CN220055077U - Sample reserving and storing system - Google Patents

Abstract

The utility model discloses a sample reserving storage system, which comprises a sample reserving storage cabinet and external conveying belts positioned at the left side and the right side of the sample reserving storage cabinet, wherein both sides of the sample reserving storage cabinet are provided with a sample inlet and a sample outlet, a plurality of groups of vertically arranged lifting modules are arranged in the sample reserving storage cabinet, and connecting conveying belts are arranged between adjacent lifting modules and between the lifting modules and the external conveying belts; lifting tables are arranged on the lifting modules, transfer conveyor belts are horizontally arranged on the lifting tables, a row of storage tables are arranged on the left side and the right side of the lifting modules, each storage table comprises a storage conveyor belt, a in-place detection switch is arranged on each lifting table and each storage table, a main controller bracket conveying output end is connected with a storage conveyor belt bracket conveying input end, a main controller lifting conveying output end is connected with the transfer conveyor belt lifting conveying input end, and a main controller is provided with a storage module used for recording each storage position. The automatic material taking-out device can automatically store the entered materials and take down the materials to be taken out from the storage position.

Description

Sample reserving and storing system

Technical Field

The utility model relates to the technical field of storage systems, in particular to a sample reserving storage system.

Background

Conventional shelves often increase the height of the shelves or minimize the spacing between each floor in order to meet both space and storage capacity requirements. If the height of the goods shelf is increased, workers can only take the materials stored on the upper part of the goods shelf by means of the ladder. If the distance between each layer is shortened, hands of workers cannot be inserted easily, and the placement, the taking or the searching are difficult. In addition, because the goods shelves are used for storing more materials, the materials to be searched are difficult to find out by the vertical horse, so that the method is very inconvenient. In particular, nucleic acid samples are small and large in volume.

Patent document with publication number CN 106276014A discloses an automatic medicine discharging cabinet, which comprises a frame, a sliding rail, a medicine taking hopper, a medicine storage area and a medicine outlet, and can be automatically stored and accurately discharged. However, since the size of the medicine taking hopper corresponds to the rack, the capacity is fixed, the automatic medicine discharging cabinets can not be additionally arranged according to the increase of the storage requirement, but each automatic medicine discharging cabinet can not be used for sharing information, and the medicine taking hopper needs to be independently searched, so that the taking efficiency is influenced.

Disclosure of Invention

The utility model aims to solve the technical problems in the prior art, and particularly creatively provides a sample reserving and storing system which can automatically store incoming materials and take the materials to be taken out from a storage position.

In order to achieve the above purpose, the utility model provides a sample reserving storage system, which comprises a sample reserving storage cabinet, wherein the left side and the right side of the sample reserving storage cabinet are respectively provided with an external conveying belt with the same conveying direction, the two sides of the sample reserving storage cabinet are provided with a sample inlet and a sample outlet near the bottom, a plurality of groups of vertically arranged lifting modules are horizontally arranged in the sample reserving storage cabinet at intervals, and connecting conveying belts are respectively arranged between every two adjacent lifting modules and between each lifting module and the external conveying belt;

the lifting module is provided with a lifting table, the lifting table is horizontally provided with a transfer conveyor belt, a rotating motor of the transfer conveyor belt is a reversible motor, a row of storage tables are arranged on the left side and the right side of the lifting module, the storage tables comprise storage conveyor belts, the rotating motor of the storage conveyor belt is a reversible motor, the lifting table and each storage table are provided with an in-place detection switch, an in-place detection switch signal output end of the lifting table is connected with an in-place signal input end of a master controller lifting table, an in-place detection switch signal output end of the storage table is connected with an in-place signal input end of a master controller bracket, a transmission output end of the master controller bracket is connected with a transmission input end of a storage conveyor belt bracket, an in-place lifting transmission output end of the master controller is connected with a lifting transmission input end of the transfer conveyor belt, and the master controller is provided with a storage module, and the storage module is used for recording each storage position.

