 belt-conveying unit；

Also include the 1A belt conveyer for the tailings of described impact crusher output being delivered to No. 1 vibrosieve Group, for the oversize of described No. 1 vibrosieve being returned the 1B belt-conveying of the charging aperture delivering to described impact crusher Unit；

Also include the 2A belt-conveying unit for the siftage of described No. 1 vibrosieve being delivered to described No. 2 vibrosieves, For the oversize of described No. 2 vibrosieves being delivered to the 2B belt-conveying unit of described No. 1 dry-dressing machine, being used for described No. 1 Tailings after dry-dressing machine magnetic separation delivers to the 2C belt-conveying unit of described No. 1 feed bin；

Also include the 3A belt-conveying unit for the siftage of described No. 2 vibrosieves being delivered to described No. 3 vibrosieves, For the oversize of described No. 3 vibrosieves being delivered to the 3B belt-conveying unit of described No. 2 dry-dressing machines, being used for described No. 2 Tailings after dry-dressing machine magnetic separation delivers to the 3C belt-conveying unit of described No. 2 feed bins, for by under the sieve of described No. 3 vibrosieves Thing delivers to the 3E belt-conveying unit of described No. 3 dry-dressing machines, described for being delivered to by the tailings after described No. 3 dry-dressing machine magnetic separation The 3F belt-conveying unit of No. 3 feed bins；

The feed end of described No. 0 belt conveyer is arranged at the lower section of the discharging opening of described jaw crusher, described No. 0 skin Discharge end with transport unit is arranged at the top of the charging aperture of described impact crusher；

The feed end of described 1A belt-conveying unit is arranged at the lower section of the feed opening of described impact crusher, described The discharge end of 1A belt-conveying unit is arranged at the top of the sieve plate of described No. 1 vibrosieve, the sieve plate of described No. 1 vibrosieve from High to Low it is obliquely installed, and the low side of the sieve plate of described No. 1 vibrosieve is arranged at the feed end of described 1B belt-conveying unit Top, the discharge end of described 1B belt-conveying unit is arranged at the top of the charging aperture of described impact crusher；

The feed end of described 2A belt-conveying unit is arranged at the lower section of the sieve plate of described No. 1 vibrosieve, described No. 2A The discharge end of belt-conveying unit is arranged at the top of the sieve plate of described No. 2 vibrosieves, the sieve plate of described No. 2 vibrosieves from height to Low dip is arranged, and the low side of the sieve plate of described No. 2 vibrosieves is arranged at feed end upper of described 2B belt-conveying unit Side, the discharge end of described 2B belt-conveying unit is arranged at the top of the charging aperture of described No. 1 dry-dressing machine, described 2C belt The feed end of transport unit is arranged at the lower section of the discharging opening of described No. 1 dry-dressing machine, the discharging of described 2C belt-conveying unit End is arranged at the top of the charging aperture of described No. 1 feed bin, and the top of the belt of described 2C belt-conveying unit is unsettled to be provided with At least one tramp iron separator；

The feed end of described 3A belt-conveying unit is arranged at the lower section of the sieve plate of described No. 2 vibrosieves, described No. 3A The discharge end of belt-conveying unit is arranged at the top of the sieve plate of described No. 3 vibrosieves, the sieve plate of described No. 3 vibrosieves from height to Low dip is arranged, and the low side of the sieve plate of described No. 3 vibrosieves is arranged at feed end upper of described 3B belt-conveying unit Side, the discharge end of described 3B belt-conveying unit is arranged at the top of the charging aperture of described No. 2 dry-dressing machines, described 3C belt The feed end of transport unit is arranged at the lower section of the discharging opening of described No. 2 dry-dressing machines, the discharging of described 3C belt-conveying unit End is arranged at the top of the charging aperture of described No. 2 feed bins, and the top of the belt of described 3C belt-conveying unit is unsettled to be provided with At least one tramp iron separator；

The feed end of described 3E belt-conveying unit is arranged at the lower section of the sieve plate of described No. 3 vibrosieves, described No. 3E The discharge end of belt-conveying unit is arranged at the top of the charging aperture of described No. 3 dry-dressing machines, described 3F belt-conveying unit Feed end is arranged at the lower section of the discharging opening of described No. 3 dry-dressing machines, and the discharge end of described 3F belt-conveying unit is arranged at described 3 The top of the charging aperture of number feed bin.

