CN219905109U - Tray for storing and transferring noble metal of vault - Google Patents

Abstract

The utility model discloses a tray for storing and transferring noble metals of a vault, which has the technical scheme that the tray comprises a tray body and a tray body; the bottom plate is used for bearing noble metal, and a plurality of through holes are formed in the bottom plate; the edge plate is fixedly connected with the edge of the bottom plate to form a containing space for containing noble metal; a transverse partition plate for transversely partitioning the accommodating space; the longitudinal separation plate longitudinally separates the accommodating space and is matched with the transverse separation plate to form an independent space for accommodating single noble metal, the through hole is opposite to the independent space, and the bottom plate is connected with four edge plates; the edge plate is provided with an identification tag; the identification tag is one of RFID, bar code and two-dimensional code; the identification tag is detachably arranged on the edge plate, and the utility model has the beneficial effects of being prevented from being adsorbed by the sucker, light in weight and high in strength.

Description

Tray for storing and transferring noble metal of vault

Technical Field

The utility model relates to the field of precious metal vaults, in particular to a tray for storing and turnover of precious metals in vaults.

Background

The precious metal smart vault comprises a warehouse-in transmission module, a telescopic platform, a conveying channel, a warehouse lifting assembly, a warehouse-in lifting assembly, a lifting conveying module, an image module, a plastic package module and other components;

at present, precious metal ex-warehouse and warehouse-in cannot conduct intelligent calculation and prompt, efficiency is low due to the fact that storage positions are judged manually, a cabinet door is opened randomly, management is not standardized and physical damage is easily caused to articles, customized automatic checking cannot be conducted, manual checking work is tedious and errors are easy to occur, various reports cannot be automatically issued according to requirements, such as various logs, lists and inventory conditions, and in general, information management is not achieved on the existing precious metal ex-warehouse and warehouse-in, and the existing precious metal ex-warehouse-in is seriously dependent on manual work.

The telescopic table in the noble metal vault can be used for realizing left and right telescopic transportation of the tray containing noble metal, so that the tray is placed in the noble metal vault, manual operation is avoided, and efficiency is improved; the warehouse-in conveying module can realize warehouse-in and warehouse-out conveying of the trays containing the noble metals, so that the trays are moved to the front of workers, and compared with the telescopic platform, the warehouse-in conveying module conveys the trays outside the noble metal vault, and the telescopic platform is positioned in the noble metal vault.

The in-out lifting assembly is used for lifting and conveying the noble metal in-out warehouse, and the conveying channel is used for conveying the noble metal in the noble metal vault.

The precious metal vault image module is used for photographing precious metal warehouse-in and warehouse-out, transmitting data, counting and realizing automatic counting.

When the telescopic platform is used for carrying the tray containing noble metal in a left-right telescopic manner, the tray is placed in a passageway in a noble metal vault, a noble metal vault lifting assembly is installed in the passageway, the telescopic platform is used for placing the tray on the noble metal vault lifting assembly, then the noble metal vault lifting assembly is used for transporting the tray up and down, the tray can be transported below a noble metal vault image module, and the tray is photographed by the noble metal vault image module, data transmission, statistics, grabbing and placed on a conveying channel.

The lifting and conveying module is used for steering the moving tray, so that the conveying efficiency is improved.

In specific use, noble metal is adsorbed by the sucking disc, but in the adsorption process, the sucking disc can possibly be caused to be adsorbed on a tray for placing noble metal, so that the tray is displaced, and meanwhile, in order to ensure bearing capacity and service life, the tray is generally made of metal, and is heavier, and the higher weight has larger potential safety hazard.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model aims to provide the tray for storing and turnover of the noble metal of the vault, which has the beneficial effects of being prevented from being adsorbed by the sucker, light in weight and high in strength.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a tray for vault noble metal stores and turnover, its characterized in that: comprises the following steps of;

the bottom plate is used for bearing noble metal, and a plurality of through holes are formed in the bottom plate;

the edge plate is fixedly connected with the edge of the bottom plate to form a containing space for containing noble metal;

a transverse partition plate for transversely partitioning the accommodating space;

and the longitudinal partition plate longitudinally partitions the accommodating space and is matched with the transverse partition plate to form an independent space for accommodating single noble metal, and the through hole is opposite to the independent space.

