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CN-224208144-U - Big piece breaker is used in regeneration active carbon production

CN224208144UCN 224208144 UCN224208144 UCN 224208144UCN-224208144-U

Abstract

The utility model relates to the technical field of crushing devices and discloses a large-block crushing device for producing regenerated active carbon, which comprises a crushing box, wherein two ends of the inner wall of the crushing box are movably connected with crushing baffles, the outer walls of the two ends of the crushing box are provided with arc-shaped limiting grooves, one end of each crushing baffle is movably connected with one side of the inner wall of each arc-shaped limiting groove, one end of each crushing box is fixedly connected with an arc-shaped rack, the arc-shaped racks are parallel to the arc-shaped limiting grooves, one side outer wall of each arc-shaped rack is provided with a sliding groove, one end of each sliding groove is slidably connected with a sliding plate, one end of each sliding plate is fixedly connected with a positive and negative motor, a positive and negative motor rotating shaft extends to one end of each sliding plate, the positive and negative motor rotating shaft is fixedly connected with a gear, the gear is in meshed connection with the arc-shaped racks, and one end of each gear, which is far away from the positive and negative motors, is in movable connection with one end of each crushing baffle.

Inventors

  • RUAN ZHENGYA
  • ZHANG WENTAO
  • XIA LEI
  • HUANG KAIFU
  • ZHANG ZEWEN
  • YANG MIN

Assignees

  • 江苏恒源活性炭有限公司

Dates

Publication Date
20260508
Application Date
20250409

Claims (7)

  1. 1. The utility model provides a big piece breaker is used in production of regeneration active carbon, includes broken case (1), its characterized in that broken case (1) inner wall both ends swing joint has broken baffle (2), arc spacing groove (3) have been seted up to broken case (1) both ends outer wall, broken baffle (2) one end swing joint is in arc spacing groove (3) inner wall one side, broken case (1) one end outer wall fixedly connected with arc rack (4), arc rack (4) are parallel with arc spacing groove (3), spout (5) have been seted up to arc rack (4) one side outer wall, spout (5) inner wall one end sliding connection has sliding plate (6), sliding plate (6) one end outer wall fixedly connected with positive and negative motor (7), positive and negative motor (7) rotation axis extends to sliding plate (6) one end inner wall, positive and negative motor (7) rotation axis fixedly connected with gear (8), gear (8) are engaged with arc rack (4), positive and negative motor (7) one end outer wall and broken baffle (2) one end are swing joint.
  2. 2. The large crushing device for producing regenerated active carbon according to claim 1, wherein a rotating shaft (9) is movably connected to one side of the inner wall of the crushing box (1), a connecting shaft on one side of the rotating shaft (9) extends to one side of the outer wall of the crushing box (1), a second rotating shaft (10) is movably connected to one side of the inner wall of the crushing box (1) close to the rotating shaft (9), and a connecting shaft on one side of the second rotating shaft (10) extends to one side of the outer wall of the crushing box (1).
  3. 3. The massive crushing device for producing regenerated active carbon according to claim 2, wherein a transmission gear (11) is fixedly connected to a connecting shaft on one side of the rotating shaft (9), a second transmission gear (12) is fixedly connected to a connecting shaft on one side of the second rotating shaft (10), and the transmission gear (11) is in meshed connection with the second transmission gear (12).
  4. 4. A large-scale crushing device for producing regenerated active carbon according to claim 3, wherein the rotating shaft (9) and the second rotating shaft (10) are positioned right above the crushing baffle plate (2).
  5. 5. The large crushing device for producing regenerated active carbon according to claim 3, wherein the outer wall of one side of the crushing box (1) close to the transmission gear (11) is fixedly connected with a fixed plate (13), the top of the fixed plate (13) is fixedly connected with a servo motor (14), and a rotating shaft of the servo motor (14) is fixedly connected with a connecting shaft of one side of the rotating shaft (9) close to the transmission gear (11).
  6. 6. The massive crushing device for producing regenerated active carbon according to claim 2 is characterized in that a plurality of groups of crushing blades (15) which are distributed in spiral equidistance are sleeved on the outer walls of the rotating shaft (9) and the second rotating shaft (10).
  7. 7. The large-scale crushing device for producing regenerated active carbon according to claim 1, wherein the top of the crushing box (1) is fixedly connected with a conveying hopper (16), a collecting box (17) is arranged at the bottom of the crushing box (1), and the collecting box (17) is positioned right below the output direction of the crushing baffle plate (2).

