CN108525862A - A kind of difficult oxide ore device for effectively separating - Google Patents

Abstract

The invention discloses a kind of difficult oxide ore device for effectively separating, including fixed bottom plate, it is fixedly installed an agitator tank on the right side of the fixed bottom plate upper surface, the agitator tank is internally provided with a stirring space, the center position of the agitator tank upper surface is provided with the rotating box being connect with its integral type, it is fixedly installed a liquid reserve tank on the right side of the agitator tank upper surface, it is provided with a supporting block on the left of the fixed bottom plate upper surface, the upper end of the supporting block is fixedly installed a crush box, the crush box is internally provided with a comminuting space, the right side of the crush box is provided with the transmission case for being integrated with formula structure.In present invention work, squeeze the ore of fragmenting bulk, to increase the follow-up efficiency flocculated, precipitated, save time cost, speed is flowed in and out by solenoid valve control, ensures the adding proportion of flocculant, realizes the controllability in technical process, reduce interference, ensure that the high efficiency of oxide ore separation.

Description

A kind of difficult oxide ore device for effectively separating

Technical field

The present invention relates to field of mineral metallurgy, specially a kind of difficult oxide ore device for effectively separating.

Background technology

With the continuous exploitation of mineral resources, free-milling ore is reduced year by year, and shortage of resources aggravation, low-grade oxide ore is opened Hair has caused great attention both domestic and external, and low grade copper oxide ore is generally all with oxygenation efficiency is high, clay content is big, more metals The characteristics of symbiosis, common metallurgical equipment is difficult that copper oxide is directly extracted from raw ore, currently, being directed to intractable copper oxide There is also some equipment for mine for extracting, but generally inefficient, and process is also difficult to control, causes a large amount of resource Waste, is unfavorable for promoting the use of for large area.

Invention content

The purpose of the present invention is to provide a kind of difficult oxide ore device for effectively separating, to solve in above-mentioned background technology The problem of proposition.

To achieve the above object, the present invention provides the following technical solutions：A kind of difficult oxide ore device for effectively separating, packet Fixed bottom plate is included, is fixedly installed an agitator tank on the right side of the fixed bottom plate upper surface, the agitator tank is internally provided with one The center position of stirring space, the agitator tank upper surface is provided with the rotating box being connect with its integral type, the rotating box Internal lower end is provided with a rotation space, and the upside inside the rotation space is provided with a tapered rotary tooth, the taper The center position fixing sleeve of turning gear is connected to a rotating bar, and the rotation space upper end wall is internally provided with fixation support Space, the fixed supporting and space are internally provided with a rotational support plate, and the upper end of the rotating bar passes through the upper of rotation space It end wall and is fixedly connected with the center of rotational support plate lower face, the lower end of the rotating bar passes through the lower end of rotation space Wall and multiple connections tilted upward are distributed in the downside inside the stirring space, the lower circumferential of the rotating bar cylindroid Bar, the connecting rod lower end are connected with a helical scraper jointly, and the one end of the connecting rod far from rotating bar passes through a steel Rope is fixedly connected with rotating bar, and the middle position fixing sleeve of the body of rod of the rotating bar is equipped with a buffer pocket, the buffer pocket It is internally provided with the dashpot of an opening upwards, a liquid reserve tank, the storage are fixedly installed on the right side of the agitator tank upper surface Liquid case is internally provided with a flocculant storage space, and the lower end of the liquid reserve tank left side is provided with an additive extended downwardly The lower end of pipe, the additive pipe passes through the upper end wall of stirring space and in dashpot, setting inside the additive pipe There is an additive hole, the additive hole connection dashpot and flocculant storage space, the additive hole are internally provided with the Flow control valve is provided with discharge pipe on the upside of the agitator tank right side, and the discharge pipe is internally provided with a plasma discharge hole, The plasma discharge hole is connected to stirring space, is provided with second flow control valve on the discharge pipe, under the agitator tank right side Side is provided with a sediment collecting pipe, and the sediment collecting pipe is internally provided with a collection hole, the collection hole connection stirring The center position of space lower face, is provided with third flow control valve on the sediment collecting pipe, on the fixed bottom plate A supporting block is provided on the left of end face, the upper end of the supporting block is fixedly installed a crush box, is set inside the crush box It is equipped with a comminuting space, the center position of the crush box upper surface is provided with the feed inlet for being integrated with formula structure, institute It states feed inlet connection comminuting space and free surrounding space, the right side of the crush box is provided with the transmission for being integrated with formula structure Case, the transmission case are internally provided with a transmission space, power teeth are symmetrically arranged with before and after the lower end of the transmission space left end It takes turns, power gear described in rear and front end is connected, and the center position of the power gear left side has been fixedly connected with one Rotary shaft, the left end of the rotary shaft pass through the left end wall of transmission space and comminuting space and are rotated with the left end wall of comminuting space Formula is fixedly connected, and the equal fixing sleeve of axis body of the rotary shaft is connected to a roller bar, and the front side of the transmission space right end wall lower end is solid Surely it is connected with a driving motor, the left end be connected by power of the driving motor has a drive shaft, the left end of the drive shaft to fix It is connected to the center position of front end power gear right side, the upside rotary type of the transmission space left side is fixedly connected with One transmission shaft extended to the right, is set with a transmission gear on the left of the rotation axis axis body, the lower end of the transmission gear with The upper end of the front end power gear is connected, and the right end of the transmission shaft sequentially passes through right end wall and the rotation of transmission space The left end wall in space and the taper driving cog for being fixedly connected with a vertical direction, the upper end of the taper driving cog and tapered rotary The left end of tooth is connected, and the lower end of the crush box right side is provided with an inlet pipe, and the left end of the inlet pipe, which passes through, to be stirred It mixes the left end wall in space and extends down into dashpot, the inlet pipe is internally provided with a slurry-feeding hole, and the slurry-feeding hole connects Lead to comminuting space and dashpot, the 4th flow control valve is fixedly installed on the inlet pipe.

