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CN-224208216-U - Magnetic separator for purifying magnetic substances by multiple rollers distributed in parallel

CN224208216UCN 224208216 UCN224208216 UCN 224208216UCN-224208216-U

Abstract

The application relates to a magnetic separator for purifying magnetic substances by multiple rollers, which comprises a feeding mechanism, a material conveying mechanism, multiple groups of roller mechanisms, a collecting mechanism, a driving system and a frame, wherein the feeding mechanism is arranged in front of the roller mechanisms and on the material conveying mechanism, the feeding mechanism is detachably connected with the frame, the multiple groups of roller mechanisms are sequentially arranged in parallel along a discharging direction, the roller mechanisms are detachably connected with the frame, the material conveying mechanism is positioned at the bottom of the roller mechanisms, the material conveying mechanism is detachably connected with the frame, the collecting mechanism is positioned at the juncture of a magnetic area and a non-magnetic area between the material conveying mechanism and the roller mechanisms, the collecting mechanism is detachably connected with the frame, the driving system is fixedly connected with the frame, and the driving system provides power for the feeding mechanism, the material conveying mechanism, the multiple groups of roller mechanisms and the collecting mechanism.

Inventors

  • ZHANG ZHIFENG
  • ZHANG SHUBING

Assignees

  • 河南恒硕磁选设备有限公司

Dates

Publication Date
20260508
Application Date
20250529

Claims (8)

  1. 1. The magnetic separator for purifying magnetic substances by using multiple rollers in parallel is characterized by comprising a feeding mechanism (1), a material conveying mechanism (2), multiple groups of roller mechanisms (3), a collecting mechanism (4), a driving system (5) and a frame (6), wherein the feeding mechanism (1) is arranged in front of the roller mechanisms (3) and on the material conveying mechanism (2), the feeding mechanism (1) is detachably connected with the frame (6), the multiple groups of roller mechanisms (3) are sequentially arranged in parallel along a discharging direction, the roller mechanisms (3) are detachably connected with the frame (6), the material conveying mechanism (2) is positioned at the bottom of the roller mechanisms (3), the material conveying mechanism (2) is detachably connected with the frame (6), the collecting mechanism (4) is positioned at a juncture between a magnetic area and a non-magnetic area between the material conveying mechanism (2) and the roller mechanisms (3), the collecting mechanism (4) is detachably connected with the frame (6), the driving system (5) is fixedly connected with the frame (6), and the driving system (5) provides power for the feeding mechanism (1), the material conveying mechanism (2), the multiple groups of roller mechanisms (3) and the collecting mechanism (4).
  2. 2. The magnetic separator for purifying magnetic substances by using multiple parallel rollers according to claim 1, wherein the feeding mechanism (1) comprises a feeding hopper (11), a first discharging mechanism (12) and a vibrating motor (13), the feeding hopper (11) is detachably connected with the frame (6), the first discharging mechanism (12) is arranged on one side of the bottom of the feeding hopper (11), the first discharging mechanism (12) is detachably connected with the feeding hopper (11), the vibrating motor (13) is arranged on the other side of the feeding hopper (11), and the vibrating motor (13) is detachably connected with the feeding hopper (11).
  3. 3. The magnetic separator for purifying magnetic substances by using multiple parallel rollers according to claim 1, wherein the material conveying mechanism (2) comprises a conveying belt (21), a plurality of driving rollers (22) and a connecting rod (23) which are connected through the connecting rod (23), the driving rollers (22) are sequentially arranged along the discharging direction, the conveying belt (21) is arranged on the driving rollers (22), the rubber guiding strips (24) are arranged on two sides of the conveying belt (21), and the rubber guiding strips (24) are fixedly connected with the conveying belt (431).
  4. 4. The magnetic separator for purifying magnetic substances by using multiple parallel-distributed rollers according to claim 1, wherein the roller mechanism (3) comprises a main roller (31), a bearing mechanism (32), a pneumatic spring (33), a sliding block (34) and a linear motion guide rail (35), the main roller (31) is rotationally connected with the bearing mechanism (32), the bearing mechanism (32) is detachably connected with the sliding block (34), the sliding block (34) is slidably connected with the linear motion guide rail (35), one side of the pneumatic spring (33) is detachably connected with a frame (6), the other side of the pneumatic spring (33) is connected with the sliding block (34), and the linear motion guide rail (35) is detachably connected with the frame (6).
  5. 5. The magnetic separator for purifying magnetic substances by using multiple parallel-distributed drums according to claim 4, wherein the main drum (31) comprises a main shaft (311), a drum shell (312) and an adjustable rotary magnetic block (313), the main shaft (311) is connected with the adjustable rotary magnetic block (313), the drum shell (312) is arranged outside the adjustable rotary magnetic block (313), and the drum shell (312) is detachably connected with the main shaft (311).
  6. 6. The magnetic separator for purifying magnetic substances by using multiple parallel rollers according to claim 1, wherein the collecting mechanism (4) comprises a scraper (41), a v-shaped feeding groove (42), a conveying mechanism (43) and a collecting mechanism (44), the scraper (41) is detachably connected with the frame (6), one side of the scraper (41) is arranged on one side of a non-magnetic area of the main roller (31), the v-shaped feeding groove (42) is connected with the other side of the scraper (41), the v-shaped feeding groove (42) is obliquely arranged on the conveying mechanism (43), the conveying mechanism (43) is detachably connected with the frame (6), the conveying mechanism (43) is arranged at the bottom of the v-shaped feeding groove (42), the collecting mechanism (44) is arranged at the rear part of the conveying mechanism (43) and at the upper part of a conveying belt (21) in the material conveying mechanism (2), and the collecting mechanism (44) is detachably connected with the frame (6).
  7. 7. The magnetic separator for purifying magnetic substances by using multiple parallel rollers according to claim 6, wherein the conveying mechanism (43) comprises a conveying belt (431), a driving roller (432), a driven roller (433) and a baffle (434), the driving roller (432) and the driven roller (433) are sequentially arranged along the discharging direction through a connecting rod (23), the conveying belt (431) is arranged on the driving roller (432) and the driven roller (433), the baffle (434) is arranged on two sides of the conveying belt (431), and the baffle (434) is detachably connected with the frame (6).
  8. 8. The magnetic separator for purifying magnetic substances by using multiple parallel rollers according to claim 6, wherein the collecting mechanism (44) comprises a discharge box (441) and a second discharging mechanism (442), the second discharging mechanism (442) is arranged at one side of the bottom of the discharge box (441), and the second discharging mechanism (442) is detachably connected with the discharge box (441).

