CN109317309A - A kind of magnetic separator and its beneficiation method - Google Patents

Abstract

The invention discloses a kind of magnetic separator and its beneficiation methods, the magnetic separator includes primary election burden-guiding cone, ore dressing tank body, breaker rotor, broken cone and magnet block, the ore dressing top of the tank connects sealed tank cap, sealed tank cap top middle portion is welded with feed hopper, feed hopper is equipped with hooper door, ore dressing tank interior is fixed with breaker rotor, primary election burden-guiding cone is equipped at the top of breaker rotor, it is rotated by rotary shaft and drives primary election burden-guiding cone, broken cone and magnet block rotation, carry out primary election coarse fodder and fines, it crushes and magnetic separation separates the operation being discharged, it is easy to operate, save the operating time, without expending a large amount of water resource, do not cause environmental pollution, aeneficiation effect is good；Beneficiation method is easy to implement, and material feeding is uneven when primary election burden-guiding cone primary election coarse fodder and fines, conducive to the separation of thickness material, and with mineral aggregate is crushed and magnetic separation, improve production and technical indication.

Description

A kind of magnetic separator and its beneficiation method

Technical field

The present invention relates to magnetic separation ore dressing fields, more specifically, it relates to a kind of magnetic separator and its beneficiation method.

Background technique

It with a large amount of development and utilization of mineral resources, is constantly reduced for stock number, raw ore exploitation taste is caused increasingly to drop It is low, therefore, require also increasingly to improve for the product quality of the following process such as the smelting of mineral resources.While ore dressing, people Environmental consciousness increasingly reinforce.

In existing mineral enterprises, essential process is exactly the screening to mineral, and existing ore separators is most only It is able to achieve the screening to mineral, lacks other functions, so the investment of remaining equipment can be increased on the one hand, is taken up an area in this way Area is big, and the efficiency raising of enterprise is not got on.By the way of water conservancy flotation, other than causing environmental pollution, aeneficiation effect compared with Difference, it is difficult to carry out the sorting and ore discharge operation of magnetic, non magnetic mineral aggregate.

Summary of the invention

In view of the deficiencies of the prior art, the present invention intends to provide a kind of magnetic separator and its ore dressing side Method, to solve the problems mentioned in the above background technology.

To achieve the above object, the invention provides the following technical scheme:

A kind of magnetic separator, including primary election burden-guiding cone, ore dressing tank body, breaker rotor, broken cone and magnet block, the choosing Mine top of the tank connects sealed tank cap, and sealed tank cap top middle portion is welded with feed hopper, and feed hopper is equipped with hooper door, ore dressing tank Internal portion is fixed with breaker rotor, is equipped with primary election burden-guiding cone at the top of breaker rotor, and primary election burden-guiding cone is fixed on the top of rotary shaft, Be welded on breaker rotor inner wall it is several determine crushing teeth, broken cone is equipped in breaker rotor, it is fixed on the rotary shaft to be crushed cone, breaks Broken cone side is equipped with several dynamic crushing teeths by screw, and dynamic crushing teeth is mutually engaged setting with crushing teeth is determined, and is crushed cone bottom Magnet block is installed in rotary shaft.

As a further solution of the present invention, the ore dressing tank body is fixed in ore dressing rack, and sealed tank cap is detachable Cover, be bolted between sealed tank cap and ore dressing tank body.

As a further solution of the present invention, the bolt passes through through-hole and the choosing of the engaging lug of sealed tank cap side welding The through-hole of the engaging lug of mine tank body side welding, is bolted the engaging lug of ore dressing tank body and the engaging lug of sealed tank cap.

As a further solution of the present invention, the hooper door is hinged with feed hopper, and hooper door is same with feed hopper The two is hinged by side by pin shaft, and the other side of hooper door and feed hopper is fastened by lock, the lock on hooper door Button is engaged with the lock tongue on feed hopper.