Preferably, described impact crusher also includes metal ball feedway；

Described metal ball feedway includes that metal ball storage tank, the bottom of described metal ball storage tank are provided with for described Impact crusher charging aperture supply metal ball oscillating feeder, the outlet of described oscillating feeder by metal hose with And only charging aperture with the impeller of described impact crusher connects.

Preferably, described metal ball is steel ball or iron ball.

Preferably, the sphere diameter of described metal ball is 30mm～45mm.

Preferably, centered by described impact crusher, charging and annular waterfall drop into the double feed mode of material.

Compared with prior art, this utility model provides a kind of steel-making tailings resource reclaiming system, this practicality Novel pass through appropriate design, it is possible to be 10mm-15mm by jaw crusher, impact crusher and vibrosieve output particle diameter Tailings, particle diameter is the tailings of 4.75mm-10mm and particle diameter is the tailings of 0-4.75mm, and wherein particle diameter is 10mm-15mm's Tailings and the tailings that particle diameter is 4.75mm-10mm may be used for building the coarse aggregate in concrete mix in building industry, Replacing part stone, particle diameter is that the tailings of 0-4.75mm may be used for building the thin collection in concrete mix in building industry Material, replaces part sand, and the tailings of three kinds of particle diameters can be also used for blending and enters clinker, to produce cement；Pass through dry-dressing machine Magneticly elect slag fine powder, return smelting iron and steel system and again smelt recovery metallic iron；By tramp iron separator output granule steel, further Tailings resource is made to reclaim the product of output more economic worth；Steel-making tailings is recycled by this utility model, produces Go out the tailings of above-mentioned 10mm-15mm, particle diameter be the tailings of 4.75mm-10mm, particle diameter be the tailings of 0-4.75mm, slag fine powder And granule steel, turn waste into wealth, the problem both having solved environmental pollution, the problem solving again the wasting of resources.

Accompanying drawing explanation

The structural representation of the steel-making tailings resource reclaiming system that Fig. 1 provides for this utility model embodiment.

Detailed description of the invention

For making the purpose of this utility model embodiment, technical scheme and advantage clearer, new below in conjunction with this practicality Accompanying drawing in type embodiment, is clearly and completely described the technical scheme in this utility model embodiment, it is clear that retouched The embodiment stated is a part of embodiment of the present utility model rather than whole embodiments.Based on the reality in this utility model Execute example, the every other embodiment that those of ordinary skill in the art are obtained on the premise of not making creative work, all Belong to the scope of this utility model protection.

In description of the present utility model, it is to be understood that term " " center ", " axially ", " radially ", " longitudinally ", " horizontal stroke To ", " length ", " width ", " on ", D score, "front", "rear", "left", "right", " 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, are for only for ease of description This utility model and simplification describe rather than indicate or imply that the device of indication or element must have specific orientation, Yi Te Fixed azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.

Reference Fig. 1, Fig. 1 show for the structure of the steel-making tailings resource reclaiming system that this utility model embodiment provides It is intended to.

This utility model provides a kind of steel-making tailings resource reclaiming system, including for tailings is carried out coarse crushing Jaw crusher；

Also include No. 1 vibration for the tailings of the 15mm rank particle diameter of described impact crusher output is sieved Sieve, for No. 2 vibrosieves that the tailings of the 10mm rank particle diameter of described impact crusher output is sieved, for institute The tailings of the 4.75mm rank particle diameter stating impact crusher output carries out No. 3 vibrosieves sieved；Herein, for described punching The tailings of the 15mm rank particle diameter of impact crusher output sieves, it is intended that the slot size on the sieve plate of No. 1 vibrosieve is full Particle diameter is remained with the form of oversize by foot more than or equal to the tailings of 15mm, by the tailings less than 15mm with the shape of siftage Formula remains, and the tailings of 10mm rank particle diameter is sieved by remaining, sieves the tailings of 4.75mm rank particle diameter Look like same as described above；