Through the arrangement of the structure, the bottom plate is square, the edge plates are arranged on four sides of the bottom plate, the two edges are integrated or welded, the through holes have the effects that when the sucking disc adsorbs noble metals, the bottom plate is prevented from being adsorbed, and the weight can be reduced due to the arrangement of the through holes; the transverse partition plate and the longitudinal partition plate can strengthen the effect of the ribs, and the strength of the whole tray is improved; the independent space is used for placing noble metal, and noble metal is adsorbed by the sucking disc, and the sucking disc is sponge sucking disc subassembly, and sponge sucking disc subassembly structure is current mechanism, has the sensor at sponge sucking disc subassembly mid-mounting, and after the sponge sucking disc subassembly adsorbed noble metal, the sensor was used for detecting noble metal's adsorption condition.

The utility model is further provided with: four edge plates are connected to the bottom plate; the edge plate is provided with an identification tag; the identification tag is one of RFID, bar code and two-dimensional code; the identification tag is detachably arranged on the edge plate.

Through the arrangement of the structure, the identification tag is preferentially arranged on any two opposite edge plates of the four edge plates, the identification tag is diagonally installed, and the identification tag can be magnetically attracted on the edge plates and can be stuck or engraved on the edge plates.

The utility model is further provided with: the edge plate is fixedly connected with the bottom plate; the transverse partition plate, the longitudinal partition plate and the bottom plate are fixedly connected; the ends of the transverse partition plate and the longitudinal partition plate are fixedly connected with the side surfaces of the edge plates.

Through the structure, the transverse partition plate, the longitudinal partition plate and the bottom plate are welded.

The utility model is further provided with: the width of the transverse partition plate and the width of the longitudinal partition plate are consistent; the edge plate width is greater than the width of the transverse partition plate and the longitudinal partition plate.

The utility model is further provided with: the through holes in the independent spaces are arranged in a rectangular shape, and a sealing plate is arranged in the middle of each rectangle.

The utility model is further provided with: the transverse partition plates and the longitudinal partition plates are used for reinforcing the strength of the bottom plate.

Through the structure, the sealing plate is provided with no through hole, and the through holes are opposite to the sensor.

Drawings

FIG. 1 is a schematic diagram of the structure of the present embodiment;

FIG. 2 is a schematic diagram of the structure of the present embodiment;

FIG. 3 is a schematic view of the structure of the suction cup of the present embodiment;

fig. 4 is a schematic view of the structure of the suction cup of this embodiment.

Reference numerals: 1. a bottom plate; 2. a through hole; 3. an edge plate; 4. a transverse dividing plate; 5. a longitudinal dividing plate; 6. identifying the tag; 7. a sponge sucker assembly; 8. a sensor.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings.

The embodiment discloses a tray for storing and turnover of precious metals in a vault, as shown in fig. 1 to 4, has the beneficial effects of being prevented from being adsorbed by a sucker, being light in weight and being high in strength. Comprises the following steps of; the base plate 1 is used for bearing noble metal, and a plurality of through holes 2 are formed in the base plate 1; the edge plate 3 is fixedly connected with the edge of the bottom plate 1 to form a containing space for containing noble metal; a transverse partition plate 4 for transversely partitioning the accommodating space; and a longitudinal partition plate 5 for longitudinally partitioning the accommodating space and forming an independent space for accommodating a single noble metal in cooperation with the transverse partition plate 4, wherein the through hole 2 is opposite to the independent space.