As a further solution of the present invention, the primary election burden-guiding cone is set to the underface of feed hopper bottom end discharge port, Primary election burden-guiding cone bottom side is concordant at the top of breaker rotor, and roughing material chamber is set as in the ore dressing tank body outside breaker rotor upper end, selects Mine tank body side connects roughing drainage conduit, and roughing blow-off valve, roughing drainage conduit and roughing material bottom of chamber are equipped in roughing drainage conduit Side connection.

As a further solution of the present invention, it is set as thin sorting chamber in the breaker rotor below the primary election burden-guiding cone, just Grid made of selecting burden-guiding cone to be woven as stainless steel metal wire.

As a further solution of the present invention, the mineral aggregate collection bucket that is magnetic is installed, magnetic mineral aggregate is received below the magnet block Collection bucket outside connects non magnetic mineral aggregate collection bucket, forms a point mine between magnetic mineral aggregate collection bucket and non magnetic mineral aggregate collection bucket and bores.

As a further solution of the present invention, the non magnetic mineral aggregate collection bucket bottom side connects non magnetic mineral aggregate discharge pipe, Magnetic mineral aggregate collection bucket bottom connects magnetic mineral aggregate discharge pipe.

As a further solution of the present invention, the rotary shaft bottom end is pierced by the motor of magnetic mineral aggregate discharge pipe connection motor Axis.

Beneficiation method based on above-mentioned magnetic separator, which is characterized in that specifically includes the following steps:

S1, fixation is bolted in ore dressing tank body and sealed tank cap, and opens hooper door for mineral aggregate to be screened Feed hopper is launched, and closes hooper door；

S2, starting electrical power work and drive primary election burden-guiding cone, broken cone and magnet block to rotate by rotary shaft；

Mineral aggregate in S3, step S1 in feed hopper is fallen on primary election burden-guiding cone, is screened by primary election burden-guiding cone, the mineral aggregate screened out It falls into roughing material chamber and is discharged from roughing drainage conduit, the thin mineral aggregate of screening falls into thin sorting chamber；

S4, in dynamic crushing teeth and determine crushing teeth and will fall into thin sorting between breaker rotor and broken cone to be crushed；

When S5, broken mineral aggregate fall, non magnetic mineral aggregate and magnetic mineral aggregate are isolated under the screening of magnet block, respectively It falls in non magnetic mineral aggregate collection bucket and magnetic mineral aggregate collection bucket；

S6, respectively from non magnetic mineral aggregate discharge pipe and magnetic mineral aggregate discharge pipe by non magnetic mineral aggregate and magnetic mineral aggregate discharge.

In conclusion compared with the prior art, the invention has the following beneficial effects:

Magnetic separator of the invention, structure is simple, and primary election burden-guiding cone, broken cone and magnetic are rotated and driven by rotary shaft Iron block rotation carries out the operation of primary election coarse fodder and fines, crushing and magnetic separation separation discharge, easy to operate, saves operation Time does not cause environmental pollution, aeneficiation effect is good without expending a large amount of water resource；Beneficiation method is easy to implement, primary election guide Material feeding is uneven when boring primary election coarse fodder and fines, conducive to the separation of thickness material, and with to mineral aggregate crushing and magnetic separation, improves production skill Art index.

In order to explain the structural features and functions of the invention more clearly, come with reference to the accompanying drawing with specific embodiment to this hair It is bright to be described in detail.

Detailed description of the invention

Fig. 1 is the structural diagram of the present invention.

Fig. 2 is the structural schematic diagram of primary election burden-guiding cone in the present invention.

Fig. 3 is the magnetic separation seperated schematic diagram of Mineral Material of the present invention.

Appended drawing reference: 1- feed hopper, 2- hooper door, 3- primary election burden-guiding cone, 4- rotary shaft, 5- roughing material chamber, 6- sealing Cover, 7- ore dressing tank body, the thin sorting chamber of 8-, 9- breaker rotor, 10- determine the broken cone of crushing teeth, 11-, 12- moves crushing teeth, 13- spiral shell Nail, 14- roughing drainage conduit, 15- roughing blow-off valve, the non magnetic mineral aggregate discharge pipe of 16-, 17- magnet block, 18- ore dressing rack, 19- Magnetic mineral aggregate discharge pipe, 20- motor, 21- magnetism mineral aggregate collection bucket, 22- divide mine cone, the non magnetic mineral aggregate collection bucket of 23-.

