CN207805795U - A kind of waterpower separator - Google Patents

Abstract

The waterpower separator of the utility model, including from top to bottom successively drop setting the washup pond with mineral wiper mechanism, the separate tank with the first minerals separation mechanism and the ore dressing pond with the second minerals separation mechanism；The washup pond has first charging aperture and goes out mine mouth positioned at the first of pool bottom；The separate tank has second charging aperture and goes out mine mouth positioned at the second of pool bottom, which goes out mine mouth with described first and be connected；The ore dressing pond has third feed inlet and goes out mine mouth positioned at the third of pool bottom, which goes out mine mouth with described second and be connected.Compared with the existing technology, the waterpower separator of the utility model, during slag separation, the waterpower separator uses the buoyancy and ringing of flow, and slag is passed through to the washup in washup pond successively, and separate tank detaches metalliferous mineral, further screening of the ore dressing pond to metal slag, to obtain high-grade mineral, and it is simple in structure, handling capacity is big.

Description

A kind of waterpower separator

Technical field

The utility model is related to mineral to screen field, more particularly to a kind of waterpower separator.

Background technology

Niobium (Nb) is a kind of greyish white non-ferrous metal with gloss, 2468 DEG C of fusing point, and 4742 DEG C of boiling point is widely used in atomic energy work Industry, aerospace industry, war industry, electronics industry, chemical industry, superconductor and Medical Instruments etc.；Tantalum (Ta) is One kind is primarily present in tantalite, usually has very outstanding chemical property with niobium symbiosis, is had high anticorrosive Property, it is electronics industry and the indispensable strategic material of space technology development, is mainly used for electronics, machinery, Chinese workers, four art of aerospace Field；Rhenium (Re) is a kind of dystectic metal, and appearance is identical as platinum, and pure rhenium matter is soft, has good mechanical performance, is widely used in Radio, TV and vacuum technique.Therefore, the recycling of the valuable metals such as niobium, tantalum, rhenium has great significance.

There are many tungsten, tin, copper, lead ore residue quantity, but tenor grade is relatively low, tungsten tin grade 0.3-0.5%, copper grade 0.5-0.8%, lead grade 1.5-2%, gold grade 0.5-0.6g/T, silver-colored grade 40-60g%T, tantalum grade 0.02%, niobium grade 0.03%, the general 40-50% of recovery rate in ore-dressing can just bring benefits so synthetical recovery must be carried out, choosing in the prior art Mine machine handling capacity is smaller, complicated, and the slag grade selected is relatively low.

Utility model content

Based on this, the purpose of the utility model is to overcome shortcoming and deficiency in the prior art, provide a kind of waterpower point From device, have handling capacity big, simple in structure, the advantages of improving slag grade.

The utility model is achieved through the following technical solutions：Including from top to bottom successively drop setting have mineral The washup pond of wiper mechanism, the separate tank with the first minerals separation mechanism and the ore dressing pond with the second minerals separation mechanism； The washup pond has first charging aperture and goes out mine mouth positioned at the first of pool bottom；The separate tank have second charging aperture and Go out mine mouth positioned at the second of pool bottom, the second charging aperture goes out mine mouth with described first and is connected；The ore dressing pond has Third feed inlet and go out mine mouth positioned at the third of pool bottom, the third feed inlet goes out mine mouth with described second and is connected.

Compared with the existing technology, the waterpower separator of the utility model, during slag separation, waterpower separation Device utilizes the buoyancy and ringing of flow, and slag is passed through to the cleaning of washup pond mineral wiper mechanism, separate tank the successively One minerals separation mechanism detaches metalliferous mineral, further sieve of ore dressing pond the second minerals separation mechanism to metal slag Choosing, to obtain high-grade mineral.The utility model is simple in structure, using multi-level separation mineral, improves the product of slag Position.

Further, the mineral wiper mechanism in the washup pond includes the first sieve, water inlet pipe and the first sewage mouth；It is described First sieve is located at the top of the washup pond body, is blocked for carrying out level-one to mineral grain；The water inlet pipe is located at described The top of first sieve；First sewage mouth is located at the top of first sieve, for sewage to be discharged.Washup pond profit A large amount of silts in slag are purged with the buoyancy of water, to obtain cleaner slag.