Through the structure, the bottom plate 1 is square, the edge plates 3 are arranged on four sides of the bottom plate 1, the two edges are integrally or welded, the through holes 2 have the effect of avoiding the bottom plate 1 from being adsorbed when the sucking disc adsorbs noble metals, and the weight can be reduced due to the arrangement of the through holes 2; the transverse partition plates 4 and the longitudinal partition plates 5 can strengthen the effect of the ribs, so that the strength of the whole tray is improved; the independent space is used for placing noble metal, and noble metal is adsorbed by the sucking disc, and the sucking disc is sponge sucking disc subassembly 7, and sponge sucking disc subassembly 7 structure is current mechanism, has sensor 8 at sponge sucking disc subassembly 7 mid-mounting, and in sponge sucking disc subassembly 7 was arranged in to sensor 8, can carry out the sensing to the accommodation space of below and detect, after sponge sucking disc subassembly 7 adsorbs noble metal, sensor 8 is used for detecting noble metal's adsorption condition.

Four edge plates 3 are connected to the bottom plate 1; an identification tag 6 is arranged on the edge plate 3; the identification tag 6 is one of RFID, bar code and two-dimensional code; the identification tag 6 is detachably arranged on the edge plate 3.

Through the structure setting, the identification tag 6 is preferentially arranged on any two opposite edge plates 3 of the four edge plates 3, the identification tag 6 is oppositely or diagonally arranged, and the identification tag 6 can be magnetically attracted on the edge plates 3 and can be also attached to or engraved on the edge plates 3.

The edge plate 3 is fixedly connected with the bottom plate 1; the transverse partition plate 4, the longitudinal partition plate 5 and the bottom plate 1 are fixedly connected; the ends of the transverse partition plate 4 and the longitudinal partition plate 5 are fixedly connected with the side surfaces of the edge plates 3.

Through the structure, the transverse partition plate 4, the longitudinal partition plate 5 and the bottom plate 1 are welded.

The width of the transverse partition plate 4 and the width of the longitudinal partition plate 5 are consistent; the width of the edge plate 3 is larger than that of the transverse partition plate 4 and the longitudinal partition plate 5.

The through holes 2 in the independent spaces are arranged in a rectangular shape, and a sealing plate is arranged in the middle of the rectangle.

The transverse partition plates 4 and the longitudinal partition plates 5 are used for reinforcing the strength of the bottom plate 1.

Through the above arrangement, the sealing plate has no through hole 2, and is opposed to the sensor 8.

The above embodiments are only preferred embodiments of the present utility model, and are not intended to limit the present utility model, and any modifications, equivalent substitutions, improvements, etc. within the design concept of the present utility model should be included in the scope of the present utility model.

Claims (6)

1. A tray for vault noble metal stores and turnover, its characterized in that: comprising the following steps:

the bottom plate is used for bearing noble metal, and a plurality of through holes are formed in the bottom plate;

the edge plate is fixedly connected with the edge of the bottom plate to form a containing space for containing noble metal;

a transverse partition plate for transversely partitioning the accommodating space;

and the longitudinal partition plate longitudinally partitions the accommodating space and is matched with the transverse partition plate to form an independent space for accommodating single noble metal, and the through hole is opposite to the independent space.

2. The tray for vault precious metal storage and turnover of claim 1, wherein: four edge plates are connected to the bottom plate; the edge plate is provided with an identification tag; the identification tag is one of RFID, bar code and two-dimensional code; the identification tag is detachably arranged on the edge plate.

3. The tray for vault precious metal storage and turnover of claim 2, wherein: the edge plate is fixedly connected with the bottom plate; the transverse partition plate, the longitudinal partition plate and the bottom plate are fixedly connected; the ends of the transverse partition plate and the longitudinal partition plate are fixedly connected with the side surfaces of the edge plates.

4. A tray for the storage and turnover of precious metals for vaults according to claim 3, characterized in that: the width of the transverse partition plate and the width of the longitudinal partition plate are consistent; the edge plate width is greater than the width of the transverse partition plate and the longitudinal partition plate.

5. The tray for vault precious metal storage and turnover of claim 1, wherein: the through holes in the independent spaces are arranged in a rectangular shape, and a sealing plate is arranged in the middle of each rectangle.

6. A tray for the storage and turnover of precious metals for vaults according to any one of claims 1 to 4, characterized in that: the transverse partition plates and the longitudinal partition plates are used for reinforcing the strength of the bottom plate.