CN215389952U - Ore dressing device with material separating box - Google Patents

Abstract

The utility model discloses a mineral separation device with a material distribution box, and belongs to the technical field of mineral separation equipment. The magnetic separator comprises a magnetic separator, a separation box and a scavenging concentrate tank, wherein the separation box is positioned below the magnetic separator and comprises a box body, a buffer plate and an agitating mechanism, a feeding pipe is arranged at the top of the box body, a discharging pipe is arranged at the bottom of the box body, the buffer plate is arranged on the inner wall of one side close to the top of the box body, the buffer plate is obliquely and downwards arranged, the agitating mechanism comprises an agitating blade, a fixed shaft and a servo motor, the servo motor is arranged on the outer surface of the bottom of the box body, the fixed shaft is fixedly sleeved on an output shaft of the servo motor, the agitating blade is arranged on the fixed shaft, the agitating blade is positioned in the box body and positioned below the buffer plate, and the feeding pipe is connected with a concentrate hopper of the magnetic separator; the scavenging concentrate groove is connected with a discharge pipe of the separation box and is positioned below the separation box. The concentrate gets into and divides the workbin, and the buffer board stirs the concentrate to its buffering, and rabbling mechanism avoids piling up, and the stirring that does not stop simultaneously can accelerate ejection of compact speed.

Description

Ore dressing device with material separating box

Technical Field

The utility model relates to the technical field of mineral processing equipment, in particular to a mineral processing device with a material distribution box.

Background

The vertical ring high gradient magnetic separator is suitable for the mineral separation of weakly magnetic minerals, such as hematite, limonite, siderite, ilmenite, chromite, wolframite, tantalum-niobium ore, red mud and the like. And (4) removing iron and purifying the nonmetallic minerals. Such as quartz, feldspar, nepheline, fluorite, sillimanite, spodumene, kaolin, and the like. The high-gradient magnetic separator is suitable for wet magnetic separation of materials such as magnetite, pyrrhotite, roasted ore, ilmenite and the like with the granularity of less than 3mm, and is also used for iron removal operation of materials such as coal, non-metallic ore, building materials and the like.

The vertical ring high gradient magnetic separator equipment mainly comprises a pulsation mechanism, an excitation coil, an iron yoke, a rotating ring and the like. When the ore is sorted, the rotating ring rotates clockwise, ore pulp is fed from the ore feeding hopper, flows through the rotating ring along the gap of the upper iron yoke, magnetic particles in the ore pulp are adsorbed on the surface of a magnetic medium, are brought to a top nonmagnetic field area by the rotating ring, and are flushed into the concentrate hopper by flushing water; the nonmagnetic particles flow into the tailing bucket along the gap of the lower iron yoke to be carried away.

The concentrate that found ring high gradient magnet separator roughed out is sent to through pipeline and is swept the concentration groove, because ore dressing site pipe says a lot, pipeline can have the elbow, and pipeline's elbow department is because of receiving the material to erode for a long time, and pipeline easily causes the wearing and tearing, not only causes the temporary shutdown of standing ring high gradient magnet separator, and output receives certain influence moreover.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems and provide the ore dressing device with the material distribution box, concentrate is uniformly distributed into a scavenging concentrate groove under the buffering action of the material distribution box, and the aim of reducing the wear-through of pipelines is fulfilled.

In order to achieve the purpose, the technical scheme adopted by the utility model is as follows:

ore dressing device with divide workbin includes:

a magnetic separator;

the separation box is positioned below the magnetic separator and comprises a box body, a buffer plate and a stirring mechanism, the top of the box body is provided with a feeding pipe, the bottom of the box body is provided with a discharging pipe, the discharging pipe is provided with a valve, the buffer plate is arranged on the inner wall of one side close to the top of the box body, the buffer plate is arranged obliquely downwards, the stirring mechanism comprises a stirring blade, a fixed shaft and a servo motor, the servo motor is arranged on the outer surface of the bottom of the box body, the fixed shaft is fixedly sleeved on an output shaft of the servo motor, the top of the fixed shaft penetrates through the bottom of the box body and extends into the box body, the stirring blade is arranged on the fixed shaft, the stirring blade is positioned in the box body and below the buffer plate, and the feeding pipe is connected with a concentrate hopper of the magnetic separator;

the scavenging concentrate groove is located below the separation box, and the scavenging concentrate groove is connected with a discharge pipe of the separation box.