Also include the 1A belt conveyer for the tailings of described impact crusher output being delivered to No. 1 vibrosieve Group,

For the oversize of described No. 1 vibrosieve being returned the 1B belt of the charging aperture delivering to described impact crusher Transport unit；

The feed end of described No. 0 belt conveyer is arranged at the lower section of the discharging opening of described jaw crusher, described No. 0 skin Discharge end with transport unit is arranged at the top of the charging aperture of described impact crusher；Herein it is meant that No. 0 belt conveyer The discharge end of group is arranged at the top of the charging aperture of described impact crusher to realize the tailings discharging from No. 0 belt conveyer Make a clean sweep of this purpose of charging aperture dropping down onto impact crusher, in real world applications, in most cases, No. 0 belt-conveying unit Discharge end is unsettled above the charging aperture of impact crusher, tailings from the discharge end free-falling of No. 0 belt conveyer to The charging aperture of impact crusher, constitutes successive complete tailings transport model；Belt conveyer hereinafter with shake The connection arrangement of dynamic sieve, is connected arrangement between belt conveyer with belt conveyer, and belt conveyer with Connection arrangement between feed bin is identical with the connection arrangement of impact crusher with No. 0 above-mentioned belt conveyer； When relating to belt conveyer, in view of the version that belt conveyer is special, the feed end of belt conveyer is respectively positioned on upstream The lower section of device discharging opening with facilitate material free-falling to the belt of belt conveyer, the equal position of discharge end of belt conveyer In the top of downstream unit charging aperture to facilitate material free-falling in downstream unit；

This utility model is to above-mentioned jaw crusher, impact crusher, vibrosieve, belt conveyer and feed bin Structure and type are not particularly limited, and use corresponding the said equipment of the prior art to meet above-mentioned functions.Illustrate a bit, Belt-conveying unit in this utility model, such as No. 0 belt-conveying unit, can only include a belt conveyer, it is possible to To include a plurality of belt conveyer, such as: belt-conveying unit potentially includes a main belt conveyer, some shorter with The reversing belt transporter of the belt conveyer linking of its upstream and downstream, some shorter by the material on a belt conveyer Send to the shunting belt conveyer at least two downstream belt conveyers, and some shorter by least two belts What the material on transporter was aggregated on a belt conveyer collects belt conveyer, and enterprise is according to the place bar at oneself scene Part, required design.

In an embodiment of the present utility model, above-mentioned impact crusher includes feed hopper, material separating disc, impeller, whirlpool Dynamic crusher chamber, material scraper, mesh division board, motor, base, actuating device, support, lubricating system, be provided with anti-in Turbulent chamber Play backplate.When centered by impact crusher, charging drops into the double feed mode of material with annular waterfall, its operation principle substantially: former Material falls in the feed hopper of impact crusher, is divided into two stock materials by material separating disc, and wherein a stock-traders' know-how material separating disc enters high speed rotating Impeller, another strand falls from the surrounding of material separating disc；Entering the material of impeller, accelerated rapidly in impeller, its acceleration can Reaching decades of times acceleration of gravity, then in impeller, impelling is gone out at a high speed, first with by another of material separating disc surrounding freely falling body The mutual impact grinding of partial material, then impacts together after the two mixing on the bounce-back backplate of Turbulent chamber, sends out herein Raw bounce-back, changed course impacts the top of Turbulent chamber obliquely, and changed course deflection moves downward again, throws with from impeller channel again The material impacting shot out forms continuous print material curtain；So, one block of material in Turbulent chamber by twice to repeatedly rushing Hitting shock, rub and grind fragmentation, the material being broken falls into screening plant and carries out sieve classification.