Preferably, the diameter of the roller bar is less than the diameter of power gear, the roller bar and comminuting space inner wall away from From respectively less than the distance between two roller bars.

Preferably, the diameter of the taper driving cog is much smaller than the diameter of tapered rotary tooth.

Preferably, the lower end wall of the stirring space be back taper, the connecting rod with the lower end wall of stirring space Keeping parallelism, the lower end of the helical scraper and the lower end wall contact of stirring space connect.

Preferably, the first flow control valve controls the adding speed of flocculant in additive hole, the second Control valve controls the rate of outflow of upper layer slurry liquid in stirring space, and the third flow control valve controls bottom in stirring space The velocity of discharge of portion's cupric sediment, the 4th flow control valve control the admission velocity of pulp slurry, pulp slurry and flocculant into Enter the sum of the rate of outflow that the sum of speed is equal to slurry liquid and cupric sediment.

Compared with prior art, the beneficial effects of the invention are as follows：In present invention work, flocculant is packed into liquid reserve tank, is led to It crosses feed inlet and the ore pulp containing copper oxide is poured into crush box, driving motor work drives the power teeth of front end by drive shaft Wheel rotation, two power gears do the opposite rotary motion in direction in the case of mating connection, to be driven by rotary shaft Two roller bars do the opposite rotary motion in direction, squeeze the ore of fragmenting bulk, to increase the follow-up efficiency flocculated, precipitated, Time cost is saved, the pulp slurry after crushing enters dashpot by slurry-feeding hole, and flocculant enters dashpot by additive hole, Meanwhile the work of driving motor drives taper driving cog to rotate also by transmission shaft, in taper cogged drive belt mantle shape turning gear In the case of rotation, coordinated by certain transmission ratio, to slow down the rotary speed of tapered rotary tooth, in the cooperation of dashpot It under effect, drives the mixed solution inside stirring space slowly to rotate, flocculant is made to be uniformly mixed with ore pulp, without destroying The beds of precipitation of stirring space lower end are saved the time, rotation axis rotation, and helical scraper rotation is driven by the rotation of connecting rod, Hole is collected to push the cupric sediment of stirring space bottom to enter, completes efficiently separating for copper oxide, wherein pass through electromagnetism Valve control flows in and out speed, ensures the adding proportion of flocculant, realizes the controllability in technical process, and pulp slurry and wadding It is identical with the rate of outflow of cupric sediment that the entrance of solidifying agent the sum of hastens to be equal to slurry liquid, can ensure to sink inside stirring space The continuous progress of shallow lake reaction, reduces interference, ensure that the high efficiency of oxide ore separation.