Specific embodiment

The following further describes the technical solution of the present invention in the following with reference to the drawings and specific embodiments.

Referring to Fig. 1-3, a kind of magnetic separator, including primary election burden-guiding cone 3, ore dressing tank body 7, breaker rotor 9, broken cone 11 With magnet block 17, the ore dressing tank body 7 is fixed in ore dressing rack 18, and sealed tank cap 6, hermetically sealed can are connected at the top of ore dressing tank body 7 Lid 6 is bolted between dismountable cover, with ore dressing tank body 7, specifically: bolt passes through 6 side of sealed tank cap The through-hole of the through-hole of the engaging lug of welding and the engaging lug of 7 side of ore dressing tank body welding, by ore dressing tank body 7 and sealed tank cap 6 Engaging lug is connected, so that being fixedly connected for ore dressing tank body 7 and sealed tank cap 6 is realized, when being dismantled, it is only necessary to back out bolt i.e. The two (ore dressing tank body 7 and sealed tank cap 6) can be separated.

6 top middle portion of sealed tank cap is welded with feed hopper 1, and feed hopper 1 is equipped with hooper door 2, it is preferred that in this reality It applies in example, the hooper door 2 is hinged with feed hopper 1, specifically: hooper door 2 will by pin shaft with 1 the same side of feed hopper The two is hinged, and hooper door 2 can be rotated around pin shaft to be arranged, and the other side of hooper door 2 and feed hopper 1 passes through lock button It closes, i.e., the lock on hooper door 2 is engaged with the lock tongue on feed hopper 1, so that the identical other side of the two is interlocked；When When sealed tank cap 6 is around pivot pin rotating opening, mineral aggregate is facilitated to launch to feed hopper 1；After sealed tank cap 6 and feed hopper 1 are interlocked, Mineral aggregate in feed hopper 1 is avoided to collapse out.

It is fixed with breaker rotor 9 inside the ore dressing tank body 7, is equipped with primary election burden-guiding cone 3 at the top of breaker rotor 9, primary election is led Material cone 3 is fixed on the top of rotary shaft 4, also, primary election burden-guiding cone 3 is set to the underface of 1 bottom end discharge port of feed hopper, primary election 3 bottom side of burden-guiding cone is concordant with 9 top of breaker rotor, and roughing material chamber 5 is set as in the ore dressing tank body 7 outside 9 upper end of breaker rotor, selects 7 side of mine tank body connects roughing drainage conduit 14, is equipped with roughing blow-off valve 15 in roughing drainage conduit 14, roughing drainage conduit 14 and thick The connection of 5 bottom side of sorting chamber, the rough discharge for that will screen.

It is set as thin sorting chamber 8 in the breaker rotor 9 of 3 lower section of primary election burden-guiding cone, in the present embodiment, the primary election is led Grid made of material cone 3 is woven as stainless steel metal wire, mesh diameter is the size that can be crushed, the mine excessive for volume Material is then intercepted and is centrifuged by primary election burden-guiding cone 3 and thrown away into roughing material chamber 5, avoids the excessive mineral aggregate of volume from influencing further broken Operation.

Be welded on 9 inner wall of breaker rotor it is several determine crushing teeth 10, broken cone 11 is equipped in the breaker rotor 9, Broken cone 11 is fixed in rotary shaft 4, and 11 sides of broken cone are equipped with several dynamic crushing teeths 12 by screw 13, moves crushing teeth 12 It is engaged setting with 10 phase of crushing teeth is determined, when rotary shaft 4 drives broken 11 rotation of cone, moving crushing teeth 12 and determining crushing teeth 10 will be fallen It is broken to enter between the two thin sorting.

