CN107297265A - A kind of vanadium titano-magnetite technology for making sand - Google Patents

Abstract

The invention discloses a kind of vanadium titano-magnetite technology for making sand, sand system processed is shaken while the technology for making sand acted on including rod milling sand system and sieve, by sorting, rod mill and combined vibrating sand making machine are broken, screw sand washer is dehydrated and circulation sub-elects the processing step such as finished product and the vanadium titano-magnetite aggregate of second-time breakage, its integrated artistic is simple in construction, breaking strength is big, broken adequacy is good, the aggregate reclaiming effect of good ore can be realized, solve and be directed to insufficient and processed sand effect of the vanadium titano-magnetite in technology for making sand in the prior art, the problem of sand efficiency processed is not good, the design that the present invention passes through effective and reasonable structural manufacturing process, substantially increase sand efficiency processed, it ensure that the crushing effect of vanadium titano-magnetite, its energy consumption is relatively low, technology for making sand is saved.

Description

A kind of vanadium titano-magnetite technology for making sand

Technical field

The present invention relates to mining technology for making sand field, particularly a kind of vanadium titano-magnetite technology for making sand.

Background technology

In existing mine field, the broken of ore is one of important step of mine ore extraction, and ore is by broken Just the extraction of follow-up metal or nonmetallic organic or inorganic material can be facilitated after crushing, be indispensable in ore extraction Process procedure.

In China's Panxi Diqu, mineral resources enrich, and have buried a variety of mineral deposits, verified large-scale vanadium titano-magnetite, copper, 54 kinds of mineral products such as lead, zinc, tin, coal, wherein Iron Ore Reserve are Chinese 2nd big iron ore base hundred million tons about more than 60.It is big absolutely in iron ore Part is vanadium titano-magnetite, belongs to many metal mineral intergrowths.Than iron, also titanium dioxide, vanadic anhydride and chromium, scandium, cobalt, nickel, 12 kinds of non-ferrous metals such as gallium, platinum and rare metal.Can manage, Huidong County, Ganluo, the ground such as Ningnan copper, lead, zinc, tin reserves it is also big.It is expensive Metal gold also has preferable distant view.In addition, in nonmetallic minerals, limestone, dolomite, silica, griotte, graphite, crystal etc. Mineral resources are also very abundant.The Coal Mine Coal Reserve verified is up to 1,000,000,000 tons, and categories of coal is more complete, and phosphorous, sulphur and ash content are relatively low.

Wherein, vanadium titano-magnetite is not only the important sources of iron, and vanadium, titanium, chromium, cobalt, nickel, platinum family and scandium of association etc. Multicomponent, with very high comprehensive utilization value, therefore, in the exploitation of a large amount of vanadium titano-magnetite ores in this area, efficiently Ore technology for making sand be enterprise be badly in need of, existing ore technology for making sand simple system, corresponding sand effect and efficiency processed are but It is undesirable, and power consumption is big.

The content of the invention

The goal of the invention of the present invention is：For above-mentioned problem, there is provided a kind of vanadium titano-magnetite technology for making sand, knot The vertical combined vibrating sand making machine of rod mill and specific structure is closed, its structural manufacturing process is simple, and breaking strength is big, can realized good Ore aggregate reclaiming effect, solve in the prior art for insufficient in technology for making sand of the vanadium titano-magnetite and system The problem of sand effect, not good sand efficiency processed, the present invention substantially increases sand effect processed by the design of effective and reasonable structural manufacturing process Rate, it is ensured that the crushing effect of vanadium titano-magnetite, its energy consumption is relatively low, has saved technology for making sand.

