CN220448716U - A mini storehouse of intelligence for line limit material instrument integration management - Google Patents

Abstract

The utility model discloses an intelligent mini-warehouse for integrated management of line-side material tools, which is rectangular in shape, wherein four vertical sides are sealed by partition plates, the intelligent mini-warehouse comprises a goods shelf and a stacker, the stacker is positioned in the middle of the mini-warehouse, the warehouse shelf is arranged on two sides of the stacker along the long side direction of the rectangular in two rows, each row of goods shelf is divided into a plurality of rows, each row is divided into a plurality of layers, and each layer is provided with a warehouse position; the storage box is arranged in the storage position and is matched with the storage position in size, and the storage box is used for storing materials and tools; the mini warehouse is also provided with a discharging and taking hole, and the stacker is used for moving the feed box between warehouse positions or between the warehouse positions and the discharging and taking hole. The utility model has the characteristics of moderate size, convenient taking and placing and intelligent management.

Description

A mini storehouse of intelligence for line limit material instrument integration management

Technical Field

The utility model relates to the field of intelligent storage equipment, in particular to an intelligent mini warehouse for integrated management of line-side material tools.

Background

Line edge (BOL) is the boundary between the generated Line and the logistics, and logistics personnel send the materials and tools required by the production Line to the Line edge, and the production Line operators take the parts from the Line edge to produce. The line edge warehouse commonly used in the current industrial production operation comprises a large intelligent stereoscopic warehouse and an intelligent micro-warehouse.

The large intelligent three-dimensional warehouse is generally used as a total material management unit, can store a large number of materials and tools, has complete specifications, occupies a large area, is usually up to hundreds of square meters, and is far away from an operation site. And the large intelligent three-dimensional warehouse has a large shelf size and a complex layout of the stacker.

The intelligent micro-warehouse is generally used as a material management unit of a corresponding working area, is closer to a working place, is generally smaller in size, for example, the specification is 1200 mm-550 mm-1500 mm, the quantity and the specification types of stored materials and tools are smaller, and the working requirements cannot be effectively met sometimes.

Therefore, there is a need for an intelligent mini-warehouse that is interposed between a large intelligent stereoscopic warehouse and an intelligent micro-warehouse, taking up no more than 20 square meters at maximum. The intelligent mini warehouse has moderate volume, the layout of the goods shelves and the stackers needs to be redesigned, and the stackers are required to have high movement speed and high movement precision. In particular to a railway office service section, in order to support vehicle maintenance and repair, a mini-warehouse with volume and functions meeting requirements is needed for integrated management of materials and tools, and working efficiency of stations is improved.

Disclosure of Invention

In order to solve the problems, the utility model adopts the following technical scheme:

the intelligent mini warehouse for integrated management of the line-side material tools is rectangular in shape, four vertical sides are sealed by partition boards, the mini warehouse comprises a goods shelf and a stacker, the stacker is positioned in the middle of the mini warehouse, the warehouse shelf is arranged on two sides of the stacker along the long side direction of the rectangular, each row of goods shelf is divided into a plurality of columns, each column is divided into a plurality of layers, and each layer is provided with a warehouse position; the storage box is arranged in the storage position and is matched with the storage position in size, and the storage box is used for storing materials and tools; the mini warehouse is also provided with a discharging and taking hole, and the stacker is used for moving the feed box between warehouse positions or between the warehouse positions and the discharging and taking hole.

Further, four vertical upright posts are arranged at four corners of each row of the goods shelf, and two upright posts in the middle are shared by adjacent rows; a plurality of horizontal crosspieces are arranged between the upright posts and used for dividing each row of shelves into a plurality of layers.

Further, the crosspieces are long strips, two parallel strips are arranged on two sides of the storage position along the feeding and discharging directions of the material box, the distance between the two crosspieces is smaller than the width of the bottom surface of the material box, and the material box is placed in the storage position through the crosspieces.