Description of the drawings

Fig. 1 is a kind of main structure diagram of difficult oxide ore device for effectively separating entirety complete section of the present invention；

Fig. 2 is that crush box and the plan structure of transmission case complete section are illustrated in a kind of difficult oxide ore device for effectively separating of the present invention Figure；

Fig. 3 is the left view structural representation of transmission case complete section in a kind of difficult oxide ore device for effectively separating of the present invention；

Fig. 4 is the overlooking structure diagram of helical scraper in a kind of difficult oxide ore device for effectively separating of the present invention.

Specific implementation mode

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation describes, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

- 4 are please referred to Fig.1, a kind of embodiment provided by the invention：A kind of difficult oxide ore device for effectively separating, including Bottom plate 1 is fixed, is fixedly installed an agitator tank 2 on the right side of 1 upper surface of fixed bottom plate, the agitator tank 2 is internally provided with One stirring space 3, the center position of 2 upper surface of the agitator tank are provided with the rotating box 4 being connect with its integral type, described turn Lower end inside dynamic case 4 is provided with a rotation space 5, and the upside inside the rotation space 5 is provided with a tapered rotary tooth 6, The center position fixing sleeve of the tapered rotary tooth 6 is connected to a rotating bar 7, the inside setting of 5 upper end wall of the rotation space There are a fixation supporting and space 8, the fixed supporting and space 8 to be internally provided with a rotational support plate 9, the upper end of the rotating bar 7 Across rotation space 5 upper end wall and be fixedly connected with the center of 9 lower face of rotational support plate, under the rotating bar 7 Hold the lower end wall across rotation space 5 and the downside inside stirring space 3, the lower circumferential of 7 cylindroid of the rotating bar Multiple connecting rods 10 tilted upward are distributed with, 10 lower end of the connecting rod is connected with a helical scraper 11, the company jointly The one end of extension bar 10 far from rotating bar 7 is fixedly connected by a cable wire 12 with rotating bar, the centre of the body of rod of the rotating bar 7 Fixing sleeve is equipped with a buffer pocket 13 at position, and the buffer pocket 13 is internally provided with the dashpot 14 of an opening upwards, described to stir It mixes and is fixedly installed a liquid reserve tank 15 on the right side of 2 upper surface of case, the liquid reserve tank 15 is internally provided with a flocculant storage space 16, the lower end of 15 left side of the liquid reserve tank is provided with an additive pipe 17 extended downwardly, the lower end of the additive pipe 17 Across stirring space 3 upper end wall and in the dashpot 14, the additive pipe 17 is internally provided with an additive hole 18, institute It states the connection dashpot 14 of additive hole 18 and flocculant storage space 16, the additive hole 18 is internally provided with first flow control Valve 19 processed is provided with discharge pipe 20 on the upside of 2 right side of the agitator tank, and the discharge pipe 20 is internally provided with a plasma discharge hole 21, the plasma discharge hole 21 is connected to stirring space 3, and second flow control valve 22, the agitator tank 2 are provided on the discharge pipe 20 A sediment collecting pipe 23 is provided on the downside of right side, the sediment collecting pipe 23 is internally provided with a collection hole 24, institute It states and collects the center position that hole 24 is connected to 3 lower face of stirring space, third flow is provided on the sediment collecting pipe 23 Control valve 25 is provided with a supporting block 26, the upper end fixed setting of the supporting block 26 on the left of 1 upper surface of fixed bottom plate There are a crush box 27, the crush box 27 to be internally provided with a comminuting space 28, the center of 27 upper surface of the crush box Place is provided with the feed inlet 29 for being integrated with formula structure, and the feed inlet 29 is connected to comminuting space 28 and free surrounding space, described The right side of crush box 27 is provided with the transmission case 30 for being integrated with formula structure, and the transmission case 30 is internally provided with a transmission Space 31, is symmetrically arranged with power gear 32 before and after the lower end of 31 left end of the transmission space, power gear described in rear and front end 32 are connected, and the center position of 32 left side of the power gear has been fixedly connected with a rotary shaft 33, the rotary shaft 33 left end pass through transmission space 31 left end wall and comminuting space 28 and with the left end wall rotary type of comminuting space 28 fix connect It connects, the equal fixing sleeve of axis body of the rotary shaft 33 is connected to a roller bar 34, and the front side of 31 right end wall lower end of the transmission space is fixed It is connected with a driving motor 35, the left end be connected by power of the driving motor 35 has a drive shaft 36, a left side for the drive shaft 36 End is fixedly connected on the center position of 32 right side of front end power gear, the upside rotary type of 31 left side of the transmission space It is fixedly connected with a transmission shaft 37 extended to the right, a transmission gear 38 is set on the left of 37 axis body of the rotation axis, it is described The lower end of transmission gear 38 and the upper end of the front end power gear 32 are connected, and the right end of the transmission shaft 37 sequentially passes through The right end wall of transmission space 31 and the left end wall of rotation space 5 and the taper driving cog 39 for being fixedly connected with a vertical direction, institute The upper end for stating taper driving cog 39 and the left end of tapered rotary tooth 6 are connected, the lower end setting of 27 right side of the crush box There are an inlet pipe 40, the left end of the inlet pipe 40 to pass through the left end wall of stirring space 3 and extend down into dashpot 14, institute It states inlet pipe 40 and is internally provided with a slurry-feeding hole 41, the slurry-feeding hole 41 is connected to comminuting space 28 and dashpot 14, described into slurry The 4th flow control valve 42 is fixedly installed on pipe 40.

