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CN-224225844-U - Feed bin with multilayer storage structure

CN224225844UCN 224225844 UCN224225844 UCN 224225844UCN-224225844-U

Abstract

The utility model provides a feed bin with multilayer storage structure includes parallel arrangement's support bar, two liang parallel arrangement is in the terminal fixed column of support bar, connecting rod, material taking mouth to and a plurality of feed supplement mouth. The fixed bars and the connecting bars are perpendicular to the supporting bars, and the fixed bars and the connecting bars are perpendicular. The bin frames are arranged in a layered mode. And in the extending direction of the connecting bars, the inner sides of the supporting bars are provided with mounting grooves, and the mounting grooves are correspondingly arranged with the connecting bars. The sliding rail is supported by the groove surface of the mounting groove and is fixedly connected with the supporting fence. The material taking disc is movably arranged on the sliding rail and supported by the sliding rail. A plurality of storage tanks are uniformly arranged on one side of the material taking disc. The other side of the material taking disc is provided with a clamping block positioned below the material storage groove. The feed bin setting with multilayer storage structure is through setting up the feed bin frame is to the different layers get the material simultaneously and feed supplement of taking out the dish, increase production efficiency.

Inventors

  • XU JIEYU
  • ZHANG WANLI
  • Mao Huijiu
  • ZHANG XIANGYU
  • LI ZHECHUN
  • ZHANG DONGJIAN
  • DING XIAOYAO
  • LI XIANGYU

Assignees

  • 浙江田中精机股份有限公司

Dates

Publication Date
20260512
Application Date
20250227

Claims (8)

  1. 1. The storage bin with the multilayer storage structure is characterized by comprising a storage bin frame, a plurality of sliding rails which are arranged in the storage bin frame in pairs, and a plurality of material taking discs which are movably arranged on the sliding rails in a corresponding mode, wherein the storage bin frame comprises four supporting columns which are arranged in parallel, a plurality of fixing columns which are arranged at the tail ends of the supporting columns in pairs, a plurality of connecting columns which are arranged at the outer sides of the supporting columns in parallel, a plurality of material taking openings and a plurality of material supplementing openings which are arranged opposite to the material taking openings, the fixing columns and the connecting columns are perpendicular to the supporting columns, the fixing columns and the connecting columns are arranged vertically, the storage bin frame is arranged in a layered mode, the inner sides of the supporting columns are provided with a plurality of mounting grooves which are arranged correspondingly, the mounting grooves and the connecting columns are arranged correspondingly, the mounting grooves are matched with the sliding rails, the discs are arranged in one layer, the material supplementing openings and the connecting columns are arranged at the outer sides of the supporting columns, the material taking grooves are arranged correspondingly, the material taking discs are arranged correspondingly, and the material taking discs are arranged on one sides of the sliding rails, and the material taking discs are provided with the material taking discs.
  2. 2. The silo with a multi-layer storage structure of claim 1, further comprising a plurality of sensors disposed on the silo frame and outside the slide rails, and a plurality of blocking devices disposed on the outside of the silo frame on a side adjacent to the sensors.
  3. 3. The storage bin with the multilayer storage structure according to claim 2, wherein the sensor is arranged on one side, close to the material taking opening, of the connecting bar through a bracket.
  4. 4. The storage bin with the multilayer storage structure according to claim 2, wherein the blocking devices are respectively arranged on two sides of the material taking opening on the storage bin frame through brackets, each blocking device comprises an air cylinder and a blocking block arranged at the output end of each air cylinder, and the direction of pushing the blocking block by the air cylinder is parallel to the extending direction of the fixed rail.
  5. 5. The silo with a multi-layer storage structure of claim 2, wherein the blocking means is provided on the welt.
  6. 6. The storage bin with a multi-layer storage structure of claim 4, wherein when the air cylinder is started, the air cylinder pushes the blocking block, so that the blocking block is arranged on a moving path of the material taking disc, and blocking determination is carried out on a storage position of the material taking disc.
  7. 7. The storage bin with a multi-layer storage structure according to claim 1, wherein the height of the sliding rail is lower than the height of the mounting groove on the supporting rail.
  8. 8. The storage bin with the multilayer storage structure of claim 1, wherein the storage tanks are arranged in a multi-step mode, and cylindrical step blocks are arranged in the tanks.

