CN-224225809-U - Dislocation distributing type steel mesh storage cabinet

Abstract

The utility model discloses a dislocation distributed steel mesh storage cabinet which comprises a material cabin and a storage controller, wherein the material cabin comprises at least one steel mesh storage chamber, the steel mesh storage chamber comprises an open end, a top wall, a bottom wall and an inner wall opposite to the open end, a limiting chute is arranged on the bottom wall, a matching strip groove is formed in the top wall, a steel mesh cabin position is formed between the limiting chute and the corresponding matching strip groove, a storage indicator lamp mechanism is arranged on the open end, an indicator lamp part is arranged on the storage indicator lamp mechanism, a triggering mechanism is arranged on the inner wall, the triggering mechanism comprises triggering ends which are arranged in one-to-one correspondence with the steel mesh cabin position, and two adjacent triggering ends are provided with protruding travel differences towards the open end. According to the utility model, through the design of the staggered trigger ends, a material taking space convenient for material taking is formed between the material taking ends of the adjacent steel meshes, so that the distribution gap of the steel mesh storage chamber can be greatly reduced, and the effective space content reserve of the material cabin is obviously improved. The assembly and construction are simple, and the structural strength is reliable and stable.

Inventors

• CHEN TAO
• YANG NA

Assignees

• 昆山亚伯兰软件科技有限公司

Dates

Publication Date

20260512

Application Date

20250603

Claims (9)

1. 1. The utility model provides a dislocation distributing type steel mesh storage cabinet, includes material cabin and storage controller, the material cabin includes at least one steel mesh storage room, its characterized in that: The steel mesh storage chamber comprises an open end, a top wall, a bottom wall and an inner wall opposite to the open end, wherein a plurality of spacing sliding grooves are formed in the bottom wall at intervals, matching strip grooves which are arranged in one-to-one correspondence with the spacing sliding grooves are formed in the top wall, and the spacing sliding grooves and the corresponding matching strip grooves form a steel mesh cabin; The open end is provided with a storage indicator light mechanism which is communicated with the storage controller, and the storage indicator light mechanism is provided with indicator light parts which are arranged in one-to-one correspondence with the steel mesh cabin; the inner wall is provided with a trigger mechanism which is communicated with the storage controller, the trigger mechanism comprises trigger ends which are arranged in one-to-one correspondence with the steel mesh cabin bits, and two adjacent trigger ends are provided with protruding travel differences towards the open ends.
2. 2. The dislocated distributed steel mesh warehouse cabinet of claim 1, wherein: The material cabin includes a plurality of that the vertical is to distribution the steel mesh storage room, wantonly the steel mesh storage room possesses diapire frame and roof frame, be equipped with integral type bearing bottom plate on the diapire frame, spacing spout sets up on the integral type bearing bottom plate, the bottom of roof frame is equipped with integral type roof, the cooperation bar groove sets up on the integral type roof.
3. 3. The dislocated distributed steel mesh warehouse cabinet of claim 2, wherein: the bottom wall frame is provided with a plurality of bottom wall supporting ribs for supporting the integrated bearing bottom plate, the storage indicator lamp mechanism is arranged on the bottom wall supporting ribs, and a cavity for wiring is formed in the bottom wall supporting ribs; The integrated bearing bottom plate is detachably connected with the bottom wall supporting ribs in a matching mode.
4. 4. A dislocated distributed steel mesh warehouse as claimed in claim 3, wherein: The top wall frame is provided with a plurality of top wall matching ribs for carrying the integrated top plate, and the integrated top plate is detachably matched with the top wall matching ribs.
5. 5. The dislocated distributed steel mesh warehouse cabinet as claimed in claim 4, wherein: And a partition frame which is provided with the bottom wall frame and the top wall frame is arranged between any two adjacent steel mesh storage chambers, and the partition frame is provided with bottom wall supporting ribs and top wall matching ribs which are distributed at intervals and in a staggered mode.
6. 6. The dislocated distributed steel mesh warehouse cabinet as claimed in claim 4, wherein: The inner wall is provided with a strip-shaped carrier, the triggering mechanism comprises an integrated circuit board detachably arranged on the strip-shaped carrier, and a plurality of triggering ends are arranged on the integrated circuit board.
7. 7. The dislocation distributed steel mesh storage cabinet according to any one of claims 1 to 6, characterized in that: the material cabin is provided with a storage opening and closing door, and the storage opening and closing door is opposite to any open end.
8. 8. The dislocated distributed steel mesh warehouse cabinet as claimed in claim 7, wherein: The bottom of the material cabin is provided with a plurality of universal wheels.
9. 9. The dislocated distributed steel mesh warehouse cabinet as claimed in claim 8, wherein: The universal wheel comprises a shaft pile seat arranged at the bottom of the material cabin, a wheel shaft body movably connected to the shaft pile seat in a matching mode and a rotating wheel arranged on the wheel shaft body, wherein the wheel shaft body is provided with axial vertical rotary displacement, and the rotating wheel is provided with axial horizontal rotary displacement.