Valuably, the diameter of the roller bar 34 is less than the diameter of power gear 32, in the roller bar 34 and comminuting space 28 The distance of wall is respectively less than the distance between two roller bars 32.Its effect is that driving motor 35 works, before being driven by drive shaft 36 The power gear 32 at end rotates, and two power gears 32 do the opposite rotary motion in direction in the case of being connected again, to It drives two roller bars 32 to do the opposite rotary motion in direction by rotary shaft 33, squeezes the ore of fragmenting bulk, after increasing Continuous flocculation, the efficiency precipitated, save time cost.

Valuably, the diameter of the taper driving cog 6 is much smaller than the diameter of tapered rotary tooth 6.Its effect is passed in taper In the case that moving teeth 6 drives tapered rotary tooth 6 to rotate, coordinated by certain transmission ratio, to slow down the rotation of tapered rotary tooth 6 Rotary speed, under the mating reaction of dashpot 14, drive stirring space 3 inside mixed solution slowly rotate, make flocculant and Ore pulp is uniformly mixed, and without destroying the beds of precipitation of 3 lower end of stirring space, is saved the time, is ensured the high efficiency of device.

Valuably, the lower end wall of the stirring space 3 is back taper, lower end of the connecting rod 10 with stirring space 3 Wall keeping parallelism, the lower end of the helical scraper 11 are connect with the lower end wall contact of stirring space 3.Its effect is to rotate Axis 9 rotates, and drives helical scraper 11 to rotate by the rotation of connecting rod 10, to push the cupric of 3 bottom of stirring space heavy Starch, which enters, collects hole 24, completes efficiently separating for copper oxide.