The technical solution adopted by the present invention is as follows：

A kind of vanadium titano-magnetite technology for making sand of the present invention, including hopper one, hopper two, rod milling sand system and sieve shake sand system processed System；The rod milling sand system includes sealing-tape machine one, rod mill, screw sand washer one, vibratory sieve one and sealing-tape machine three；The rod The feed end of grinding machine is connected by sealing-tape machine one with the discharge end of hopper one, the charging of rod mill discharge end and screw sand washer one End connection, the discharge end of screw sand washer one is connected with the feed end of vibratory sieve one, discharge end and the sealing-tape machine three of vibratory sieve one Feed end be correspondingly arranged；The sand system processed of shaking of sieving includes sealing-tape machine two, combined vibrating sand making machine, sealing-tape machine five, spiral Sand washer two and vibratory sieve two；The feed end of the combined vibrating sand making machine is connected by the discharge end of sealing-tape machine two and hopper two Connect, connected between the discharge end of combined vibrating sand making machine and the feed end of screw sand washer two by sealing-tape machine five, screwed washing The feed end of the discharge end of sand machine two and vibratory sieve two is correspondingly arranged；The discharge end of the sealing-tape machine three and vibratory sieve two passes through Sealing-tape machine four is connected to finished product hopper；Comprise the following steps：

1）Sorting：By the vanadium titano-magnetite aggregate and 20-60mm vanadium titano-magnetite bone that are divided into 10-30mm at the beginning of vanadium titano-magnetite Material；

2）It is broken：Rod mill aggregate reclaiming will be sent into by sealing-tape machine one for 10-30mm vanadium titano-magnetite aggregate；By 20- 60mm vanadium titano-magnetite aggregate sends into aggregate reclaiming in combined vibrating sand making machine by sealing-tape machine two；

3）Dehydration：It will be carried out in the vanadium titano-magnetite feeding screw sand washer one of 20-60mm after sand processed in rod mill at dehydration Reason, is allowed to water content and is dehydrated to 10%-12%；Vanadium titano-magnetite of the combined vibrating sand making machine after broken is sent by sealing-tape machine five Enter and dewater treatment is carried out in screw sand washer two, be allowed to water content and be dehydrated to less than 12%；

4）Circulation sorting：Vibratory sieve is carried out in vanadium titano-magnetite feeding vibratory sieve one after the dewater treatment of screw sand washer one Point, below 5mm vanadium titano-magnetite is sequentially passed through into sealing-tape machine three and sealing-tape machine four is sent into finished product hopper, by more than 5mm's Carry out repeating broken in vanadium titano-magnetite feeding hopper one；Vanadium titano-magnetite after the dewater treatment of screw sand washer two is sent Enter vibratory sieve two to be sieved, below 10mm vanadium titano-magnetite is sent into hopper one by sealing-tape machine six, by more than 10mm Vanadium titano-magnetite by sealing-tape machine seven send into hopper two in, below 5mm vanadium titano-magnetite is sent into finished product through sealing-tape machine four In hopper；

5）Finished product：Vanadium titano-magnetite is finished aggregate in finished product hopper, completes sand processed.

It is further arranged to：In step 2）In, the rod mill is in shattering process, and the vanadium titano-magnetite per 1m3 needs Add 3-5 m3 water；The combined vibrating sand making machine is in shattering process, and the vanadium titano-magnetite per 1m3 needs to add 4-6 M3 water.

The vanadium titano-magnetite technology for making sand of the present invention is simple, and the combined type designed by combining rod mill and specific structure is shaken Dynamic sand making machine is acted on simultaneously, carries out sand processed and ringing to the vanadium titano-magnetite aggregate of different-grain diameter respectively so that this hair Bright vanadium titano-magnetite sand efficiency high, the chiltern amount processed of vanadium titano-magnetite is good, using the vanadium titanium for relatively large particle diameter Magnetite aggregate is crushed by combined vibrating sand making machine so that vanadium titano-magnetite aggregate can be obtained disposably fully It is broken, reduce follow-up sieve and shake and second-time breakage rate, so as to reduce the complexity of process equipment, effectively reduce energy Consumption, is that mining enterprise has saved old of production.

The vanadium titano-magnetite technology for making sand of the present invention, the combined vibrating sand making machine includes upper case, lower case and gone out Hopper；The upper case, lower case and feed box are correspondingly arranged on feeding mouth, crusher chamber and discharging opening respectively, feeding mouth, broken Chamber and discharging opening are connected in axis successively insertion from top to bottom；The crusher chamber center is provided with impeller, and impeller connects with rotating spindle Connect：The rotating spindle discharging opening is stretched into crusher chamber, and its upper end is connected with impeller, and crusher chamber and drive mechanism are stretched out in its lower end Connection；Shai Zhen mechanisms and impeller mating reaction are also associated with the lower section of impeller, the rotating shaft main shaft；In the impeller just Top is feed pipe；The feed pipe is stretched into feeding mouth by crusher chamber.