Further, the mineral wiper mechanism in the washup pond includes and washup bottom of pond portion is angled is obliquely installed Inclined surface；Described first goes out the lowest point that mine mouth is set to the inclined surface.The setting makes useful metalliferous mineral precipitate and incline Oblique pool bottom, and under the active force of flow from first go out mine mouth and be discharged into separate tank to be detached.

Further, the mesh number of first sieve is 100, which carries out level-one to mineral grain and block, thus will Mineral preliminary screening goes out.

Further, the first minerals separation mechanism of the separate tank include the second sieve, water pipe, the second sewage mouth and Mineral screening tank；Second sieve is located at the top of the separation pond body, is blocked for carrying out two level to mineral grain；It is described Water pipe is set to the lower section of second sieve；Second sewage mouth is located at the top of second sieve；The mineral Screening tank is located at the lower section of second sieve.The separate tank utilizes the gravity of water (flow) direction and mineral metal by metallic ore Slag screens separation again.

Further, the mineral screening tank has multi-step, and lowest level ladder is located at the separate tank pond body Bottom；Described second, which goes out mine mouth, is set at the lowest level ladder of the mineral screening tank.The stair-stepping mineral slot is by metal Mineral are screened layer by layer to obtain the higher metal slag of grade.

Further, the mesh number of second sieve is 200.The metalliferous mineral of smaller particle is blocked and is being detached by the setting In pond.

Further, the second minerals separation mechanism in the ore dressing pond include third sieve, sparge pipe, third sewage mouth and Concave-convex pole orifice plate；The third sieve is set to the top in the ore dressing pond, is blocked for carrying out three-level to mineral grain；Institute State the lower section that sparge pipe is set to the third sieve；The third sewage mouth is set to the top of the sieve；The bumps Shape pole orifice plate is inclined at an angle the bottom for being set to the separate tank pond body；The third goes out mine mouth and is set to the bumps The lowest point of shape pole orifice plate.

Further, the mesh number of the third sieve is 300.The setting blocks more short grained metalliferous mineral in ore dressing In pond, ensure being sufficiently reserved for useful metal mineral.

Further, the washup pond, separate tank and ore dressing pond are detachable.The design make washup pond, separate tank and Ore dressing pond easily splits, moves or assembles.

Compared with the existing technology, the waterpower separator of the utility model, during slag separation, waterpower separation Device utilizes the buoyancy and ringing of flow, and slag is passed through to the cleaning of washup pond mineral wiper mechanism, separate tank the successively One minerals separation mechanism detaches metalliferous mineral, further sieve of ore dressing pond the second minerals separation mechanism to metal slag Choosing, to obtain high-grade slag.In addition, the drop design in washup pond, separate tank and ore dressing pond, separate tank mineral screening tank Stepped design and the inclined design of ore dressing pond concave-convex pole orifice plate each contribute to the screening layer by layer of metal slag, to The higher metal slag of grade is obtained, and is had the advantages of simple structure and easy realization.

In order to better understand and implement, according to the present invention will be described in detail below with reference to the accompanying drawings.

Description of the drawings

Fig. 1 is the structural schematic diagram of the waterpower separator of the utility model.

Specific implementation mode

In the description of the present invention, it should be understood that term "center", " longitudinal direction ", " transverse direction ", "upper", "lower", The orientation or positional relationship of the instructions such as "front", "rear", "left", "right", " hard straight ", "horizontal", "top", "bottom", "inner", "outside" is It is based on the orientation or positional relationship shown in the drawings, is merely for convenience of describing the present invention and simplifying the description, rather than indicate Or imply that signified device or element must have a particular orientation, with specific azimuth configuration and operation, therefore cannot understand For limitations of the present invention.In the description of the present invention, unless otherwise indicated, the meaning of " plurality " is two or two More than a.

Referring to Fig. 1, Fig. 1 is the structural schematic diagram of the waterpower separator of the utility model.The waterpower separator, by The steel plate of 8 millimeters thicks is made, 6 meters long, 2 meters wide, 1.2 meters high, including the washup pond 10 of drop setting, separation successively from top to bottom Pond 20 and ore dressing pond 30, and the drop between the washup pond 10, separate tank 20 and ore dressing pond 30 is 0.9 meter, and it is removable The Activities Design divided, with the movement or assembling of urinal body.