In the scheme, the method comprises the following steps: the lifting module comprises a screw-nut mechanism, a pair of vertical guide rails are arranged on the cabinet body of the sample reserving storage cabinet, the pair of vertical guide rails are respectively arranged on two sides of the screw-nut mechanism, sliding blocks are respectively arranged on the vertical guide rails, and the lifting table is fixed on the same pair of sliding blocks. Adopt screw-nut mechanism, simple structure is convenient for assemble to can stabilize the height of transport of adjusting the material, be convenient for flush with the depositing platform of both sides. The vertical guide rail and the sliding block can be stably fixed and drive the lifting platform to move up and down.

In the scheme, the method comprises the following steps: the elevating platform is equipped with the spacing flange that is located the transfer conveyer belt both sides, prevents that the material from falling out from the elevating platform.

In the scheme, the method comprises the following steps: be equipped with the shrouding that is located the conveyer belt both sides of placing in the reserve appearance storing cabinet, the bottom of shrouding is fixed on the reserve appearance storing cabinet through the angle sign indicating number, place the conveyer belt and fix on the shrouding, can prevent to leave the scope of depositing the platform through the movable range of shrouding restriction material.

In the scheme, the method comprises the following steps: one side of depositing the platform and keeping away from corresponding lifting module is equipped with spacing whipstock, prevents that the material from moving to depositing outside the platform.

In summary, due to the adoption of the technical scheme, the beneficial effects of the utility model are as follows: the elevating platform that sets up can reciprocate the material to suitable depositing bench to transfer the conveyer belt and place the conveyer belt and shift the material. The both sides of every promotion module all set up one and deposit the platform, can increase as far as to deposit quantity, also can place the material respectively on the depositing bench of both sides simultaneously, and the one-to-one is convenient for follow-up taking down. The in-place detection switch can ensure that materials move in place or are stored in place, so that falling is avoided, and stable transfer is realized. According to the technical scheme, the reserved sample storage cabinets can be increased or reduced according to storage requirements, so that storage capacity is enlarged, confusion among the reserved sample storage cabinets is avoided, and materials are not required to be found manually.

Drawings

The foregoing and/or additional aspects and advantages of the utility model will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

FIG. 1 is a perspective view of a hidden side cabinet of the present utility model;

FIG. 2 is a perspective view of the interior of the cabinet and the external conveyor;

fig. 3 is a perspective view of the back of the lift module.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

The sample reserving storage system shown in fig. 1-3 comprises a sample reserving storage cabinet 1, wherein an external conveying belt 2 with the same conveying direction is arranged on the left side and the right side of the sample reserving storage cabinet 1. One of the external conveyor belts 2 is fixed on the ground through a bracket, and the other external conveyor belt 2 is fixed on the outer side of the sample reserving storage cabinet 1. Sample inlet and sample outlet are arranged at two sides of the sample storage cabinet 1 near the bottom. Left and right sides interval is provided with the lifting module 3 of two sets of vertical settings in the sample storage cabinet 1 of this embodiment, all is equipped with between the adjacent lifting module 3, between lifting module 3 and the outside conveyer belt 2 and links up conveyer belt 4.

The lifting module 3 is provided with a lifting table, the lifting table is horizontally provided with a transfer conveyor belt 3d, and a rotating motor of the transfer conveyor belt 3d is a reversible motor. Specifically, the lifting module 3 comprises a screw-nut mechanism, and is simple in structure and convenient to assemble, and the conveying height of the materials can be stably adjusted, so that the lifting module is convenient to be flushed with the storage tables on two sides. A pair of vertical guide rails 3a are arranged on the cabinet body of the sample reserving storage cabinet 1, the pair of vertical guide rails 3a are respectively arranged on two sides of the screw-nut mechanism, sliding blocks 3b are respectively arranged on the vertical guide rails 3a, and the lifting tables are fixed on the same pair of sliding blocks 3 b. The vertical guide rail 3a and the sliding block 3b can be stably fixed and drive the lifting platform to move up and down. The lifting platform is provided with limit flanges 3c positioned on two sides of the transfer conveyor belt 3d, so that materials are prevented from falling out of the lifting platform.