Description

Big piece breaker is used in regeneration active carbon production Technical Field The utility model relates to the technical field of crushing devices, in particular to a large-block crushing device for producing regenerated activated carbon. Background The regenerated active carbon, which is an environment-friendly and renewable material, is widely applied to a plurality of fields such as water treatment, air purification, catalyst carriers and the like. In the production process, the massive regenerated active carbon is often subjected to crushing treatment so as to meet the requirements of different process links on the granularity of materials. The crushing treatment can not only improve the utilization rate of the regenerated active carbon, but also optimize the physical and chemical properties of the regenerated active carbon, thereby improving the overall quality of the product. Therefore, the high-efficiency and stable regenerated active carbon bulk crushing device is important for the production and processing of the regenerated active carbon. Conventional regenerated activated carbon crushing techniques mostly employ mechanical impact or rolling, and although these methods can achieve crushing of materials, there are a number of drawbacks. The traditional technology is high in energy consumption, low in crushing efficiency, difficult to meet the requirement of large-scale production, in addition, the traditional crushing device is complex in structure, high in maintenance cost, and easy-damaged parts are frequently replaced, so that the production cost is further increased. These disadvantages not only limit the production efficiency of regenerated activated carbon, but also affect the market competitiveness of the product and the economic benefit of the enterprise. Therefore, it is important to develop a novel and efficient large-block crushing device for regenerated active carbon, and for this purpose, we propose a large-block crushing device for regenerated active carbon production. Disclosure of utility model Aiming at the defects of the prior art, the utility model provides a large-block crushing device for producing regenerated active carbon, which solves the problems. In order to achieve the purpose, the large-block crushing device for producing the regenerated active carbon comprises a crushing box, wherein crushing baffles are movably connected to two ends of the inner wall of the crushing box, arc-shaped limiting grooves are formed in the outer walls of the two ends of the crushing box, one end of each crushing baffle is movably connected to one side of the inner wall of each arc-shaped limiting groove, an arc-shaped rack is fixedly connected to one end of each crushing box, the arc-shaped rack is parallel to each arc-shaped limiting groove, a sliding groove is formed in the outer wall of one side of each arc-shaped rack, a sliding plate is slidably connected to one end of the inner wall of each sliding groove, a positive motor and a negative motor are fixedly connected to one end of each sliding plate, a rotating shaft of each positive motor and a negative motor is extended to one end of each sliding plate, gears are fixedly connected to one end of each positive motor and each negative motor, and each gear is in meshed connection with one end of each arc-shaped rack, and one end of each gear, which is far away from each positive motor and each negative motor. Preferably, the movable connection of one side of the inner wall of the crushing box is provided with a rotating shaft, the connecting shaft of one side of the rotating shaft extends to one side of the outer wall of the crushing box, the inner wall of the crushing box is close to one side of the rotating shaft and is movably connected with a second rotating shaft, and the connecting shaft of one side of the second rotating shaft extends to one side of the outer wall of the crushing box. Preferably, the connecting shaft at one side of the rotating shaft is fixedly connected with a transmission gear, the connecting shaft at one side of the second rotating shaft is fixedly connected with a second transmission gear, and the transmission gear is meshed with the second transmission gear. Preferably, the rotating shaft and the second rotating shaft are located right above the crushing baffle. Preferably, the crushing box is close to the fixed plate of outer wall fixedly connected with in drive gear one side, fixed plate top fixedly connected with servo motor, servo motor rotation axis fixed connection is close to drive gear one side connecting axle in the pivot. Preferably, the outer walls of the rotating shaft and the second rotating shaft are sleeved with a plurality of groups of crushing blades which are distributed in a spiral equidistant mode. Preferably, the top of the crushing box is fixedly connected with a conveying hopper, the bottom of the crushing box is provided with a collecting box, and the collecting box is positioned rig