In an embodiment of the present utility model, above-mentioned impact crusher also includes metal ball feedway；Described Metal ball feedway includes that metal ball storage tank, the bottom of described metal ball storage tank are provided with for described impact crusher Charging aperture supply metal ball oscillating feeder, the outlet of described oscillating feeder by metal hose with and only with described punching The charging aperture connection of the impeller of impact crusher；This patent, arranges metal ball feedway, and the outlet of described oscillating feeder By metal hose with and only charging aperture with the impeller of described impact crusher connect, be only added to metal ball enter impeller In tailings stream stock in, in impeller, metal ball is spun up with tailing particles one piece, at different size of centrifugal action Under, there is mutually collision and friction between metal ball and tailing particles, tailing particles is carried out broken and shaping；Then metal ball Being gone out by impelling from the opening of impeller with tailing particles one piece, fallen additionally one tailings rushes with on material separating disc Break up broken, do not only have the impact grinding process of stone-crash-stone, the impact grinding process of the most stable stone, it should be apparent that, phase Ratio is in stone-crash-stone, and stable stone has higher crushing efficiency and crushing effect；At the two of above-mentioned priority generation, broken and friction, aobvious Improve crushing efficiency and the crushing effect of impact crusher with writing.

In an embodiment of the present utility model, described metal ball is steel ball or iron ball.

In an embodiment of the present utility model, the sphere diameter of described metal ball is 30mm～45mm.

In an embodiment of the present utility model, centered by described impact crusher, charging drops into material pair with annular waterfall Feed mode.

The method and apparatus of the most detailed description of this utility model is prior art, repeats no more.

Principle of the present utility model and embodiment are set forth by specific embodiment used herein, above enforcement The explanation of example is only intended to help to understand method of the present utility model and core concept thereof.It should be pointed out that, for the art Those of ordinary skill for, on the premise of without departing from this utility model principle, it is also possible to this utility model is carried out some Improving and modify, these improve and modification also falls in this utility model scope of the claims.

Claims

1. a steel-making tailings resource reclaiming system, it is characterised in that include the jaw for tailings being carried out coarse crushing Disintegrating machine；

Also include No. 1 vibrosieve for the tailings of the 15mm rank particle diameter of described impact crusher output is sieved, For No. 2 vibrosieves that the tailings of the 10mm rank particle diameter of described impact crusher output is sieved, for described The tailings of the 4.75mm rank particle diameter of impact crusher output carries out No. 3 vibrosieves sieved；

Also include for containing No. 1 feed bin that particle diameter is 10mm-15mm tailings, being 4.75mm-10mm tailings for containing particle diameter No. 2 feed bins, for containing No. 3 feed bins that particle diameter is 0-4.75mm tailings；

Also include the tailings after broken shaping carries out No. 1 dry-dressing machine of magnetic separation output slag fine powder, No. 2 dry-dressing machines and No. 3 Dry-dressing machine；

Also include that the tailings after described No. 1 dry-dressing machine, No. 2 dry-dressing machines and No. 3 dry-dressing machine magnetic separation is carried out processing by several to produce Go out the tramp iron separator of granule steel；

Also include No. 0 of charging aperture for the tailings after described jaw crushing crusher machine being delivered to described impact crusher Belt-conveying unit；

Also include for the tailings of described impact crusher output being delivered to the 1A belt-conveying unit of No. 1 vibrosieve, use In the 1B belt-conveying unit that the oversize of described No. 1 vibrosieve is returned the charging aperture delivering to described impact crusher；

Also including the 2A belt-conveying unit for the siftage of described No. 1 vibrosieve being delivered to described No. 2 vibrosieves, being used for The oversize of described No. 2 vibrosieves is delivered to the 2B belt-conveying unit of described No. 1 dry-dressing machine, is used for described No. 1 dry separation Tailings after machine magnetic separation delivers to the 2C belt-conveying unit of described No. 1 feed bin；

Also including the 3A belt-conveying unit for the siftage of described No. 2 vibrosieves being delivered to described No. 3 vibrosieves, being used for The oversize of described No. 3 vibrosieves is delivered to the 3B belt-conveying unit of described No. 2 dry-dressing machines, is used for described No. 2 dry separation Tailings after machine magnetic separation delivers to the 3C belt-conveying unit of described No. 2 feed bins, for being sent by the siftage of described No. 3 vibrosieves To the 3E belt-conveying unit of described No. 3 dry-dressing machines, for the tailings after described No. 3 dry-dressing machine magnetic separation is delivered to described No. 3 The 3F belt-conveying unit of feed bin；