Set based on said structure, vanadium titano-magnetite technology for making sand of the invention is simple in construction, by being set below impeller Zhi Shaizhen mechanisms, the vibrations effectively produced using Shai Zhen mechanisms combination sand making machine in work process are certain to material so as to realize Screening in degree so that material can in the equivalent mutual collision of certain particle size scope, so that fragmentation power is more, More preferably, upper, middle and lower vertical structure enables material orderly broken and smooth before charging crusher chamber and discharging opening to crushing effect Discharging so that the sand making machine with respect to horizontal type structure is not susceptible to the phenomenon of feed blocking card machine and occurred, and material fully broken Broken, the material after crushing substantially has good crushing effect, substantially increases the fragmentation quality of material.

It is further arranged to：The Shai Zhen mechanisms include sieve plate, support baseboard, spring and bending connecting rod；The sieve plate with Connecting spring and bending connecting rod between support baseboard；The spring arranges that every spring correspondence is set along support baseboard even circumferential The bending connecting rod of matched effect is equipped with, bending connecting rod is also circumferentially evenly arranged；The bending connecting rod has connecting rod to pass through pin Axle is formed by connecting.

It is further arranged to：The sieve plate is circular mesh-like structure, and sieve plate is slided with rotating spindle by bearing formation Connection；The support baseboard is hollow solid annular plate, and the mistake material mouth of insertion is provided with the middle of it, and support baseboard relatively rotates master What axle was fixed is arranged in crusher chamber.

Sieve plate impeller lowest side is bonded to each other to be set, and material is fallen into the material flow path of impeller formation from charging aperture, and it is certainly Body gravity impacts sieve plate while falling, and sieve plate fluctuates in the effect of spring and bending connecting rod, and drives sieve plate overall Up-down vibration within the specific limits so that the material of smaller particle size is directly vibrated within the short time fallen on sieve plate and fallen, and The material of larger granularity then under the spinning movement of impeller, is thrown away from the runner formed between impeller blade, and in crusher chamber Collision is carried out with material and broken cavity wall and realizes the broken of material, supporting plate is relatively fixed setting, to realize that spring and bending connect The fixed position relative of bar lower end, so as to realize the reciprocating motion of sieve plate, Jin Erbao in the flexible reseting procedure for realize spring The effect of the vibrosieve of sieve plate has been demonstrate,proved, the screening of material to a certain extent has been realized, it is ensured that the uniformity of screening materials carrying, will be broken Carried out simultaneously with screening integration, greatly improve the operating efficiency that ore deposit selects technique；Bend the effective length control spring of connecting rod Maximal dilation amount, it is to avoid spring fatigue damage in long-acting process, meanwhile, the effective length of bending connecting rod also causes Oscillation distances above and below sieve plate are reasonably limited, it is ensured that the stability of the up-down vibration of sieve plate so that it is with mutually shutting down The stability of the interaction of structure part.

It is further arranged to：Also enclose provided with a sideskid in the outside of the sieve plate and support baseboard；Set on the sideskid There are chute one and chute two；The chute one is L-shaped stepped with respect to sideskid, and the entirety for sieve plate is slided up and down；It is described Chute two is U-shaped groove, the slide downward for bending bearing pin in connecting rod.

It is further arranged to：Separated between the chute one and chute two by a demarcation strip, i.e., chute one is by sideskid Upper surface extends to demarcation strip upper surface, and chute two extends to demarcation strip lower surface by sideskid bottom surface.

Further there may be the displacement of sieve plate up-down vibration and bending connecting rod to swing and carried out limit of sideskid It is fixed so that sieve plate and bending connecting rod can be moved up and down or slided in set track, further ensure that vibrating mechanism Molar behavior stability, it is ensured that the stability of the interaction between mechanism part, it is to avoid the damages of associated mechanisms parts, So that the usage cycles of vibrating mechanism are longer, its is simple in construction, and manufacture craft is simple, and using install convenient, use cost is low.