Valuably, the first flow control valve 19 controls the adding speed of flocculant in additive hole 18, and described second Flow control valve 22 controls the rate of outflow of upper layer slurry liquid in stirring space 3, the control of third flow control valve 25 stirring The velocity of discharge of bottom cupric sediment in space 3, the 4th flow control valve 42 control pulp slurry admission velocity, pulp slurry with The sum of admission velocity of flocculant is equal to the sum of the rate of outflow of slurry liquid and cupric sediment.Its effect is to pass through solenoid valve Control flows in and out speed, ensures the adding proportion of flocculant, realizes the controllability in technical process, and pulp slurry and flocculation It is identical with the rate of outflow of cupric sediment that the entrance of agent the sum of hastens to be equal to slurry liquid, can ensure that 3 inside of stirring space sinks The continuous progress of shallow lake reaction, reduces interference, ensure that the high efficiency of oxide ore separation.

Specifically used mode：In present invention work, flocculant is packed into liquid reserve tank 15, oxidation will be contained by feed inlet 29 The ore pulp of copper pours into crush box 27, and driving motor 35 works, and drives the power gear 32 of front end to rotate by drive shaft 36, two Power gear 32 does the opposite rotary motion in direction in the case of mating connection, to drive two roller bars by rotary shaft 33 32 do the opposite rotary motion in direction, squeeze the ore of fragmenting bulk, to increase it is follow-up flocculate, the efficiency of precipitation, when saving Between cost, pulp slurry after crushing enters dashpot 14 by slurry-feeding hole 41, and flocculant enters dashpot by additive hole 18 14, meanwhile, the work of driving motor 35 drives taper driving cog 39 to rotate also by transmission shaft 37, is driven in taper driving cog 6 In the case that tapered rotary tooth 6 rotates, coordinated by certain transmission ratio, to slow down the rotary speed of tapered rotary tooth 6, Under the mating reaction of dashpot 14, drives the mixed solution inside stirring space 3 slowly to rotate, flocculant is made to be mixed with ore pulp It is even, without destroying the beds of precipitation of 3 lower end of stirring space, save the time, rotation axis 9 rotates, and passes through the rotation of connecting rod 10 It drives helical scraper 11 to rotate, collects hole 24 to push the cupric sediment of 3 bottom of stirring space to enter, complete copper oxide Efficiently separate, wherein speed is flowed in and out by solenoid valve control, ensures the adding proportion of flocculant, realizes technique mistake Controllability in journey, and the sum of pulp slurry and the admission velocity of flocculant be equal to slurry liquid and cupric sediment the rate of outflow it With, can ensure 3 internal precipitate of stirring space reaction continuous progress, reduce interference, ensure that oxide ore detach it is efficient Property.

It is obvious to a person skilled in the art that invention is not limited to the details of the above exemplary embodiments, Er Qie In the case of without departing substantially from spirit or essential attributes of the invention, the present invention can be realized in other specific forms.Therefore, no matter From the point of view of which point, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the present invention is by appended power Profit requires rather than above description limits, it is intended that all by what is fallen within the meaning and scope of the equivalent requirements of the claims Variation is included within the present invention.Any reference signs in the claims should not be construed as limiting the involved claims.

Claims (5)