Further, the stacker is including setting up in the vertical track at both ends to and connect the vertical orbital horizontal track in both ends through the connecting piece, the horizontal track can wholly follow vertical track up-and-down motion under vertical motor drive, sets up the objective table on the horizontal track, and the objective table can follow horizontal orbital motion under horizontal motor drive, sets up the fork on the objective table, and the fork can be under fork motor drive on the horizontal plane perpendicular to horizontal orbital motion, gos deep into the middle workbin bottom of holding of crosspiece, from storehouse displacement in or shift out the workbin.

Further, an operation table is also arranged, and an electronic billboard, a controller and an input device are arranged on the operation table and are used for controlling the operation of the equipment.

Further, a weighing system is arranged at the discharging and taking opening and used for ensuring that the total weight of the material box and the materials in the material box is lower than a limiting value.

Furthermore, an opposite-emission sensor system is arranged at the discharging and taking opening and used for ensuring that the shape of the material box is smaller than a limiting value and limiting the loaded material to be lower than the top end face of the material box.

Further, two discharging and taking openings are arranged.

Further, the feed box is provided with a steel grid-shaped bottom bracket.

The beneficial technical effects of the utility model are as follows:

(1) The intelligent mini warehouse has moderate size, can be arranged on the side of a working area, can more conveniently take and put articles and manage articles, and is an intelligent storage unit for materials and tools such as auxiliary materials, even replacing parts and the like.

(2) The intelligent mini warehouse is arranged beside a railway vehicle maintenance station, takes the station as a core, can timely and effectively respond to the maintenance requirement of the station, enables the station to concentrate on maintenance operation, and maximizes the efficiency of the station.

(3) The materials and the tools are packaged by the material box, and the material taking and the material discharging are very convenient.

(4) The weighing system and the correlation sensor system are arranged, so that the weight and the appearance of the material box are ensured not to exceed limit values.

(5) The goods shelves are rationally distributed, and the stacker is swiftly moved in and out with the workbin.

(6) Two discharging and taking openings are arranged, so that the working efficiency is improved.

The intelligent mini-warehouse for integrated management of the line-side material tools has the characteristics of moderate size, convenience in taking and placing and intelligent management.

Drawings

FIG. 1 is a perspective view of an embodiment of the present utility model;

FIG. 2 is a front view of an embodiment of the present utility model;

FIG. 3 is a top view of an embodiment of the present utility model;

FIG. 4 is a schematic diagram of bin placement according to an embodiment of the utility model;

fig. 5 is a perspective view of a stacker according to an embodiment of the present utility model.

Reference numerals illustrate: 1-a stacker; 2-a goods shelf; 3-an operation table; 4a,4 b-a discharging and taking opening; 5-stand columns; 6-crosspieces; 7-a material box; 8-horizontal track; 9-vertical track; 10-stage; 11-forks.

Detailed Description

For a further understanding of the present utility model, preferred embodiments of the utility model are described below in conjunction with the examples, but it should be understood that these descriptions are merely intended to illustrate further features and advantages of the utility model, and are not limiting of the claims of the utility model.

The embodiment of the utility model provides an intelligent mini-warehouse for integrated management of line-side material tools, which is shown in fig. 1, 2 and 3, wherein the mini-warehouse is in a cuboid shape, and the periphery of the mini-warehouse is sealed by a partition plate to form a relatively sealed space, so that the material management is facilitated. The mini-warehouse comprises shelves 2 and stackers 1. The stacker 1 is located in the middle of the mini-warehouse, and the shelves 2 are arranged in two rows and at two sides of the stacker 1 along the long side direction of the cuboid.

Each row of shelves is divided into a plurality of rows, and 4 vertical upright posts 5 are arranged at the vertical four-edge positions of each row of shelves. Two adjacent columns of shelves can share two middle upright posts 5 on one side close to each other.