Magnet block 17 is installed in the rotary shaft 4 of 11 bottoms of the broken cone, under between broken cone 11 and breaker rotor 9 Fall it is broken after mineral aggregate isolate non magnetic mineral aggregate and magnetic mineral aggregate under the screening of magnet block 17, magnetic mineral aggregate is towards magnet block 17 sides fall；The mineral aggregate collection bucket 21 that is magnetic is installed below the magnet block 17, is connected on the outside of magnetic mineral aggregate collection bucket 21 non- Magnetic mineral aggregate collection bucket 23 forms between magnetic mineral aggregate collection bucket 21 and non magnetic mineral aggregate collection bucket 23 and mine is divided to bore 22, by powder Mineral aggregate after broken is under 17 magnetic separation of magnet block, magnetic mineral aggregate and the separation of non magnetic mineral aggregate.

Non magnetic 23 bottom side of mineral aggregate collection bucket connects non magnetic mineral aggregate discharge pipe 16, magnetic 21 bottom of mineral aggregate collection bucket Connect magnetic mineral aggregate discharge pipe 19；4 bottom end of rotary shaft is pierced by the motor shaft that magnetic mineral aggregate discharge pipe 19 connects motor 20, Under the driving of motor 20, rotary shaft 4 rotates and drives primary election burden-guiding cone 3, broken cone 11 and magnet block 17 to rotate, and it is thick to carry out primary election Material separates the operation of discharge with fines, crushing and magnetic separation.

A kind of beneficiation method of magnetic separator, specifically includes the following steps:

S1, fixation is bolted in ore dressing tank body 7 and sealed tank cap 6, and opens hooper door 2 for mine to be screened Material, which is launched, arrives feed hopper 1, and closes hooper door 2；

S2, starting motor 20 are powered on and drive primary election burden-guiding cone 3, broken cone 11 and magnet block 17 by rotary shaft 4 Rotation；

Mineral aggregate in S3, step S1 in feed hopper 1 is fallen on primary election burden-guiding cone 3, is screened, is screened out by primary election burden-guiding cone 3 Mineral aggregate falls into roughing material chamber 5 and is discharged from roughing drainage conduit 14, and the thin mineral aggregate of screening falls into thin sorting chamber 8；

S4, in dynamic crushing teeth 12 and determine crushing teeth 10 and will fall into thin sorting between breaker rotor 9 and broken cone 11 to be crushed；

When S5, broken mineral aggregate fall, non magnetic mineral aggregate and magnetic mineral aggregate are isolated under the screening of magnet block 17, point It does not fall in non magnetic mineral aggregate collection bucket 23 and magnetic mineral aggregate collection bucket 21；

S6, respectively from non magnetic mineral aggregate discharge pipe 16 and magnetic mineral aggregate discharge pipe 19 by non magnetic mineral aggregate and magnetic mineral aggregate row Out.

The technical principle of the invention is described above in combination with a specific embodiment, is only the preferred embodiment of the present invention.This The protection scope of invention is not limited merely to above-described embodiment, and all technical solutions belonged under thinking of the present invention belong to the present invention Protection scope.Those skilled in the art, which does not need to pay for creative labor, can associate other specific realities of the invention Mode is applied, these modes will fall within the scope of protection of the present invention.

Claims (10)

1. a kind of magnetic separator, including primary election burden-guiding cone (3), ore dressing tank body (7), breaker rotor (9), broken cone (11) and magnetic Iron block (17), which is characterized in that connect sealed tank cap (6) at the top of the ore dressing tank body (7), the weldering of sealed tank cap (6) top middle portion It is connected to feed hopper (1), feed hopper (1) is equipped with hooper door (2), is fixed with breaker rotor (9) inside ore dressing tank body (7), is crushed Primary election burden-guiding cone (3) are equipped at the top of cylinder (9), primary election burden-guiding cone (3) is fixed on the top of rotary shaft (4), and breaker rotor (9) is interior Be welded on wall it is several determine crushing teeth (10), broken cone (11) is equipped in breaker rotor (9), broken cone (11) is fixed on rotary shaft (4) on, broken cone (11) side is equipped with several dynamic crushing teeths (12) by screw (13), dynamic crushing teeth (12) and determines crushing teeth (10) mutually occlusion setting is crushed in the rotary shaft (4) of cone (11) bottom and is equipped with magnet block (17).