Preferably, the method comprises the following steps: the cross-section of box is leaks hopper-shaped, the box down includes first staving and second staving from last in proper order, first staving is the cylinder, the second staving is big-end-up's round platform body, the inlet pipe is located the top of first logical body, the bottom of second staving is located to the discharging pipe.

Preferably, the method comprises the following steps: the discharging pipes are located on two sides of the bottom of the second barrel body, a concave portion is arranged at the bottom of the second barrel body and located between the two discharging pipes, the concave portion is a cone, and the servo motor is arranged on the outer surface of the top of the concave portion.

Preferably, the method comprises the following steps: the bottom height ratio of the concave part is 1.5-3.

Preferably, the method comprises the following steps: and a rubber pad is arranged on the upper surface of the buffer plate.

Preferably, the method comprises the following steps: the magnetic separator comprises a first frame, a rotating ring outer cover, a rotating ring, a magnetic medium box, an upper magnetic pole, a lower magnetic pole, an exciting coil, a pulsation device, an ore flushing device, an ore feeding hopper, an ore discharging hopper, a concentrate hopper, a tailing hopper and a driving device, wherein the rotating ring outer cover is arranged on the first frame, the rotating ring is arranged in the rotating ring outer cover, the magnetic medium box is arranged on the rotating ring and is uniformly distributed along the circumference of the rotating ring, the inner side of the rotating ring is provided with the upper magnetic pole matched with the inner circle of the rotating ring, the outer side of the rotating ring is provided with the lower magnetic pole matched with the outer circle of the rotating ring, the ore feeding hopper is arranged on the upper end surface of the upper magnetic pole, the exciting coil is sleeved on the periphery of the lower magnetic pole, the ore discharging hopper is arranged on the lower part of the lower magnetic pole, the pulsation device is arranged on one side of the ore discharging hopper and is connected with the ore discharging hopper, the ore flushing device is arranged above the rotary ring, the concentrate bucket is arranged on the left side and the right side of the upper surface in the rotary ring, an ore discharge channel is arranged below the lower magnetic pole, the ore discharge bucket is connected with the ore discharge channel, the tailing bucket is arranged on the bottom of the first rack, an ore discharge port of the ore discharge bucket faces the tailing bucket, and the driving device is arranged on the first rack and used for driving the rotary ring to rotate.

Still be equipped with oil leak collection device on the magnet separator, oil leak collection device is including connecing oil groove and drainage tube, connect the oil groove to locate swivel dustcoat below, the one end of drainage tube with connect the oil groove to connect, the other end of drainage tube with the tailing fill is connected.

The utility model relates to a mineral processing device with a material separating box, which comprises:

a magnetic separator;

the separation box is positioned below the magnetic separator and comprises a box body, a buffer plate and a stirring mechanism, the top of the box body is provided with a feeding pipe, the bottom of the box body is provided with a discharging pipe, the discharging pipe is provided with a valve, the buffer plate is arranged on the inner wall of one side close to the top of the box body, the buffer plate is arranged obliquely downwards, the stirring mechanism comprises a stirring blade, a fixed shaft and a servo motor, the servo motor is arranged on the outer surface of the bottom of the box body, the fixed shaft is fixedly sleeved on an output shaft of the servo motor, the top of the fixed shaft penetrates through the bottom of the box body and extends into the box body, the stirring blade is arranged on the fixed shaft, the stirring blade is positioned in the box body and below the buffer plate, and the feeding pipe is connected with a concentrate hopper of the magnetic separator;

the scavenging concentrate groove is located below the separation box, and the scavenging concentrate groove is connected with a discharge pipe of the separation box.