The feed end of described No. 0 belt conveyer is arranged at the lower section of the discharging opening of described jaw crusher, described No. 0 belt fortune The discharge end of defeated unit is arranged at the top of the charging aperture of described impact crusher；

The feed end of described 1A belt-conveying unit is arranged at the lower section of the feed opening of described impact crusher, described No. 1A The discharge end of belt-conveying unit is arranged at the top of the sieve plate of described No. 1 vibrosieve, the sieve plate of described No. 1 vibrosieve from height to Low dip is arranged, and the low side of the sieve plate of described No. 1 vibrosieve is arranged at feed end upper of described 1B belt-conveying unit Side, the discharge end of described 1B belt-conveying unit is arranged at the top of the charging aperture of described impact crusher；

The feed end of described 2A belt-conveying unit is arranged at the lower section of the sieve plate of described No. 1 vibrosieve, described 2A belt The discharge end of transport unit is arranged at the top of the sieve plate of described No. 2 vibrosieves, and the sieve plate of described No. 2 vibrosieves inclines from high to low Tiltedly setting, and the low side of the sieve plate of described No. 2 vibrosieves is arranged at the top of the feed end of described 2B belt-conveying unit, institute State the top that the discharge end of 2B belt-conveying unit is arranged at the charging aperture of described No. 1 dry-dressing machine, described 2C belt-conveying The feed end of unit is arranged at the lower section of the discharging opening of described No. 1 dry-dressing machine, and the discharge end of described 2C belt-conveying unit sets Being placed in the top of the charging aperture of described No. 1 feed bin, the top of the belt of described 2C belt-conveying unit is unsettled to be provided with at least One tramp iron separator；

The feed end of described 3A belt-conveying unit is arranged at the lower section of the sieve plate of described No. 2 vibrosieves, described 3A belt The discharge end of transport unit is arranged at the top of the sieve plate of described No. 3 vibrosieves, and the sieve plate of described No. 3 vibrosieves inclines from high to low Tiltedly setting, and the low side of the sieve plate of described No. 3 vibrosieves is arranged at the top of the feed end of described 3B belt-conveying unit, institute State the top that the discharge end of 3B belt-conveying unit is arranged at the charging aperture of described No. 2 dry-dressing machines, described 3C belt-conveying The feed end of unit is arranged at the lower section of the discharging opening of described No. 2 dry-dressing machines, and the discharge end of described 3C belt-conveying unit sets Being placed in the top of the charging aperture of described No. 2 feed bins, the top of the belt of described 3C belt-conveying unit is unsettled to be provided with at least One tramp iron separator；

The feed end of described 3E belt-conveying unit is arranged at the lower section of the sieve plate of described No. 3 vibrosieves, described 3E belt The discharge end of transport unit is arranged at the top of the charging aperture of described No. 3 dry-dressing machines, the charging of described 3F belt-conveying unit End is arranged at the lower section of the discharging opening of described No. 3 dry-dressing machines, and the discharge end of described 3F belt-conveying unit is arranged at described No. 3 material The top of the charging aperture in storehouse.

Steel-making tailings resource reclaiming system the most according to claim 1, it is characterised in that described impact type crushes Machine also includes metal ball feedway；

Described metal ball feedway includes that metal ball storage tank, the bottom of described metal ball storage tank are provided with for described impact Formula disintegrating machine charging aperture supply metal ball oscillating feeder, the outlet of described oscillating feeder by metal hose with and only Connect with the charging aperture of the impeller of described impact crusher.

Steel-making tailings resource reclaiming system the most according to claim 2, it is characterised in that described metal ball is steel Ball or iron ball.

Steel-making tailings resource reclaiming system the most according to claim 2, it is characterised in that the ball of described metal ball Footpath is 30mm～45mm.

Steel-making tailings resource reclaiming system the most according to claim 2, it is characterised in that described impact type crushes Centered by machine, charging and annular waterfall drop into the double feed mode of material.