2. a kind of magnetic separator according to claim 1, which is characterized in that the ore dressing tank body (7) is fixed on ore dressing In rack (18), sealed tank cap (6) is dismountable cover, is connected between sealed tank cap (6) and ore dressing tank body (7) by bolt It connects.

3. a kind of magnetic separator according to claim 2, which is characterized in that the bolt passes through sealed tank cap (6) side The through-hole of the engaging lug of the through-hole and ore dressing tank body (7) side welding of the engaging lug of face welding, is bolted ore dressing tank body (7) The engaging lug of engaging lug and sealed tank cap (6).

4. a kind of magnetic separator according to claim 1, which is characterized in that the hooper door (2) and feed hopper (1) It is hinged, the two is hinged with feed hopper (1) the same side by pin shaft by hooper door (2), hooper door (2) and feed hopper (1) the other side is fastened by lock, and the lock on hooper door (2) is engaged with the lock tongue on feed hopper (1).

5. a kind of magnetic separator according to claim 4, which is characterized in that the primary election burden-guiding cone (3) be set into The underface of hopper (1) bottom end discharge port, concordant, breaker rotor (9) at the top of primary election burden-guiding cone (3) bottom side and breaker rotor (9) Roughing material chamber (5) is set as in ore dressing tank body (7) outside upper end, ore dressing tank body (7) side connects roughing drainage conduit (14), roughing It is equipped in drainage conduit (14) roughing blow-off valve (15), roughing drainage conduit (14) is connected to roughing material chamber (5) bottom side.

6. a kind of magnetic separator according to claim 5, which is characterized in that broken below the primary election burden-guiding cone (3) Thin sorting chamber (8), grid made of primary election burden-guiding cone (3) is woven as stainless steel metal wire are set as in broken cylinder (9).

7. a kind of magnetic separator according to claim 6, which is characterized in that be equipped with magnetic below the magnet block (17) Property mineral aggregate collection bucket (21), connect non magnetic mineral aggregate collection bucket (23) on the outside of magnetic mineral aggregate collection bucket (21), magnetic mineral aggregate is collected Being formed between bucket (21) and non magnetic mineral aggregate collection bucket (23) divides mine to bore (22).

8. a kind of magnetic separator according to claim 7, which is characterized in that non magnetic mineral aggregate collection bucket (23) bottom Side connects non magnetic mineral aggregate discharge pipe (16), and magnetic mineral aggregate collection bucket (21) bottom connects magnetic mineral aggregate discharge pipe (19).

9. a kind of magnetic separator according to claim 8, which is characterized in that rotary shaft (4) bottom end is pierced by magnetism Mineral aggregate discharge pipe (19) connects the motor shaft of motor (20).

10. a kind of beneficiation method of magnetic separator according to claim 9, which is characterized in that specifically include following step It is rapid:

S1, fixation is bolted in ore dressing tank body (7) and sealed tank cap (6), and opening hooper door (2) will be to be screened Mineral aggregate is launched to feed hopper (1), and closes hooper door (2)；

S2, starting motor (20) are powered on and drive primary election burden-guiding cone (3), broken cone (11) and magnet by rotary shaft (4) Block (17) rotation；

Mineral aggregate in S3, step S1 in feed hopper (1) is fallen on primary election burden-guiding cone (3), is screened, is screened out by primary election burden-guiding cone (3) Mineral aggregate fall into roughing material chamber (5) and be discharged from roughing drainage conduit (14), the thin mineral aggregate of screening falls into thin sorting chamber (8)；

S4, in dynamic crushing teeth (12) and determine crushing teeth (10) will to fall into thin sorting between breaker rotor (9) and broken cone (11) broken It is broken；

When S5, broken mineral aggregate fall, non magnetic mineral aggregate and magnetic mineral aggregate are isolated under the screening of magnet block (17), respectively It falls in non magnetic mineral aggregate collection bucket (23) and magnetic mineral aggregate collection bucket (21)；

S6, respectively from non magnetic mineral aggregate discharge pipe (16) and magnetic mineral aggregate discharge pipe (19) by non magnetic mineral aggregate and magnetic mineral aggregate row Out.