It is further arranged to：The maximum that the maximum length of the bending connecting rod is less than or equal between sieve plate and support baseboard Highly；Length of the width of the chute two slightly larger than bending connecting rod upper pin；Length under the nature of spring two is small Maximum height between sieve plate and support baseboard.The cooperation peace of the mutual size of telescoping mechanism and mobile vibrating mass mechanism member Dress, is further beneficial to the vibration screening effect of the stability of vibrating mechanism, it is to avoid between mechanism part under long term Anti-fatigue performance is reduced, and is caused the deformation of mechanism part or even is damaged.

It is further arranged to：The sieve plate and support baseboard are equipped with rotation slot and connection rotating shaft, connect for connecting bending The two ends of bar；The rotation slot is correspondingly arranged and circumferentially uniform with bending connecting rod；Clamping connection rotating shaft in the rotation slot；Institute The two ends for stating bending connecting rod are set on connection rotating shaft, and can be rotated relative to connection rotating shaft in the width range of rotation slot.

Rotation slot and connection rotating shaft on sieve plate and support baseboard have been easy to bend the relative effect of connecting rod so that bending connects The connection two ends of bar can realize a range of rotation for turning countershaft, be easy to bend the expanding-contracting action of connecting rod so that The flexibility of vibrating mechanism is good.

In summary, by adopting the above-described technical solution, the beneficial effects of the invention are as follows：

1st, vanadium titano-magnetite technology for making sand of the invention is simple in construction, and sand effect processed and sand efficiency processed are improved significantly, sand processed Power consumption is low；

2nd, using combined vibrating sand making machine so that vanadium titano-magnetite is high in the broken link crushing efficiency, and fragmentation quality is good；

3rd, with reference to the setting of Shai Zhen mechanisms, realize broken and screening and carry out simultaneously, the screening for having saved material takes, and improves Ore deposit selects technique beneficiating efficiency；

4th, the setting of Shai Zhen mechanisms also make it that vanadium titano-magnetite broken material in the vanadium titano-magnetite technology for making sand of the present invention is equal Even property is good, and material can more fully be broken, and crushing efficiency is high；

5th, vanadium titano-magnetite technology for making sand of the invention is by setting sub-material component so that it is wider using scope, and practicality is more By force；

6th, vanadium titano-magnetite technology for making sand sand stability of the invention is good；

7th, usage cycles are long.

Brief description of the drawings

Fig. 1 is the process chart of the vanadium titano-magnetite technology for making sand of the present invention；

Fig. 2 is the structural representation that combined type sieves sand making machine of shaking；

Fig. 3 is the structural representation of Shai Zhen mechanisms；

Fig. 4 is the structure schematic diagram of support baseboard；

Fig. 5 is the attachment structure schematic diagram of bending connecting rod and support baseboard；

Fig. 6 is the top view of sideskid；

Marked in figure：1- hoppers, A- hoppers one, B- hoppers two, 2- sealing-tape machines one, 3- sealing-tape machines two, 4- rod mills, 5- screwed washings Sand machine one, 6- vibratory sieves one, 7- sealing-tape machines three, 8- sealing-tape machines four, 9- combined types sieve sand making machine of shaking, and 901- feeding mouths, 902- is broken Broken chamber, 903- feed pipes, 904- impellers, 905- Shai Zhen mechanisms, 05-1- sieve plates, 05-2- support baseboards, 05-21- rotation slots, 05-22- connection rotating shafts, 05-3- crosses material mouth, 05-4- springs, 05-5- bending connecting rods, 05-6- sideskids, 05-7- chutes one, 05-8- demarcation strips, 05-9- chutes two, 906- discharging openings, 907- rotating spindles, 908- motors, 909- transmission belts, 910- belts Wheel, 10- sealing-tape machines five, 11- screw sand washers two, 12- vibratory sieves two, 13- finished product hoppers, 14- sealing-tape machines six, 15- sealing-tape machines Seven.

Embodiment

With reference to embodiment, the present invention is described in detail.