The washup pond 10 has mineral wiper mechanism, and specifically, mineral wiper mechanism includes first charging aperture 11, first goes out Mine mouth 12, the first sieve 13, water inlet pipe 14 and the first sewage mouth 15.The first charging aperture 11 is located on the side wall of pond body, uses In the conveying of slag；First sieve 13 is located at the top of the washup pond body, and positioned at the upper of the first charging aperture 11 Side is blocked for carrying out level-one to metal slag, and specifically, the mesh number of first sieve is 100 mesh, effectively resists metalliferous mineral Resistance avoids being lost in washup pond.The water inlet pipe 14 is located at the top of first sieve 13；First sewage mouth 15 In the top of first sieve 13, for sewage to be discharged.The mineral wiper mechanism in the washup pond includes and washup bottom of pond The angled inclined surface being obliquely installed in portion；Described first, which goes out mine mouth 12, is set to the inclined surface lowest point, to clean Slag discharge afterwards is flowed into separate tank 20.The washup pond 10 to metal slag carry out previous cleaning, remove most silt with Obtain more clean metal slag.Specifically, slag enters from the first charging aperture 11, and water inlet pipe 14 delivers water into pond It is interior, slag is cleaned, under the buoyancy of water, partial impurities or silt are with flow from 15 row of the first sewage mouth Go out, at this point, the first sieve 13 blocks metal slag in pond, under the continuous flushing of recirculated water, metal slag cleans more Totally.

The separate tank 20 has the first minerals separation mechanism, and specifically, the first minerals separation mechanism includes second charging aperture 21, second goes out mine mouth 22, the second sieve 23, water pipe 24, the second sewage mouth 25 and mineral screening tank 26；The second charging aperture 21 are located at the top of the separation pond body, and go out mine mouth 12 with described first and be connected；Described second, which goes out mine mouth 22, is located at pond body Bottom；Second sieve 23 is located at the top of the separation pond body, for metal slag progress two level to be blocked, specifically, The mesh number of first sieve is 200 mesh；The water pipe 24 is set to the lower section of second sieve 23, and has fine and closely woven water outlet Mouthful, and be provided with it is a plurality of, to be cleaned again to metal slag；Second sewage mouth 25 is located at the upper of second sieve 23 Side is used for the discharge of sewage.The mineral screening tank 26 is located at the lower section of second sieve 23, and has multi-step, most Lower layer's ladder is located at the bottom of the separate tank pond body；Described second, which goes out mine mouth 22, is set to the most lower of the mineral screening tank 26 At layer ladder.When metal slag goes out mine mouth 12 from the first of washup pond and enters separate tank 20, by the second sieve of separate tank 20 The smaller metalliferous mineral of particle is filtered out and is sunk to the mineral screening tank 26 of 23 lower section of the second sieve by net 23.Multi-step shape Mineral screening tank 26 metalliferous mineral is constantly screened under the action of the buoyancy of flow and centrifugal force, it is high-grade to obtain Metal slag.

The ore dressing pond 30 has the second minerals separation mechanism, and specifically, the second minerals separation mechanism includes third feed inlet 31, third goes out mine mouth 32, third sieve 33, sparge pipe 34, third sewage mouth 35 and concave-convex pole orifice plate 36；The third charging Mouth 31 is located at the top of the ore dressing pond body, and goes out mine mouth 22 with described second and be connected；The third goes out mine mouth 32 and is located at pond Body bottom；The third sieve 33 is located at the top in the ore dressing pond, for metal slag progress three-level to be blocked, specifically, The mesh number of the third sieve 33 is 300 mesh；The sparge pipe 34 is set to the lower section of the third sieve 33, and is provided with more Item, to be cleaned again to metal slag；The third sewage mouth 35 is set to the top of the third sieve 33；The concave-convex Pole orifice plate 36 is inclined at an angle the bottom for being set to 30 pond body of ore dressing pond；The third go out mine mouth 32 be set to it is described The lowest point of concave-convex pole orifice plate 36.When metal slag goes out mine mouth 22 from the second of separate tank 20 and enters ore dressing pond 30, pass through The smaller metalliferous mineral of particle is filtered out and is sunk to the concave-convex pole of 33 lower section of third sieve by the third sieve 33 in ore dressing pond 30 Orifice plate 36, concave-convex pole orifice plate 36 screens metalliferous mineral under the hydro-peening of fine and closely woven a plurality of sparge pipe, to obtain more high-grade Metal slag.

