Search

CN-224207528-U - Environment-friendly dry discharging equipment for titanium ore dressing

CN224207528UCN 224207528 UCN224207528 UCN 224207528UCN-224207528-U

Abstract

The utility model discloses an environment-friendly dry-discharging device for titanium ore dressing, which comprises a shunt box, wherein filter cylinders communicated with inner cavities of the shunt box are respectively arranged at two sides of the shunt box, end plates are respectively arranged at opposite outer ends of the two filter cylinders, the shunt box and the end plates are fixedly arranged above a frame, the filter cylinders comprise a plurality of circumferentially distributed filter strips, filter gaps are arranged between the adjacent filter strips, the cross sections of the filter strips are of triangular structures, a plurality of annular ribs are sleeved on the peripheries of the plurality of filter strips, the annular ribs are fixedly connected with the peripheries of the filter strips, the annular ribs are distributed at equal intervals, a main shaft is arranged in the filter cylinders at the two sides of the shunt box in a penetrating manner, the middle of the main shaft is arranged in the transmission box in a penetrating manner, and forward and reverse spiral blades are arranged at two sides of the main body of the main shaft. The dry discharge equipment provided by the utility model enables the ore pulp to adopt a double-channel parallel treatment mode from feeding to discharging, remarkably improves the treatment capacity, and can be matched with the large-scale mineral separation requirement.

Inventors

  • WEI LAIQIANG
  • WU HAIBIN

Assignees

  • 山东玺禾重工机械有限公司

Dates

Publication Date
20260508
Application Date
20250517

Claims (10)

  1. 1. The environment-friendly dry-discharge equipment for titanium ore dressing is characterized by comprising a shunt box (1), wherein filter cartridges (4) communicated with the inner cavities of the shunt box are respectively arranged at two sides of the shunt box (1), end plates (5) are respectively arranged at the opposite outer ends of the two filter cartridges (4), and the shunt box (1) and the end plates (5) are fixedly arranged above a frame (2); The filter cylinder comprises a plurality of circumferentially distributed filter strips (41), filtering gaps are arranged between every two adjacent filter strips (41), the cross section of each filter strip (41) is of a triangular structure, a plurality of annular ribs (42) are sleeved on the periphery of each filter strip (41), the annular ribs (42) are fixedly connected with the periphery of each filter strip (41), and the annular ribs (42) are distributed at equal intervals; The filter is characterized in that a main shaft (6) is arranged in the shunt box (1) and filter cylinders (4) on two sides in a penetrating mode, a transmission box (11) is arranged in the middle of the main shaft (6), spiral blades (7) are arranged on two sides of the main body of the main shaft (6), and each spiral blade (7) comprises a forward spiral blade and a reverse spiral blade.
  2. 2. The dry discharging device for the environment-friendly titanium ore dressing as claimed in claim 1, wherein the top of the shunt box (1) is provided with a feed inlet (3).
  3. 3. The dry row equipment for environment-friendly titanium ore dressing as claimed in claim 1, wherein rotary sealing elements (12) are respectively arranged at the connection parts of the two sides of the transmission case (11) and the main shaft (6).
  4. 4. The dry row equipment for the environment-friendly titanium ore dressing as claimed in claim 3, wherein the transmission case (11) is fixedly connected in the shunt case (1), the input end of the transmission case (11) is connected with the motor (13), and the motor (13) is positioned outside the shunt case (1).
  5. 5. The environment-friendly dry row equipment for titanium ore dressing as claimed in claim 1, wherein the shaft heads at two ends of the main shaft (6) are all arranged in the support frame (8) in a penetrating way, the support frame (8) is internally embedded with a bearing seat for rotatably supporting the shaft heads, and the support frame (8) is fixedly connected with the outside of the end plate (5).
  6. 6. The environment-friendly dry-discharging device for titanium ore dressing according to claim 1, wherein the opposite outer ends of the two filter cartridges (4) are provided with discharge holes, back pressure plates (9) are arranged in the discharge holes, the back pressure plates (9) are arranged on the main shaft (6) in a sliding mode, the side portions of the back pressure plates (9) are connected with pressure adjusting assemblies (10), and the pressure adjusting assemblies (10) are arranged on the main shaft (6).
  7. 7. The dry discharging device for the environment-friendly titanium ore dressing as claimed in claim 1, wherein the outer parts of the filter cartridges (4) are respectively buckled with a housing (18).
  8. 8. The environment-friendly dry drainage device for the titanium ore dressing is characterized in that a liquid collecting hopper (14) is fixedly arranged in the frame (2), an opening is formed in the top of the liquid collecting hopper (14), and a liquid outlet is formed in the bottom of the liquid collecting hopper (14).
  9. 9. The environment-friendly dry row equipment for titanium ore dressing as claimed in claim 1, wherein one side of the bottom of the frame (2) is provided with a directional roller set (15), and the other side is provided with a universal roller set (16) which is convenient for the whole machine to move.
  10. 10. The dry discharging device for the environment-friendly titanium ore dressing as claimed in claim 9, wherein the bottom of the frame (2) is also provided with a supporting leg (17) with adjustable height.