In order that the object, technical solution and advantage of invention are more clearly understood, with reference to embodiments, the present invention is entered Row is further described.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, limit is not used to The fixed present invention.

As shown in each accompanying drawing of specification, a kind of vanadium titano-magnetite technology for making sand, including be made up of the A of hopper one and the B of hopper two Hopper 1, rod milling sand system and sieve shake sand system processed；The rod milling sand system includes sealing-tape machine 1, rod mill 4, spiral Sand washer 1, vibratory sieve 1 and sealing-tape machine 37；The feed end of the rod mill 4 is gone out by the sealing-tape machine 1 and A's of hopper one Expect end connection, the discharge end of rod mill 4 is connected with the feed end of screw sand washer 1, the discharge end of screw sand washer 1 and vibration The feed end for sieving 1 is connected, and the feed end of the discharge end and sealing-tape machine 37 of vibratory sieve 1 is correspondingly arranged；It is described to sieve sand system processed of shaking System includes sealing-tape machine 23, combined vibrating sand making machine 9, sealing-tape machine 5 10, screw sand washer 2 11 and vibratory sieve 2 12；It is described The feed end of combined vibrating sand making machine 9 is connected by sealing-tape machine 23 with the B of hopper two discharge end, combined vibrating sand making machine 9 Discharge end and screw sand washer 2 11 feed end between pass through sealing-tape machine 5 10 connect, the discharge end of screw sand washer 2 11 It is correspondingly arranged with the feed end of vibratory sieve 2 12；The discharge end of the sealing-tape machine 37 and vibratory sieve 2 12 passes through sealing-tape machine 48 It is connected to finished product hopper 13；Comprise the following steps：

1）Sorting：By the vanadium titano-magnetite aggregate and 20-60mm vanadium titano-magnetite bone that are divided into 10-30mm at the beginning of vanadium titano-magnetite Material；

2）It is broken：The aggregate reclaiming of rod mill 4 will be sent into by sealing-tape machine 1 for 10-30mm vanadium titano-magnetite aggregate；By 20- 60mm vanadium titano-magnetite aggregate sends into aggregate reclaiming in combined vibrating sand making machine 9 by sealing-tape machine 23；The rod mill 4 In shattering process, the vanadium titano-magnetite per 1m3 needs to add 3-5 m3 water；The combined vibrating sand making machine 9 is broken During, the vanadium titano-magnetite per 1m3 needs to add 4-6 m3 water.

3）Dehydration：It will be carried out in the vanadium titano-magnetite feeding screw sand washer 1 of 20-60mm after sand processed in rod mill 4 Dewater treatment, is allowed to water content and is dehydrated to 10%-12%；Vanadium titano-magnetite of the combined vibrating sand making machine 9 after broken is passed through into glue Dewater treatment is carried out in the band feeding screw sand washer 2 11 of machine 5 10, water content is allowed to and is dehydrated to less than 12%；

4）Circulation sorting：Vibratory sieve is carried out in vanadium titano-magnetite feeding vibratory sieve 1 after the dewater treatment of screw sand washer 1 Point, below 5mm vanadium titano-magnetite is sequentially passed through into sealing-tape machine 37 and sealing-tape machine 48 and sent into finished product hopper 13, by 5mm with On vanadium titano-magnetite feeding hopper one A in carry out repeating broken；By the vanadium titanium after the dewater treatment of screw sand washer 2 11 Magnetic iron ore feeding vibratory sieve 2 12 is sieved, and below 10mm vanadium titano-magnetite is sent into the A of hopper one by sealing-tape machine 6 14 It is interior, more than 10mm vanadium titano-magnetite is sent into the B of hopper two by sealing-tape machine 7 15, below 5mm vanadium titano-magnetite is passed through In the feeding finished product of sealing-tape machine 48 hopper 13；

5）Finished product：Vanadium titano-magnetite is finished aggregate in finished product hopper 13, completes sand processed.