Inside the feed pipe gets into the branch workbin from the concentrate, cushion the concentrate through the buffer board, avoid great impact force to damage rabbling mechanism, start servo motor, servo motor is the reversal about the timing cycle, servo motor drives the stirring leaf through the fixed axle and rotates, will get into and divide the inside concentrate of workbin to carry out clockwise or anticlockwise stirring, the concentrate of avoiding getting into the branch workbin is piled up, and the rotation that the in-process stirring leaf is not stopping at the ejection of compact, can accelerate the speed of the ejection of compact.

Drawings

Fig. 1 is a schematic structural diagram of a mineral processing device with a distributing box.

Fig. 2 is a schematic structural diagram of a separation box in the mineral processing device with the separation box.

FIG. 3 is a schematic diagram of the main section structure of a magnetic separator in the mineral separation device with a material separation box.

FIG. 4 is a schematic diagram of a right cross-sectional structure of a magnetic separator in the mineral separation device with a material separation box.

In the attached drawing, 11-swivel, 12-swivel outer cover, 131-magnetic medium box, 132-upper magnetic pole, 133-lower magnetic pole, 134-exciting coil, 14-first frame, 15-ore flushing device, 16-ore feeding bucket, 17-ore discharging bucket, 18-concentrate bucket, 19-tailing bucket, 2-driving device, 3-pulsating device, 41-oil receiving tank, 42-drainage tube, 51-box, 511-first barrel, 512-second barrel, 513-dent part, 52-buffer plate, 53-stirring mechanism, 531-servo motor, 532-fixed shaft, 533-stirring blade, 54-feeding tube, 55-discharging tube, 56-second frame and 6-scavenging concentrate bucket.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

The following describes the embodiments of the present invention with reference to the accompanying drawings.

As shown in fig. 1, the present invention discloses a mineral processing apparatus with a material separating box, comprising:

a magnetic separator;

the separation box is located below the magnetic separator, the separation box comprises a box body 51 fixed on a second rack 56, a buffer plate 52 and a stirring mechanism 53 in the box body 51, a feeding pipe 54 is arranged at the top of the box body 51, a discharging pipe 55 is arranged at the bottom of the box body 51, a valve is arranged on the discharging pipe 55, the buffer plate 52 is arranged on the inner wall of one side close to the top of the box body 51, the buffer plate 52 is obliquely and downwards arranged, the stirring mechanism 53 comprises a stirring blade 533, a fixed shaft 532 and a servo motor 531, the servo motor 531 is arranged on the outer surface of the bottom of the box body 51, the fixed shaft 532 is fixedly sleeved on an output shaft of the servo motor 531, the top of the fixed shaft 532 penetrates through the bottom of the box body 51 and extends to the inside of the box body 51, the stirring blade 533 is arranged on the fixed shaft 532, the stirring blade 533 is located in the box body 51 and located below the buffer plate 52, the feeding pipe 54 is connected with a concentrate hopper of the magnetic separator;

and the scavenging concentrate groove 6 is positioned below the separation box, and the scavenging concentrate groove 6 is connected with the discharge pipe 55 of the separation box.

Inside the concentrate got into the branch workbin from inlet pipe 54, cushion the concentrate through buffer board 52, avoid great impact force to damage rabbling mechanism 53, start servo motor 531, servo motor 531 reverses about for timing cycle, servo motor 531 drives stirring leaf 533 through fixed axle 532 and rotates, will get into and carry out clockwise or anticlockwise stirring in the inside concentrate of branch workbin, the concentrate of avoiding getting into the branch workbin piles up, and stirring leaf 533 is in the rotation that does not stop at the in-process of the ejection of compact, can accelerate the speed of the ejection of compact.

As shown in fig. 2, the cross-section of the box body 51 is funnel-shaped, the box body 51 sequentially comprises a first barrel body 511 and a second barrel body 512 from top to bottom, the first barrel body 511 is a cylinder, the second barrel body 512 is a circular truncated cone with a large upper part and a small lower part, the feeding pipe 54 is arranged at the top of the first barrel body, and the discharging pipe 55 is arranged at the bottom of the second barrel body 512.

The number of the discharge pipes 55 is two, the discharge pipes 55 are located on two sides of the bottom of the second barrel body 512, a concave portion 513 is arranged at the bottom of the second barrel body 512, the concave portion 513 is located between the two discharge pipes 55, the concave portion 513 is a cone, and the servo motor 531 is arranged on the outer surface of the top of the concave portion 513.