Two sides of the lifting module 3 are provided with a row of storage tables 5 above the connecting conveyor belt 4. The storage table 5 includes a placement conveyor 5c, and a rotation motor for placing the conveyor 5c is a motor that can be rotated in the forward and reverse directions. The lifting platform and each storage platform 5 are respectively provided with an in-place detection switch, and the signal output end of the in-place detection switch of the lifting platform is connected with the in-place signal input end of the lifting platform of the master controller. The signal output end of the in-place detection switch 5d of the storage table 5 is connected with the in-place signal input end of the main controller bracket, and the transmission output end of the main controller bracket is connected with the transmission input end of the bracket of the placing conveyor belt 5 c. The main controller lifting transmission output end is connected with the lifting transmission input end of the transfer conveyor belt 3d, and the main controller is provided with a storage module which is used for recording each storage position.

The sample reserving storage cabinet 1 is internally provided with sealing plates 5a positioned on two sides of the placing conveyor belt 5c, the bottom of each sealing plate 5a is fixed on the sample reserving storage cabinet 1 through a corner code 5e, the placing conveyor belt 5c is fixed on the sealing plates 5a, the moving range of materials can be limited through the sealing plates 5a, and the storage range of the storage table 5 is prevented from being separated. One side of the storage table 5 away from the corresponding lifting module 3 is provided with a limiting bar 5b for preventing materials from moving out of the storage table 5.

The joining conveyor 4, the outer conveyor 2, the placement conveyor 5c, and the transfer conveyor 3d each include a pair of conveyor assemblies disposed at a front-to-rear interval.

While embodiments of the present utility model have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (5)

1. A sample retention storage system, characterized by: the sample reserving and storing device comprises a sample reserving and storing cabinet (1), wherein external conveying belts (2) with the same conveying direction are arranged on the left side and the right side of the sample reserving and storing cabinet (1), sample inlets and sample outlets are formed in the positions, close to the bottoms, of the two sides of the sample reserving and storing cabinet (1), a plurality of groups of vertically arranged lifting modules (3) are horizontally arranged in the sample reserving and storing cabinet (1) at intervals, and connecting conveying belts (4) are arranged between every two adjacent lifting modules (3) and between each lifting module (3) and each external conveying belt (2);

lifting tables are arranged on the lifting modules (3), transfer conveyor belts (3 d) are horizontally arranged on the lifting tables, rotating motors of the transfer conveyor belts (3 d) are reversible motors, a row of storage tables (5) are arranged on the left side and the right side of each lifting module (3), each storage table (5) comprises a storage conveyor belt (5 c), the rotating motors of the storage conveyor belts (5 c) are motors capable of rotating positively and negatively, each storage table (5) is provided with an in-place detection switch, in-place detection switch signal output ends of the lifting tables are connected with in-place signal input ends of the lifting tables of the master controller, in-place detection switch (5 d) signal output ends of the storage tables (5) are connected with in-place signal input ends of the master controller bracket, in-place carrier transmission output ends of the master controller bracket are connected with in-place conveyor belt (5 c) bracket transmission input ends, in-place lifting transmission output ends of the master controller are connected with in-place conveyor belts (3 d) in-lifting transmission input ends, and the master controller is provided with a storage module, and each storage module is used for storing each position.

2. A sample storage system as claimed in claim 1, wherein: the lifting module (3) comprises a screw-nut mechanism, a pair of vertical guide rails (3 a) are arranged on the cabinet body of the sample reserving storage cabinet (1), the pair of vertical guide rails (3 a) are respectively arranged on two sides of the screw-nut mechanism, sliding blocks (3 b) are respectively arranged on the vertical guide rails (3 a), and the lifting table is fixed on the same pair of sliding blocks (3 b).

3. A sample storage system as claimed in claim 2, wherein: the lifting table is provided with limiting flanges (3 c) positioned on two sides of the transfer conveyor belt (3 d).

4. A sample storage system as claimed in claim 1, wherein: the sample reserving storage cabinet (1) is internally provided with sealing plates (5 a) positioned on two sides of the placing conveyor belt (5 c), the bottom of each sealing plate (5 a) is fixed on the sample reserving storage cabinet (1) through an angle code (5 e), and the placing conveyor belt (5 c) is fixed on each sealing plate (5 a).

5. A sample storage system as claimed in claim 4, wherein: one side of the storage table (5) far away from the corresponding lifting module (3) is provided with a limiting transverse bar (5 b).