Combined vibrating sand making machine 9 in the vanadium titano-magnetite technology for making sand includes upper case, lower case and feed box；Institute State upper case, lower case and feed box and be correspondingly arranged on feeding mouth 901, crusher chamber 902 and discharging opening 906, feeding mouth respectively 901st, crusher chamber 902 and discharging opening 906 are connected in axis successively insertion from top to bottom；The center of crusher chamber 902 is provided with impeller 904, impeller 904 is connected with rotating spindle 907：The discharging opening 906 of rotating spindle 907 is stretched into crusher chamber 902, its upper end with Impeller 904 is connected, and its lower end is stretched out crusher chamber 902 and is connected with drive mechanism, and the drive mechanism includes motor 908, transmission belt 909 With belt pulley 910, belt pulley 910 is relatively fixed by key with the lower end of rotating spindle 907 and is connected, and belt pulley 910 passes through transmission belt 909 are connected with motor 908；Shai Zhen mechanisms 905 and impeller are also associated with the lower section of impeller 904, the rotating shaft main shaft 904 mating reactions；It is feed pipe 903 in the surface of the impeller 904；The feed pipe 903 is stretched into by crusher chamber 902 In feeding mouth 901.The Shai Zhen mechanisms 905 include sieve plate 05-1, support baseboard 05-2, spring 05-4 and bending connecting rod 05-5； Connecting spring 05-4 and bending connecting rod 05-5 between the sieve plate 05-1 and support baseboard 05-2；The spring 05-4 edges support bottom Plate 05-2 even circumferentials arrange that every spring 05-4 is correspondingly arranged on the bending connecting rod 05-5 of matched effect, bend connecting rod 05-5 is also circumferentially evenly arranged；The bending connecting rod 05-5 has connecting rod to be formed by connecting by bearing pin.The sieve plate 05-1 is circle Shape mesh-like structure, sieve plate 05-1 is slidably connected with rotating spindle 907 by bearing formation；The support baseboard 05-2 is hollow Solid annular plate, mistakes material mouth 05-3, support baseboard 05-2 provided with insertion relatively rotate the setting of the fixation of main shaft 907 in the middle of it In crusher chamber 902.Also enclose provided with a sideskid 05-6 in the sieve plate 05-1 and support baseboard 05-2 outside；The sideskid 05-6 is provided with the 05-7 of the chute one and 05-9 of chute two；The 05-7 of chute one is L-shaped with respect to sideskid 05-6 stepped, is used for Sieve plate 05-1 entirety is slided up and down；The 05-9 of chute two is U-shaped groove, for bend bearing pin in connecting rod 05-5 to downslide It is dynamic.Separated between the 05-7 of chute one and chute two 05-9 by a demarcation strip 05-8, i.e., the 05-7 of chute one is by sideskid 05- 6 upper surfaces extend to demarcation strip 05-8 upper surfaces, and the 05-9 of chute two extends to demarcation strip 05-8 lower ends by sideskid 05-6 bottom surfaces Face.The maximum height that the maximum length of the bending connecting rod 05-5 is less than or equal between sieve plate 05-1 and support baseboard 05-2； Length of the width of the 05-9 of chute two slightly larger than bending connecting rod 05-5 upper pins；Under the natures of spring 05-4 bis- Length is less than the maximum height between sieve plate 05-1 and support baseboard 05-2.The sieve plate 05-1 and support baseboard 05-2 are equipped with Rotation slot 05-21 and connection rotating shaft 05-22, the two ends for connecting bending connecting rod 05-5；The rotation slot 05-21 connects with bending Bar 05-5 is correspondingly arranged and circumferentially uniform；Clamping connection rotating shaft 05-22 in the rotation slot 05-21；The bending connecting rod 05- 5 two ends are set on connection rotating shaft 05-22, and can be with respect to connection rotating shaft 05-22 in rotation slot 05-21 width range Rotate.

It is described above be presently preferred embodiments of the present invention, it is every the present invention technical principle on equivalent substitution or Deleting or changing for substantial role mechanism is not influenceed so that it is same under identical structure to realize substantially similar function, Within protection scope of the present invention, therefore, the present invention should not be limited to the embodiment and accompanying drawing disclosure of that, so It is every not depart from the lower equivalent or modification completed of spirit disclosed in this invention, both fall within the scope of protection of the invention.