Description

Dislocation distributing type steel mesh storage cabinet Technical Field The utility model relates to a dislocation distributed steel mesh storage cabinet, and belongs to the technical field of steel mesh storage. Background The steel mesh (stencils), i.e., the SMT template (SMTSTENCIL), is a special mold for SMT. Its main function is to aid in the deposition of solder paste and the purpose is to transfer the correct amount of solder paste to the correct location on the empty PCB. The SMT templates have specification differences, the traditional storage mode adopts manual management classification, operators need to identify storage positions and take and discharge automatically, the defects are effectively systematically managed, the material taking and discharging errors frequently occur, and once the templates are wrong, the large-batch production of PCB (printed Circuit Board) is scrapped, so that large resource waste is caused, and the economic benefit is damaged. For this situation, the applicant has proposed a chinese patent of utility model, issued to bulletin number CN212607306U, which discloses an intelligent storage device for electronic steel mesh, satisfying the classification indication requirement. In practical application, with the increase of the magnitude order of steel mesh, the challenges to the storage space are increased, the requirement for increasing the reserves in the effective volume is increased, and in order to facilitate the taking and placing of the steel mesh in the traditional steel mesh storage cabinet, larger distribution gaps are needed, so that the volume of the storage cabinet is wasted. Disclosure of utility model The utility model aims to solve the defects in the prior art, and provides a dislocation distributed steel mesh storage cabinet aiming at the problem that the steel mesh distribution gap is overlarge due to the convenience of steel mesh taking and placing in the traditional steel mesh storage. In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: The staggered distributed steel mesh storage cabinet comprises a material cabin and a storage controller, wherein the material cabin comprises at least one steel mesh storage chamber; The steel mesh storage chamber comprises an open end, a top wall, a bottom wall and an inner wall opposite to the open end, wherein a plurality of spacing sliding grooves are formed in the bottom wall at intervals, matching strip grooves which are arranged in one-to-one correspondence with the spacing sliding grooves are formed in the top wall, and the spacing sliding grooves and the corresponding matching strip grooves form a steel mesh cabin; The open end is provided with a storage indicator light mechanism which is communicated with the storage controller, and the storage indicator light mechanism is provided with indicator light parts which are arranged in one-to-one correspondence with the steel mesh cabin; the inner wall is provided with a trigger mechanism which is communicated with the storage controller, the trigger mechanism comprises trigger ends which are arranged in one-to-one correspondence with the steel mesh cabin bits, and two adjacent trigger ends are provided with protruding travel differences towards the open ends. Preferably, the material cabin includes a plurality of that vertically distributes the steel mesh storage chamber, arbitrary the steel mesh storage chamber possesses diapire frame and roof frame, be equipped with integral type bearing bottom plate on the diapire frame, spacing spout sets up on the integral type bearing bottom plate, the bottom of roof frame is equipped with integral type roof, cooperation bar groove sets up on the integral type roof. Preferably, the bottom wall frame is provided with a plurality of bottom wall supporting ribs for supporting the integrated bearing bottom plate, the storage indicator lamp mechanism is arranged on the bottom wall supporting ribs, and the bottom wall supporting ribs are internally provided with cavities for wiring; The integrated bearing bottom plate is detachably connected with the bottom wall supporting ribs in a matching mode. Preferably, the top wall frame is provided with a plurality of top wall matching ribs for carrying the integrated top plate, and the integrated top plate is detachably matched with the top wall matching ribs. Preferably, a partition frame having both the bottom wall frame and the top wall frame is provided between any adjacent steel mesh storage chambers, and the partition frame is provided with bottom wall supporting ribs and top wall mating ribs distributed in a staggered manner. Preferably, the inner wall is provided with a strip-shaped carrier, the triggering mechanism comprises an integrated circuit board detachably arranged on the strip-shaped carrier, and a plurality of triggering ends are arranged on the integrated circuit board. Preferably, a storage opening and closing door i