The height ratio of the bottom of the recess 513 is 1.5-3. When the height of the recess 513 is too large, the volume of the box body 51 is reduced; when the height of the concave part 513 is too small, the slope is small, and the material is easy to accumulate. In this embodiment, the height ratio of the bottom of the concave portion 513 is 2, and the concave portion 513 is easy to discharge the material from the discharge pipe 55, thereby avoiding material accumulation.

The upper surface of the buffer plate 52 is provided with a rubber pad (not shown). Further improving the buffering effect.

As shown in fig. 3 and fig. 3, the magnetic separator includes a first frame 14, a rotating ring housing 12, a rotating ring 11, a magnetic medium box 131, an upper magnetic pole 132, a lower magnetic pole 133, an exciting coil 134, an ore-washing device 15, an ore-feeding bucket 16, an ore-discharging bucket 17, a concentrate bucket 18, a tailing bucket 19, a driving device 2 and a pulsating device 3, the rotating ring housing 12 is disposed on the first frame 14, the rotating ring 11 is disposed in the rotating ring housing 12, the magnetic medium box 131 is mounted on the rotating ring 11 and uniformly distributed along the circumference of the rotating ring 11, the inner side of the rotating ring 11 is provided with the upper magnetic pole 132 matching the inner circle of the rotating ring 11, the outer side of the rotating ring 11 is provided with the lower magnetic pole 133 matching the outer circle of the rotating ring 11, the ore-feeding bucket 16 is mounted on the upper end face of the upper magnetic pole 132, the exciting coil 134 is sleeved around the lower magnetic pole 133, the ore-discharging bucket 17 is mounted on the lower portion of the lower magnetic pole 133, the pulsation device 3 is installed on one side of the ore discharge hopper 17 and connected with the ore discharge hopper 17, the ore flushing device 15 is installed above the rotary ring 11, the concentrate hopper 18 is arranged on the left upper side and the right upper side in the rotary ring 11, an ore discharge channel is arranged below the lower magnetic pole 133, the ore discharge hopper 17 is connected with the ore discharge channel, the tailing hopper 19 is arranged on the bottom of the first rack 14, an ore discharge port of the ore discharge hopper 17 faces the tailing hopper 19, and the driving device 2 is arranged on the first rack 14 and used for driving the rotary ring 11 to rotate;

when the magnetic separator works, ore pulp enters a separation cavity consisting of an upper magnetic pole 132 and a lower magnetic pole 133 and an ore discharge hopper 17 from an ore inlet hopper 16, the liquid level of the ore pulp keeps a certain height, a magnetic medium box 131 at the lower part of a rotary ring 11 is immersed in the ore pulp, the rotary ring 11 continuously moves in a fixed rotation direction between the separation cavities consisting of the upper magnetic pole 132 and the lower magnetic pole 133, a strong magnetic field between the separation cavities magnetizes magnetic media on the rotary ring 11 and adsorbs magnetic substances in minerals, meanwhile, a pulsation device at one side of the ore discharge hopper 17 continuously reciprocates through an eardrum to push the ore pulp to fluctuate to wash magnetic substances adsorbed by the magnetic media to remove impurities, and magnetic ore particles adsorbed on the surface of the magnetic media are driven to a non-magnetic field at the top of the rotary ring 11 along with the clockwise rotation of the rotary ring 11 and are ejected by water sprayed from an ore flushing device 15 to flow into a concentrate outlet so as to achieve the purpose of separation.

Still be equipped with oil leak collection device, oil leak collection device on the magnet separator, oil leak collection device is including connecing oil groove 41 and drainage tube 42, connect oil groove 41 to locate swivel dustcoat 12 below, the one end of drainage tube 42 with connect oil groove 41 to connect, the other end of drainage tube 42 with tailing fill 19 is connected. By adding the oil receiving groove 41 and the drainage tube 42, the phenomenon of on-site lubricating oil dripping is avoided, and a clean and tidy environment on the site is well maintained.