Claims (9)

1. a kind of vanadium titano-magnetite technology for making sand, it is characterised in that：Including hopper one（A）, hopper two（B）, rod milling sand system Shaken sand system processed with sieve；The rod milling sand system includes sealing-tape machine one（2）, rod mill（4）, screw sand washer one（5）, vibration Sieve one（6）With sealing-tape machine three（7）；The rod mill（4）Feed end pass through sealing-tape machine one（2）With hopper one（A）Discharge end Connection, rod mill（4）Discharge end and screw sand washer one（5）Feed end connection, screw sand washer one（5）Discharge end with shaking Dynamic sieve one（6）Feed end connection, vibratory sieve one（6）Discharge end and sealing-tape machine three（7）Feed end be correspondingly arranged；The sieve Sand system processed of shaking includes sealing-tape machine two（3）, combined vibrating sand making machine（9）, sealing-tape machine five（10）, screw sand washer two（11）With Vibratory sieve two（12）；The combined vibrating sand making machine（9）Feed end pass through sealing-tape machine two（3）With hopper two（B）Discharging End connection, combined vibrating sand making machine（9）Discharge end and screw sand washer two（11）Feed end between pass through sealing-tape machine five （10）Connection, screw sand washer two（11）Discharge end and vibratory sieve two（12）Feed end be correspondingly arranged；The sealing-tape machine three （7）With vibratory sieve two（12）Discharge end pass through sealing-tape machine four（8）It is connected to finished product hopper（13）；Comprise the following steps：

1）Sorting：By the vanadium titano-magnetite aggregate and 20-60mm vanadium titano-magnetite bone that are divided into 10-30mm at the beginning of vanadium titano-magnetite Material；

2）It is broken：Sealing-tape machine one will be passed through for 10-30mm vanadium titano-magnetite aggregate（2）Send into rod mill（4）Aggregate reclaiming；Will 20-60mm vanadium titano-magnetite aggregate passes through sealing-tape machine two（3）Send into combined vibrating sand making machine（9）Interior aggregate reclaiming；

3）Dehydration：By rod mill（4）The vanadium titano-magnetite feeding screw sand washer one of 20-60mm after middle sand processed（5）It is interior to carry out Dewater treatment, is allowed to water content and is dehydrated to 10%-12%；By combined vibrating sand making machine（9）Vanadium titano-magnetite after broken passes through Sealing-tape machine five（10）Send into screw sand washer two（11）Interior carry out dewater treatment, is allowed to water content and is dehydrated to less than 12%；

4）Circulation sorting：Through screw sand washer one（5）Vanadium titano-magnetite feeding vibratory sieve one after dewater treatment（6）It is middle to be shaken Dynamic screening, sealing-tape machine three is sequentially passed through by below 5mm vanadium titano-magnetite（7）With sealing-tape machine four（8）Send into finished product hopper（13） In, more than 5mm vanadium titano-magnetite is sent into hopper one（A）Interior progress repeats broken；Screw sand washer two will be passed through（11）It is de- Vanadium titano-magnetite feeding vibratory sieve two after water process（12）Sieved, below 10mm vanadium titano-magnetite is passed through into sealing-tape machine Six（14）Send into hopper one（A）It is interior, more than 10mm vanadium titano-magnetite is passed through into sealing-tape machine seven（15）Send into hopper two（B）It is interior, By below 5mm vanadium titano-magnetite through sealing-tape machine four（8）Send into finished product hopper（13）It is interior；

5）Finished product：Finished product hopper（13）Interior vanadium titano-magnetite is finished aggregate, completes sand processed.

2. vanadium titano-magnetite technology for making sand according to claim 1, it is characterised in that：In step 2）In, the rod mill （4）In shattering process, per 1m³Vanadium titano-magnetite need to add 3-5 m³Water；The combined vibrating sand making machine（9） In shattering process, per 1m³Vanadium titano-magnetite need to add 4-6 m³Water.