Compared with the existing technology, the waterpower separator of the utility model, during slag separation, waterpower separation Device utilizes the buoyancy and ringing of flow, and slag is passed through to the cleaning of washup pond mineral wiper mechanism, separate tank the successively One minerals separation mechanism detaches metalliferous mineral, further sieve of ore dressing pond the second minerals separation mechanism to metal slag Choosing, to obtain high-grade slag.In addition, the drop design in washup pond, separate tank and ore dressing pond, separate tank mineral screening tank Stepped design and the inclined design of ore dressing pond concave-convex pole orifice plate each contribute to the screening layer by layer of metal slag, to The higher metal slag of grade is obtained, and is had the advantages of simple structure and easy realization.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But therefore it can not be interpreted as the limitation to utility model patent range.It should be pointed out that for the common skill of this field For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The scope of protection of the utility model.

Claims (10)

1. a kind of waterpower separator, it is characterised in that：Including from top to bottom successively drop setting have mineral wiper mechanism Washup pond, the separate tank with the first minerals separation mechanism and the ore dressing pond with the second minerals separation mechanism；The washup Pond has first charging aperture and goes out mine mouth positioned at the first of pool bottom；The separate tank has second charging aperture and is located at pond body The second of bottom goes out mine mouth, and the second charging aperture goes out mine mouth with described first and is connected；The ore dressing pond is fed with third Mouthful and go out mine mouth positioned at the third of pool bottom, the third feed inlet goes out mine mouth with described second and is connected.

2. waterpower separator according to claim 1, it is characterised in that：The mineral wiper mechanism in the washup pond includes First sieve, water inlet pipe and the first sewage mouth；First sieve is located at the top of the washup pond body, for mineral grain Level-one is carried out to block；The water inlet pipe is located at the top of first sieve；First sewage mouth is located at first sieve Top, for sewage to be discharged.

3. waterpower separator according to claim 2, it is characterised in that：The mineral wiper mechanism in the washup pond includes With the angled inclined surface being obliquely installed in washup bottom of pond portion；Described first, which goes out mine mouth, is set to the minimum of the inclined surface Place.

4. waterpower separator according to claim 2, it is characterised in that：The mesh number of first sieve is 100.

5. waterpower separator according to claim 1, it is characterised in that：First minerals separation mechanism of the separate tank Including the second sieve, water pipe, the second sewage mouth and mineral screening tank；Second sieve is located at the top of the separation pond body Portion is blocked for carrying out two level to mineral grain；The water pipe is set to the lower section of second sieve；Second sewage Mouth is located at the top of second sieve；The mineral screening tank is located at the lower section of second sieve.

6. waterpower separator according to claim 5, it is characterised in that：The mineral screening tank has multi-step, And lowest level ladder is located at the bottom of the separate tank pond body；Described second, which goes out mine mouth, is set to the most lower of the mineral screening tank At layer ladder.

7. waterpower separator according to claim 5, it is characterised in that：The mesh number of second sieve is 200.

8. waterpower separator according to claim 1, it is characterised in that：The second minerals separation mechanism in the ore dressing pond Including third sieve, sparge pipe, third sewage mouth and concave-convex pole orifice plate；The third sieve is set to the top in the ore dressing pond Portion is blocked for carrying out three-level to mineral grain；The sparge pipe is set to the lower section of the third sieve；The third sewage Mouth is set to the top of the sieve；Concave-convex pole orifice plate is inclined at an angle the bottom for being set to the separate tank pond body Portion；The third goes out the lowest point that mine mouth is set to concave-convex pole orifice plate.

9. waterpower separator according to claim 8, it is characterised in that：The mesh number of the third sieve is 300.

10. waterpower separator according to claim 1, it is characterised in that：The washup pond, separate tank and ore dressing pond are equal It is detachable.