Description

Feed bin with multilayer storage structure Technical Field The utility model relates to the field of bins, in particular to a bin with a multi-layer storage structure. Background The storage device is equipment for storing and managing materials and is widely applied to the fields of industrial production, logistics transportation, storage and the like. The main function of the device is to orderly store materials so as to efficiently and accurately take and supplement the materials when needed. The storage device is generally provided with a certain automatic function and is used for improving the efficiency of material management, reducing manual intervention and lowering operation difficulty. In the prior art, although the multilayer material storage device is widely applied, most of the multilayer material storage device adopts an independent material taking disc, only materials on a specific layer can be taken or supplemented at a time, the operation process is complex, and the efficient automatic material management is not facilitated. The prior art has failed to provide an effective solution to the need to remove material from one level of trays while supplementing other levels of empty trays. Disclosure of utility model In view of the above, the present utility model provides a bin with a multi-layer storage structure to solve the above problems. A feed bin with a multilayer storage structure comprises a feed bin frame, a plurality of sliding rails arranged in the feed bin frame in pairs, and a plurality of material taking discs movably arranged on the opposite sliding rails. The feed bin frame includes four parallel arrangement's support bars, and a plurality of pairwise parallel arrangement is in the terminal fixed column of support bar, a plurality of parallel arrangement is in the connecting column in the support bar outside, a plurality of extracting hole, and a plurality of relative extracting hole sets up the feed supplement mouth. The fixed bars and the connecting bars are perpendicular to the supporting bars, and the fixed bars and the connecting bars are perpendicular. The bin frames are arranged in a layered mode. And in the extending direction of the connecting bars, mounting grooves are formed in the inner sides of the supporting bars, and the mounting grooves on the different supporting bars are correspondingly formed. The mounting groove is arranged corresponding to the connecting bar. The mounting groove is matched with the sliding rail and the material taking disc to form a layer. The material taking opening and the material supplementing opening are formed by the connecting bars and the supporting bars towards one side of the fixed bars. The sliding rail is supported by the groove surface of the mounting groove and is fixedly mounted on the supporting fence through a fastening piece. The material taking disc is movably arranged on the sliding rail. A plurality of storage tanks are uniformly arranged on one side of the material taking disc, and buckling blocks corresponding to the storage tanks are arranged on the other side of the material taking disc. Further, the storage bin with the multi-layer storage structure further comprises a plurality of sensors which are arranged on the storage bin frame and positioned on the outer side of the sliding rail, and a plurality of blocking devices which are arranged on the outer side of the storage bin frame and close to one side of the sensors. Further, the sensor is arranged on one side, close to the material taking opening, of the connecting bar through a support. Further, the blocking devices are respectively arranged on two sides of the material taking opening on the bin frame through the support, each blocking device comprises an air cylinder and a blocking block arranged at the output end of each air cylinder, and the direction of pushing the blocking block by the air cylinders is parallel to the extending direction of the fixed bars. Further, the blocking means is provided welt. Further, when the air cylinder is started, the air cylinder pushes the blocking block, so that the blocking block is arranged on a moving path of the material taking disc, and blocking determination is carried out on the storage position of the material taking disc. Further, the height of the sliding rail is lower than the height of the mounting groove on the support rail. Further, the storage tank is arranged in a multiple step shape, and a cylindrical step block is arranged in the tank. Compared with the prior art, the storage bin with the multilayer storage structure is provided with the storage bin frame, the sensor and the blocking device, so that the storage bin can be used for feeding and taking materials at the same time, and the production efficiency is improved. The feed bin frame is equipped with the mounting groove, be equipped with on the mounting groove perpendicular to the fixed rail sets up the slide rail. And the material taking opening and th