3. vanadium titano-magnetite technology for making sand according to claim 1 or 2, it is characterised in that：The combined vibrating sand Machine（9）Including upper case, lower case and feed box；The upper case, lower case and feed box are correspondingly arranged on feeding mouth respectively （901）, crusher chamber（902）And discharging opening（906）, feeding mouth（901）, crusher chamber（902）And discharging opening（906）It is in from top to bottom Insertion is connected axis successively；The crusher chamber（902）Center is provided with impeller（904）, impeller（904）With rotating spindle（907）Even Connect：The rotating spindle（907）Discharging opening（906）Stretch into crusher chamber（902）It is interior, its upper end and impeller（904）Connection, its lower end Stretch out crusher chamber（902）It is connected with drive mechanism；In impeller（904）Lower section, sieve is also associated with the rotating shaft main shaft and is shaken machine Structure（905）With impeller（904）Mating reaction；In the impeller（904）Surface be feed pipe（903）；The feed pipe Road（903）By crusher chamber（902）Stretch into feeding mouth（901）It is interior.

4. vanadium titano-magnetite technology for making sand according to claim 3, it is characterised in that：The Shai Zhen mechanisms（905）Including Sieve plate（05-1）, support baseboard（05-2）, spring（05-4）With bending connecting rod（05-5）；The sieve plate（05-1）With support baseboard （05-2）Between connecting spring（05-4）With bending connecting rod（05-5）；The spring（05-4）Along support baseboard（05-2）Circumference is equal Even arrangement, every spring（05-4）It is correspondingly arranged on the bending connecting rod of matched effect（05-5）, bend connecting rod（05-5） Circumferentially it is evenly arranged；The bending connecting rod（05-5）There is connecting rod to be formed by connecting by bearing pin.

5. vanadium titano-magnetite technology for making sand according to claim 4, it is characterised in that：The sieve plate（05-1）For circular net Cavernous structure, sieve plate（05-1）With rotating spindle（907）It is slidably connected by bearing formation；The support baseboard（05-2）For in Empty solid annular plate, is provided with the mistake material mouth of insertion in the middle of it（05-3）, support baseboard（05-2）Relatively rotate main shaft（907）Gu Fixed is arranged on crusher chamber（902）It is interior.

6. the vanadium titano-magnetite technology for making sand according to claim 4 or 5, it is characterised in that：The sieve plate（05-1）With branch Support bottom plate（05-2）Outside also enclose provided with a sideskid（05-6）；The sideskid（05-6）It is provided with chute one（05-7）With Chute two（05-9）；The chute one（05-7）With respect to sideskid（05-6）It is L-shaped stepped, for sieve plate（05-1）Entirety Slide up and down；The chute two（05-9）For U-shaped groove, for bending connecting rod（05-5）The slide downward of middle bearing pin.

7. vanadium titano-magnetite technology for making sand according to claim 6, it is characterised in that：The chute one（05-7）With chute Two（05-9）Between by a demarcation strip（05-8）Separate, i.e. chute one（05-7）By sideskid（05-6）Upper surface is extended to point Dividing plate（05-8）Upper surface, chute two（05-9）By sideskid（05-6）Bottom surface extends to demarcation strip（05-8）Lower surface.

8. the vanadium titano-magnetite technology for making sand according to claim 4 or 5 or 7, it is characterised in that：The bending connecting rod（05- 5）Maximum length be less than or equal to sieve plate（05-1）With support baseboard（05-2）Between maximum height；The chute two（05- 9）Width slightly larger than bending connecting rod（05-5）The length of upper pin；The spring（05-4）Length under two natures is less than Sieve plate（05-1）With support baseboard（05-2）Between maximum height.

9. vanadium titano-magnetite technology for making sand according to claim 8, it is characterised in that：The sieve plate（05-1）With support bottom Plate（05-2）It is equipped with rotation slot（05-21）And connection rotating shaft（05-22）, for connecting bending connecting rod（05-5）Two ends；Institute State rotation slot（05-21）With bending connecting rod（05-5）It is correspondingly arranged and circumferentially uniform；The rotation slot（05-21）Interior clamping connects Switch through axle（05-22）；The bending connecting rod（05-5）Two ends be set in connection rotating shaft（05-22）On, and can relative connection Rotating shaft（05-22）In rotation slot（05-21）Width range in rotate.