Horizontal crosspieces 6 are arranged among the upright posts 5 and are used for dividing each row of shelves into multiple layers, each layer forms a storage position, and a feed box 7 can be placed. As shown in fig. 4, the crosspiece 6 may be disposed along the feeding and discharging direction of the bin 7, and two parallel crosspieces 6 are disposed left and right, and the distance between the two parallel crosspieces 6 is adapted to the bottom surface of the bin 7, so that the bin 7 may place the bottom surface of the bin on the crosspiece 6, and thus the whole bin 7 may be placed in the storage position. And because the bottom and the upper part of the feed box 7 are provided with gaps, the stacker 1 is convenient to take and put back into the feed box 7.

The stacker 1 is used for carrying and moving the bin 7 on the goods shelf 2, can move among different storage positions, and can send the bin 7 to the storage position through the discharging and taking opening 4a, or take out the bin 7 from the storage position and send out through the discharging and taking opening 4 a.

As shown in fig. 5, the stacker 1 includes a horizontal rail 8 and a vertical rail 9. The vertical rails 9 are provided at both ends of the stacker, each end including three vertical rails. The horizontal rail 8 comprises two parallel rails. The horizontal rail 8 is connected with the vertical rail through connecting pieces at two ends, and can integrally move up and down along the vertical rail 9 under the drive of a vertical motor. The horizontal track 8 is provided with an object stage 10, and the object stage 10 can move back and forth along the horizontal track 8 under the drive of a horizontal motor. The fork 11 is arranged on the object stage, and the fork 11 can move on the horizontal plane perpendicular to the horizontal track 8 under the drive of the fork motor, goes deep into the middle of the crosspiece 6 to hold the bottom of the material box 7, and moves into or out of the material box 7 from the warehouse.

The mini storehouse can set up two blowing and extracting openings, is 4a and 4b respectively, and these two windows are general, and when one window was in operation, stacker 1 can take down a workbin 7 and put another window, improves work efficiency.

A weighing system is arranged at the discharging and taking opening 4a to ensure that the weight of the feed box 7 does not exceed a limit value. The limit value is set on the basis of the weight of the headbox 7. When the bin 7 is placed at the discharge and take-out opening 4a, a weighing system located below the bin 7 automatically weighs the bin 7, giving a warning to the bin 7 being overweight.

The correlation sensor system is arranged at the discharging and taking opening 4a, so that the shape of the material box 7 is limited not to exceed a limit value, and the loaded material is limited not to exceed the top end surface of the material box 7, and equipment faults caused by oversized materials are avoided. Multiple sets of correlation sensor systems can be arranged to ensure that the dimensions of the bin, such as length, width and height, do not exceed a defined value.

The mini library is also provided with an operation desk 3, and a computer can be arranged on the operation desk 3 for the operation and control of the mini library; setting a network for interconnection with an external system; setting an electronic billboard for displaying warehouse and warehouse-in and warehouse-out information; an input device, such as a keyboard mouse, is provided for input or manipulation.

The load-bearing design of the feed box 7 is not lower than 40 Kg/box. According to the weight of the materials required to be managed by a user, the reinforced bottom support of the material box 7 can be customized, and the load bearing of the carrier is increased through the steel grid-shaped bottom support, so that the performance of 150Kg of the load bearing of the material box 7 per box without deformation is achieved.

The operation flow when taking out the article is: staff operates through operation panel 3, inputs the article specification that needs to take, then stacker 1 removes to the storehouse position department that corresponds workbin 7 place, carries workbin 7 to blowing material taking out mouth 4a department, and staff takes out required article, and then stacker 1 carries this workbin 7 back to original place.

The operation flow when storing articles is as follows: staff operates through the operation desk 3, selects spare or suitable workbin 7, then stacker 1 carries workbin 7 to blowing reclaimer 4a, and staff places the article in this workbin 7, and then stacker carries this workbin 7 back to original place, and staff makes corresponding article registration in the operation desk simultaneously.