1. a kind of difficult oxide ore device for effectively separating, including fixed bottom plate, it is characterised in that：The fixed bottom plate upper surface Right side be fixedly installed an agitator tank, the agitator tank is internally provided with a stirring space, in the agitator tank upper surface The rotating box being connect with its integral type is provided at heart position, the lower end inside the rotating box is provided with a rotation space, institute It states the upside inside rotation space and is provided with a tapered rotary tooth, the center position fixing sleeve of the tapered rotary tooth is connected to one Rotating bar, the rotation space upper end wall are internally provided with a fixation supporting and space, are arranged inside the fixed supporting and space Have a rotational support plate, the upper end of the rotating bar pass through the upper end wall of rotation space and with the center of rotational support plate lower face Position is fixedly connected, and the lower end of the rotating bar passes through the lower end wall of rotation space and the downside inside stirring space, institute Multiple connecting rods tilted upward are distributed in the lower circumferential for stating rotating bar cylindroid, and the connecting rod lower end is connected with one jointly Helical scraper, the one end of the connecting rod far from rotating bar are fixedly connected by a cable wire with rotating bar, the rotating bar The middle position fixing sleeve of the body of rod one buffer pocket is housed, the buffer pocket is internally provided with the dashpot of an opening upwards, A liquid reserve tank is fixedly installed on the right side of the agitator tank upper surface, it is empty that the liquid reserve tank is internally provided with flocculant storage Between, the lower end of the liquid reserve tank left side is provided with an additive pipe extended downwardly, and the lower end of the additive pipe, which passes through, to be stirred It mixes the upper end wall in space and in dashpot, the additive pipe is internally provided with an additive hole, the additive hole connects Logical dashpot and flocculant storage space, the additive hole are internally provided with first flow control valve, the agitator tank right end Discharge pipe is provided on the upside of face, the discharge pipe is internally provided with a plasma discharge hole, and the plasma discharge hole is connected to stirring space, described It is provided with second flow control valve on discharge pipe, a sediment collecting pipe is provided on the downside of the agitator tank right side, it is described Sediment collecting pipe is internally provided with a collection hole, and the center position for collecting hole connection stirring space lower face is described It is provided with third flow control valve on sediment collecting pipe, a supporting block, institute are provided on the left of the fixed bottom plate upper surface The upper end for stating supporting block is fixedly installed a crush box, and the crush box is internally provided with a comminuting space, on the crush box The center position of end face is provided with the feed inlet for being integrated with formula structure, and the feed inlet connection comminuting space and the external world are empty Between, the right side of the crush box is provided with the transmission case for being integrated with formula structure, and the transmission case is internally provided with a biography Space is moved, power gear is symmetrically arranged with before and after the lower end of the transmission space left end, power gear coordinates described in rear and front end Connection, the center position of the power gear left side have been fixedly connected with a rotary shaft, and the left end of the rotary shaft passes through It the left end wall and comminuting space of transmission space and is fixedly connected with the left end wall rotary type of comminuting space, the axis body of the rotary shaft Equal fixing sleeve is connected to a roller bar, and a driving motor, the driving are fixedly connected on front side of the transmission space right end wall lower end The left end be connected by power of motor has a drive shaft, the left end of the drive shaft to be fixedly connected in the power gear right side of front end At heart position, the upside rotary type of the transmission space left side is fixedly connected with a transmission shaft extended to the right, the rotation A transmission gear is set on the left of axis axis body, the lower end of the transmission gear and the upper end cooperation of the front end power gear connect It connects, the right end of the transmission shaft sequentially passes through the right end wall of transmission space and the left end wall of rotation space and is fixedly connected with one and erects Histogram to taper driving cog, the upper end of the taper driving cog and the left end of tapered rotary tooth be connected, the crush box The lower end of right side is provided with an inlet pipe, and the left end of the inlet pipe passes through the left end wall of stirring space and extends down into Dashpot, the inlet pipe are internally provided with a slurry-feeding hole, the slurry-feeding hole connection comminuting space and dashpot, the inlet pipe On be fixedly installed the 4th flow control valve.

2. a kind of difficult oxide ore device for effectively separating according to claim 1, it is characterised in that：The roller bar it is straight Diameter is less than the diameter of power gear, and the roller bar is respectively less than the distance between two roller bars at a distance from comminuting space inner wall.

3. a kind of difficult oxide ore device for effectively separating according to claim 1, it is characterised in that：The taper transmission The diameter of tooth is much smaller than the diameter of tapered rotary tooth.

4. a kind of difficult oxide ore device for effectively separating according to claim 1, it is characterised in that：The stirring space Lower end wall be back taper, the connecting rod with the lower end wall keeping parallelism of stirring space, the lower end of the helical scraper It is connect with the lower end wall contact of stirring space.

5. a kind of difficult oxide ore device for effectively separating according to claim 1, it is characterised in that：The first flow Control valve controls the adding speed of flocculant in additive hole, and the second flow control valve controls upper layer mud in stirring space The rate of outflow of liquid, the third flow control valve control the velocity of discharge of bottom cupric sediment in stirring space, the 4th stream The sum of the admission velocity of the admission velocity of control valve control pulp slurry, pulp slurry and flocculant is equal to slurry liquid and is precipitated with cupric The sum of rate of outflow of object.