Description

Environment-friendly dry discharging equipment for titanium ore dressing Technical Field The utility model relates to environment-friendly dry discharge equipment for titanium ore dressing, and belongs to the technical field of tailing dry discharge. Background The ore dressing of the titanium ore generally comprises the steps of crushing, ore grinding, sorting (such as gravity separation, magnetic separation and flotation) and the like, and finally, the moisture in the tailings is reduced through dry discharge equipment. The dry discharge equipment is mainly used for tailing dehydration and dry stacking treatment, and has the core aims of converting ore pulp into low-water-content solids (dry materials) through mechanical dehydration, reducing water resource consumption, avoiding environmental risks of a tailing pond and reducing transportation cost. The existing titanium ore dressing dry-discharging equipment mainly comprises a belt filter press, a plate-and-frame filter press, a centrifugal dehydrator, a cyclone, a high-frequency dewatering screen and other structures. The above-mentioned dry discharging device is practically considered to still have the following technical problems: The ore pulp is fed to the discharge from the feeding device and only passes through a fixed path, a parallel processing unit is not needed, namely, a single-channel operation mode is not needed, the single-channel processing capacity is limited, the large-scale mineral separation requirement is difficult to match, and the ore pulp is easy to become a neck blocking link in the production flow. In summary, it is clear that the prior art has inconvenience and defects in practical use, so that improvement is needed. Disclosure of utility model Aiming at the defects in the background technology, the utility model provides the environment-friendly dry discharging equipment for the titanium ore dressing, so that the ore pulp adopts a double-channel parallel processing mode from feeding to discharging, the processing capacity is obviously improved, and the large-scale dressing requirement can be matched. In order to solve the technical problems, the utility model adopts the following technical scheme: The environment-friendly dry-discharging equipment for titanium ore dressing comprises a shunt box, filter cylinders communicated with inner cavities of the shunt box are respectively arranged on two sides of the shunt box, end plates are respectively arranged on opposite outer ends of the two filter cylinders, the shunt box and the end plates are fixedly arranged above a frame, the filter cylinders comprise a plurality of circumferentially distributed filter strips, filter gaps are arranged between the adjacent filter strips, the cross sections of the filter strips are of triangular structures, a plurality of annular ribs are sleeved on the peripheries of the filter strips, the annular ribs are fixedly connected with the peripheries of the filter strips, the annular ribs are distributed at equal intervals, a main shaft is arranged in the filter cylinders on two sides of the shunt box in a penetrating mode, a transmission box is arranged in the middle of the main shaft, and spiral blades are arranged on two sides of the main body of the main shaft and comprise forward spiral blades and reverse spiral blades. Further, the top of reposition of redundant personnel case is provided with the feed inlet. Further, a rotary sealing piece is respectively arranged at the connection parts of the two sides of the transmission case and the main shaft. Further, the transmission case is fixedly connected in the shunt case, and the input end of the transmission case is connected with the motor, and the motor is positioned outside the shunt case. Further, the shaft heads at the two ends of the main shaft are all arranged in the support frame in a penetrating way, the support frame is embedded with a bearing seat for rotatably supporting the shaft heads, and the support frame is fixedly connected to the outside of the end plate. Further, two filter cartridges are provided with discharge holes at opposite outer ends, back pressure plates are arranged in the discharge holes, the back pressure plates are arranged on the main shaft in a sliding mode, the side portions of the back pressure plates are connected with pressure adjusting assemblies, and the pressure adjusting assemblies are arranged on the main shaft. Further, the outer parts of the filter cylinders are respectively buckled with the housing. Furthermore, the inside fixed mounting of frame has the liquid collecting hopper, and liquid collecting hopper open-top sets up, and liquid collecting hopper bottom is equipped with the leakage fluid dram. Furthermore, a directional roller group is arranged on one side of the bottom of the frame, and a universal roller group is arranged on the other side of the bottom of the frame, so that the whole machine can conveniently move. Furthermore, the bottom of