Description

Magnetic separator for purifying magnetic substances by multiple rollers distributed in parallel Technical Field The application relates to the technical field of magnetic material separation and recovery by utilizing magnetic force, in particular to a magnetic separator for purifying magnetic materials by multiple rollers which are distributed in parallel. Background At present, the magnetic separator plays a key role as core equipment for separating magnetic substances and non-magnetic substances. The magnetic separator for purifying magnetic substances by using a single roller has the advantages of relatively simple structure and low cost, and is widely applied to medium and small concentrating mills and material pretreatment links. From the magnetic separation effect, the magnetic field distribution is uneven, and the materials with different magnetic strengths and weaknesses are difficult to consider, so that the concentrate grade and the recovery rate are difficult to balance, the single-drum magnetic separator has limited processing capacity, cannot meet the requirement of large-scale production, has low separation efficiency, limits the improvement of the production efficiency, and has poor recovery effect on fine-particle-grade and weak-magnetic materials. In view of the above-mentioned related art, the applicant believes that there is a defect that the recovery effect of fine-fraction, weakly magnetic materials is poor. Disclosure of utility model In order to solve the technical problems, the application provides a magnetic separator for purifying magnetic substances by multiple rollers which are distributed in parallel. The application provides a magnetic separator for purifying magnetic substances by multiple rollers in parallel distribution, which adopts the following technical scheme: The utility model provides a magnet separator of many cylinders of parallel distribution purification magnetic substance, includes feed mechanism, material conveying mechanism, multiunit cylinder mechanism, collects mechanism, system and frame, feed mechanism installs before cylinder mechanism and on the material conveying mechanism, and feed mechanism and frame are dismantled and are connected, multiunit cylinder mechanism is parallel arrangement in proper order along the ejection of compact direction, and cylinder mechanism and frame are dismantled and are connected, material conveying mechanism is located cylinder mechanism bottom, and material conveying mechanism and frame are dismantled and are linked, collect the magnetic region and the non-magnetic region juncture between mechanism and the cylinder mechanism of material, collect mechanism and frame and dismantle and be connected, actuating system and frame fixed connection, actuating system provide power for feed mechanism, material conveying mechanism, multiunit cylinder mechanism and collection mechanism. Through adopting above-mentioned technical scheme, the material is put into the ejection of compact of feed mechanism, the material arrives on the material conveying mechanism, carry the material motion to multiunit cylinder mechanism, multiunit cylinder mechanism is along ejection of compact direction parallel arrangement, form multistage magnetic separation flow, the magnetic material can experience many times absorption and separation under the magnetic field effect of different cylinders, even the weak magnetism, the tiny material of granularity also can be effectively extracted, concentrate grade and rate of recovery have been improved by a wide margin, the parallel arrangement of multiunit cylinder has showing and has increased magnetic separation area and selection path length, can handle more materials in the unit time, collection mechanism collects the magnetic material of cylinder mechanism and passes through transport mechanism to the mechanism that gathers materials. The multiple groups of roller mechanisms are arranged in parallel along the discharging direction to form a multi-stage magnetic separation process, magnetic materials can be adsorbed and separated for multiple times under the action of magnetic fields of different rollers, even substances with weak magnetism and small granularity can be effectively extracted, concentrate grade and recovery rate are greatly improved, the parallel arrangement of the multiple rollers obviously increases the magnetic separation area and the separation path length, and more materials can be processed in unit time. Preferably, the feeding mechanism comprises a feeding hopper, a first discharging mechanism and a vibrating motor, wherein the feeding hopper is detachably connected with the frame, the first intermittent feeding mechanism is arranged on one side of the bottom of the feeding hopper, the first discharging mechanism is detachably connected with the feeding hopper, the vibrating motor is arranged on the other side of the feeding hopper, and the vibrating motor is detachably connected with the