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CN-224198456-U - Upright post structure for adapting single-upright post stacker

CN224198456UCN 224198456 UCN224198456 UCN 224198456UCN-224198456-U

Abstract

The utility model relates to a column structure for adapting a single column stacker, and belongs to the technical field of stacker equipment. The rectangular layout is built by four rectangular pipe bodies, a wide side and a narrow side are respectively connected with a first side plate and a second side plate through symmetrically distributed first support plates and second support plates in a tailor-welded mode to form a lightweight frame, a cargo carrying platform is moved along a narrow side tailor-welded guide rail, a bottom plate and a top plate are reinforced through a third side plate, a fourth side plate, a bending plate and a sealing plate and are integrated with a lower cross beam and an upper cross beam main body, a first pressing block and a second pressing block are arranged on two sides of the narrow side and are used for fixing guide wheels, a plurality of groups of size-matched mounting plates are tailor-welded on the side face of the column body to be matched with a stacker part, and the whole structure is light, low in cost and customizable through modularized tailor-welded design.

Inventors

  • ZHU ZHENGJIN
  • SHEN CHAO
  • ZUO XIAOFANG

Assignees

  • 中科微至科技股份有限公司

Dates

Publication Date
20260505
Application Date
20250521

Claims (10)

  1. 1. A column structure for adapting a single column stacker, comprising: Four columns (1) are built to form a rectangular layout, and the rectangular layout comprises two wide sides and two narrow sides; A plurality of groups of first support plates (3) are symmetrically and uniformly distributed between two columns (1) arranged on the broadside, the first support plates (3) are used for supporting the first side plates (4), and the columns (1), the first support plates (3) and the first side plates (4) are connected through splice welding; A plurality of groups of second support plates (6) are symmetrically and uniformly distributed between two columns (1) arranged on the narrow side, the second support plates (6) are used for supporting the second side plates (5), and the columns (1), the second support plates (6) and the second side plates (5) are connected through splice welding; The guide rail (2) is welded in a tailor-welded mode along the arrangement direction of the narrow edges and is used for enabling the cargo platform to move up and down; A bottom plate (7) is welded at the bottom ends of the four columns (1); And the top plates (10) are splice welded at the top ends of the four columns (1).
  2. 2. The column structure for adapting a single column stacker according to claim 1, wherein the bottom plate (7) is splice welded with a fourth side plate (9) on a broad side, with a third side plate (8) on a narrow side, and the strength of the bottom plate (7) is reinforced by the third side plate (8) and the fourth side plate (9) for fixing with a lower cross member.
  3. 3. The column structure for adapting a single column stacker according to claim 2 wherein the thickness of the third side plate (8) and the fourth side plate (9) is greater than the thickness of the bottom plate (7) and the two are connected to the bottom plate (7) by a continuous weld.
  4. 4. The upright structure for adapting to a single-upright stacker according to claim 1, wherein one side of the top plate (10) is splice welded with a bending plate (13) and a sealing plate (14), and the bending plate (13) and the sealing plate (14) are used for reinforcing the strength of the top plate (10) to form an upper beam main body of the stacker.
  5. 5. The column structure for adapting a single column stacker according to claim 4 wherein said bending plate (13) is of L-shaped configuration with one end splice welded to the top plate (10) and the other end splice welded to the closing plate (14) to form a closed reinforcing area.
  6. 6. The column structure for adapting a single column stacker according to claim 4, wherein first press blocks (11) are splice welded on both sides of a narrow side of the top plate (10), and the first press blocks (11) serve as fixing plates of upper beam guide wheels.
  7. 7. The upright post structure for adapting to the single-upright post stacker according to claim 1, wherein second pressing blocks (12) are splice welded on the inner sides of the top end and the bottom end of the four columns (1) along the narrow side direction, and the second pressing blocks (12) are used for installing guide wheels for driving a synchronous belt to drive a cargo carrying platform to move up and down.
  8. 8. The column structure for adapting a single column stacker according to claim 1, wherein the first mounting plate (15), the second mounting plate (16) and the third mounting plate (17) are splice welded on the narrow side surfaces of the four columns (1), and the fourth mounting plate (18) and the fifth mounting plate (19) are splice welded on the wide side surfaces of the four columns (1), and the size of the mounting plates is matched with that of the stacker kit.
  9. 9. The column structure for adapting a single column stacker according to claim 1, wherein the column (1) is a rectangular tube structure.
  10. 10. The upright structure for adapting to a single-upright stacker according to claim 1, wherein the first support plate (3) and the second support plate (6) are two symmetrically distributed plates, and a stable support frame is formed by splice welding.