The intelligent mini-warehouse can be used in combination with a large intelligent stereoscopic warehouse and an intelligent micro-warehouse. In the three-level stereoscopic warehouse management system, a large intelligent stereoscopic warehouse is used as a first-level management warehouse, an intelligent mini warehouse is used as a second-level management warehouse, and an intelligent micro warehouse is used as a third-level management warehouse. The three are combined for use, so that the management of all articles reaches the optimal degree.

The above description of the embodiments is only for aiding in the understanding of the method of the present utility model and its core ideas. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the utility model can be made without departing from the principles of the utility model and these modifications and adaptations are intended to be within the scope of the utility model as defined in the following claims.

Claims (9)

1. A mini storehouse of intelligence for line limit material instrument integration management, its characterized in that: the mini warehouse is rectangular in appearance, four vertical sides are sealed by partition boards, the mini warehouse comprises a goods shelf (2) and a stacker (1), the stacker (1) is positioned in the middle of the mini warehouse, the goods shelf (2) is arranged on two sides of the stacker (1) along the long side direction of the rectangular parallelepiped, each row of goods shelf is divided into a plurality of rows, each row of goods shelf is divided into a plurality of layers, and each layer is provided with a warehouse position; the automatic feeding device also comprises a feed box (7) which is arranged in the storage position and is matched with the storage position in size, wherein the feed box (7) is used for storing materials and tools; the mini warehouse is also provided with a discharging and taking hole (4 a), and the stacker (1) is used for moving the feed box (7) between warehouse positions or between the warehouse positions and the discharging and taking hole (4 a).

2. The intelligent mini-library for line-side material tool integrated management of claim 1, wherein: four vertical stand columns (5) are arranged at four corners of each row of the goods shelf (2), and two stand columns (5) in the middle are shared by adjacent rows; a plurality of horizontal crosspieces (6) are arranged between the upright posts (5) and are used for dividing each row of shelves into a plurality of layers.

3. The intelligent mini-library for line-side material tool integrated management of claim 2, wherein: the crosspieces (6) are long strips, two parallel strips are arranged on two sides of the storage position along the feeding and discharging directions of the feed box (7), the distance between the two crosspieces (6) is smaller than the width of the bottom surface of the feed box (7), and the feed box (7) is placed in the storage position through the crosspieces (6).

4. A smart mini-library for line-side materials tool integrated management as in claim 3, wherein: the stacker (1) is including setting up in the vertical track (9) at both ends to and connect the horizontal track (8) of both ends vertical track (9) through the connecting piece, horizontal track (8) can wholly follow vertical track (9) up-and-down motion under vertical motor drive, set up objective table (10) on horizontal track (8), objective table (10) can follow horizontal track (8) motion under horizontal motor drive, set up fork (11) on the objective table, fork (11) can be perpendicular to horizontal track (8) motion on the horizontal plane under fork motor drive, go deep into middle holding workbin (7) bottom of crosspiece (6), follow storehouse displacement and go into or shift out workbin (7).

5. The intelligent mini-library for line-side material tool integrated management of claim 1, wherein: the electronic control device is characterized by further comprising an operation table (3), wherein the operation table (3) is provided with an electronic billboard, a controller and an input device, and the electronic billboard, the controller and the input device are used for controlling the operation of the device.

6. The intelligent mini-library for line-side material tool integrated management of claim 1, wherein: and a weighing system is arranged at the discharging and taking opening (4 a) and is used for ensuring that the total weight of the material box (7) and the materials in the material box is lower than a limiting value.

7. The intelligent mini-library for line-side material tool integrated management of claim 1, wherein: and a correlation sensor system is arranged at the discharging and taking opening (4 a) and used for ensuring that the appearance of the material box (7) is smaller than a limiting value and limiting the loaded material to be lower than the top end surface of the material box (7).

8. The intelligent mini-library for line-side material tool integrated management of claim 1, wherein: two discharging and taking openings (4 a,4 b) are arranged.

9. An intelligent mini-library for line side materials tool integrated management according to any of claims 1-8, wherein: the feed box (7) is provided with a steel grid-shaped bottom support.