The above description is intended to describe in detail the preferred embodiments of the present invention, but the embodiments are not intended to limit the scope of the claims of the present invention, and all equivalent changes and modifications made within the technical spirit of the present invention should fall within the scope of the claims of the present invention.

Claims (7)

1. Ore dressing device with divide workbin, its characterized in that includes:

a magnetic separator;

the separation box is positioned below the magnetic separator and comprises a box body, a buffer plate and a stirring mechanism, the top of the box body is provided with a feeding pipe, the bottom of the box body is provided with a discharging pipe, the discharging pipe is provided with a valve, the buffer plate is arranged on the inner wall of one side close to the top of the box body, the buffer plate is arranged obliquely downwards, the stirring mechanism comprises a stirring blade, a fixed shaft and a servo motor, the servo motor is arranged on the outer surface of the bottom of the box body, the fixed shaft is fixedly sleeved on an output shaft of the servo motor, the top of the fixed shaft penetrates through the bottom of the box body and extends into the box body, the stirring blade is arranged on the fixed shaft, the stirring blade is positioned in the box body and below the buffer plate, and the feeding pipe is connected with a concentrate hopper of the magnetic separator;

the scavenging concentrate groove is located below the separation box, and the scavenging concentrate groove is connected with a discharge pipe of the separation box.

2. The ore dressing device with a material separating box according to claim 1, characterized in that: the cross-section of box is leaks hopper-shaped, the box down includes first staving and second staving from last in proper order, first staving is the cylinder, the second staving is big-end-up's round platform body, the inlet pipe is located the top of first staving, the bottom of second staving is located to the discharging pipe.

3. The ore dressing device with a material separating box according to claim 2, characterized in that: the discharging pipes are located on two sides of the bottom of the second barrel body, a concave portion is arranged at the bottom of the second barrel body and located between the two discharging pipes, the concave portion is a cone, and the servo motor is arranged on the outer surface of the top of the concave portion.

4. The ore dressing device with a material separating box according to claim 3, characterized in that: the bottom height ratio of the concave part is 1.5-3.

5. The ore dressing device with a material separating box according to claim 1, characterized in that: and a rubber pad is arranged on the upper surface of the buffer plate.

6. The ore dressing device with a material separating box according to claim 1, characterized in that: the magnetic separator comprises a first frame, a rotating ring outer cover, a rotating ring, a magnetic medium box, an upper magnetic pole, a lower magnetic pole, an exciting coil, a pulsation device, an ore flushing device, an ore feeding hopper, an ore discharging hopper, a concentrate hopper, a tailing hopper and a driving device, wherein the rotating ring outer cover is arranged on the first frame, the rotating ring is arranged in the rotating ring outer cover, the magnetic medium box is arranged on the rotating ring and is uniformly distributed along the circumference of the rotating ring, the inner side of the rotating ring is provided with the upper magnetic pole matched with the inner circle of the rotating ring, the outer side of the rotating ring is provided with the lower magnetic pole matched with the outer circle of the rotating ring, the ore feeding hopper is arranged on the upper end surface of the upper magnetic pole, the exciting coil is sleeved on the periphery of the lower magnetic pole, the ore discharging hopper is arranged on the lower part of the lower magnetic pole, the pulsation device is arranged on one side of the ore discharging hopper and is connected with the ore discharging hopper, the ore flushing device is arranged above the rotary ring, the concentrate bucket is arranged on the left side and the right side of the upper surface in the rotary ring, an ore discharge channel is arranged below the lower magnetic pole, the ore discharge bucket is connected with the ore discharge channel, the tailing bucket is arranged on the bottom of the first rack, an ore discharge port of the ore discharge bucket faces the tailing bucket, and the driving device is arranged on the first rack and used for driving the rotary ring to rotate.

7. The ore dressing device with a material separating box according to claim 6, characterized in that: still be equipped with oil leak collection device on the magnet separator, oil leak collection device is including connecing oil groove and drainage tube, connect the oil groove to locate swivel dustcoat below, the one end of drainage tube with connect the oil groove to connect, the other end of drainage tube with the tailing fill is connected.

Images