Description

Upright post structure for adapting single-upright post stacker Technical Field The utility model relates to the technical field of stacker equipment, in particular to a column structure for adapting a single column stacker. Background Along with the rapid development of automation technology in the intelligent storage field, a lightweight design technology of a stacker with a column structure as a core appears, and the technology aims to improve the operation efficiency of equipment by optimizing the column structure, reduce the manufacturing cost and promote the modularization and integration of storage logistics equipment. In the existing stacker upright post structure technology, three processing modes are mainly adopted, namely, firstly, a single large-section rectangular steel pipe is directly processed and molded, connection of an upright post and a cross beam is achieved through welding, secondly, a triangular support structure is formed by combining and welding a bending upright plate and an inclined strut component, and thirdly, a cast aluminum alloy piece is spliced and assembled after being molded through a die. Although these schemes can realize basic bearing functions, each has significant drawbacks: the single large rectangular pipe scheme has low material utilization rate due to the fact that super-specification sectional materials are needed to be selected, redundant weight is increased, waste of processing residual materials is caused, overall cost is increased, the vertical piece diagonal bracing combined structure can optimize material distribution, but bending forming technology is complex, multiple working procedures are needed for processing, a large number of standard components are needed for field installation and fixing, production period is prolonged, manual assembly cost is increased, the casting aluminum part scheme can achieve complex section design, early-stage die development investment is huge, aluminum material price fluctuation is remarkably higher than that of steel materials, and cost advantages are difficult to embody in large-scale application. In addition, the traditional structure has the problem of insufficient functional integration, and the driving device installation or beam connection function can be realized only by additionally installing an adaptive component in part of design, so that the system complexity and the implementation difficulty are further increased. Disclosure of utility model The present inventors have aimed at the drawbacks of the prior art described above, and have provided a column structure for adapting a single column stacker, so that the overall weight of the column is greatly reduced, the accuracy requirement is lowered, and the production process is simplified. The technical scheme adopted by the utility model is as follows, the upright post structure for adapting the single-upright post stacker comprises: Four columns are built to form a rectangular layout, and the rectangular layout comprises two wide sides and two narrow sides; A plurality of groups of first support plates are symmetrically and uniformly distributed between two columns arranged on the broadside, the first support plates are used for supporting the first side plates, and the columns, the first support plates and the first side plates are connected through splice welding; A plurality of groups of second support plates are symmetrically and uniformly distributed between two columns arranged on the narrow side, the second support plates are used for supporting the second side plates, and the columns, the second support plates and the second side plates are connected through splice welding; the guide rails are splice welded along the arrangement direction of the narrow edges and are used for enabling the cargo carrying platform to move up and down; Splice-welding a bottom plate at the bottom ends of the four columns; And welding the top plates at the top ends of the four columns in a splicing way. As a further improvement of the above technical scheme: preferably, the bottom plate is splice welded with the fourth side plate on the wide side, and is splice welded with the third side plate on the narrow side, and the strength of the bottom plate is reinforced by the third side plate and the fourth side plate and is used for being fixed with the lower cross beam. Preferably, the thickness of the third side plate and the fourth side plate is larger than that of the bottom plate, and the third side plate and the fourth side plate are connected with the bottom plate through continuous welding seams. Preferably, one side of the top plate is splice welded with a bending plate and a sealing plate, and the bending plate and the sealing plate are used for reinforcing the strength of the top plate to form an upper beam main body of the stacker. Preferably, the bending plate is of an L-shaped structure, one end of the bending plate is spliced and welded with the top plate, and the ot