CN210534821U - Intelligent laboratory storage cabinet and management system - Google Patents

Abstract

The utility model discloses an intelligent laboratory storage cabinet and a management system, wherein the storage cabinet comprises a cabinet body, an adjusting laminate, a micro-control center, an identity recognizer and an RFID recognizer which are in signal communication with the micro-control center; the storage cabinet is in signal communication with the intelligent scale platform; the intelligent scale platform comprises a weighing module, an identity recognition module, an RFID recognition module and a data synchronization module, wherein the weighing module is used for reading the weight of the reagent, the identity recognition module is used for recognizing user information using the intelligent scale platform, and the RFID recognition module is used for reading an RFID label of the reagent bottle body; the management system correspondingly updates the weight of the reagent in the storage cabinet and the current use amount according to the reading information of the storage cabinet and the intelligent scale platform, is in signal communication with the master control server, and carries out remote bidirectional monitoring on the terminal information of the storage cabinet and the reading information of the intelligent scale platform. The utility model discloses monitor the reagent of access, realize the intellectuality of laboratory article storage.

Description

Intelligent laboratory storage cabinet and management system

Technical Field

The utility model relates to a laboratory ware field especially relates to an intelligence laboratory storage cabinet and management system.

Background

At present, because a large amount of reagents are used in a laboratory, the reagents can be stored in a storage cabinet in a common laboratory, but the existing storage cabinet is only a common cabinet body, the reagents are also commonly stacked in the storage cabinet and cannot manage the reagents in the storage cabinet, so that inconvenience to a certain extent exists during storage and taking, and part of the reagents which are not commonly used are often placed in the storage cabinet for a long time, so that the reagents are overdue and not replaced, the accuracy of an experiment is possibly influenced, meanwhile, the use condition of the reagents cannot be monitored, the use condition of part of dangerous reagents cannot be known, and the safety of the experiment cannot be guaranteed.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide an intelligent laboratory storage cabinet and management system, which can monitor the reagent for access in real time, thereby improving the safety of the laboratory.

The purpose of the utility model is realized by adopting the following technical scheme:

an intelligent laboratory storage cabinet comprising:

the storage cabinet comprises a cabinet body, an adjusting laminate, a micro-control center, an identity recognizer and an RFID recognizer, wherein the identity recognizer and the RFID recognizer are in signal communication with the micro-control center; a plurality of layers of adjusting laminate plates are arranged in the cabinet body, an RFID identifier is arranged on the wall of the storage cabinet corresponding to each layer of adjusting laminate plate, and the RFID identifier is communicated with the micro-control center through signals;

the intelligent scale platform comprises a processing center, a weighing module, an identity recognition module and an RFID recognition module, wherein the weighing module is in signal communication with the processing center and is used for reading the weight of the reagent, the identity recognition module is used for recognizing user information using the intelligent scale platform, and the RFID recognition module is used for reading the RFID label of the reagent bottle body; the processing center is in signal communication with a micro-control center of the storage cabinet through a communication network and is responsible for receiving and processing the read information transmitted by each module, generating a corresponding execution instruction to control the storage cabinet to execute corresponding operation and synchronizing various data of the storage cabinet and the intelligent scale platform in real time; the processing center is connected with the master control server through a communication network, and uploads various synchronous data to the master control server for real-time monitoring.

Furthermore, a display screen is installed on the intelligent scale platform and connected with the processing center.

A cabinet management system for an intelligent laboratory cabinet, comprising:

the information acquisition module comprises a storage cabinet information acquisition module and an intelligent weighing platform information acquisition module, and the storage cabinet information acquisition module is used for receiving the identity information of the user transmitted by the identity recognizer and acquiring the RFID label information of the residual reagent bottle bodies in the cabinet body read by the RFID recognizer after the door lock of the storage cabinet is closed each time; the intelligent scale platform information acquisition module is responsible for receiving the read information transmitted by the intelligent scale platform;

the main control module is in signal connection with the information acquisition module and is responsible for receiving the read information of the storage cabinet information acquisition module and the intelligent weighing platform information acquisition module, counting the number and the types of the reagents used for accepting each time of opening the cabinet, generating a corresponding acceptance list, correspondingly updating the residual weight of the returned reagent according to the read information transmitted by the intelligent weighing platform after returning the reagent, and calculating the current use amount;

the inventory management module is connected with the main control module and is responsible for recording and displaying the inventory condition of the reagents in the storage cabinet and generating a management list according to the inventory condition of the reagents; the inventory conditions include, but are not limited to, weight of reagent, quantity of reagent, type of reagent, time of delivery and delivery of reagent, and shelf life of reagent.

Further, the management list includes, but is not limited to, a warehousing list, an inventory list, a long-term reagent list, and a discard list.

Further, the storage cabinet management system further includes:

and the user management module is connected with the main control module, is provided with a plurality of levels of user authorities, matches the corresponding user authorities according to the identity information of the user, checks the relevant data of the reagent at the corresponding level according to the user authorities and manages the user information of the next level of authority.

Furthermore, the storage cabinet management system also comprises an alarm module which gives an alarm to the abnormal conditions of the reagent which is not closed, unweighted, unreturned, not compliant in reagent placing place and out of the taking authority after the storage cabinet is still closed after the set time, and generates an alarm report according to the alarm condition.

Further, the content of the alarm report includes, but is not limited to, classification trend graph, alarm profile, compliance rate ranking, and real-time alarm type.

Furthermore, the storage cabinet management system also comprises a standing book module which is in signal communication with the main control module and is responsible for counting the use condition of the reagent and generating a corresponding reagent use report; the contents of the reagent usage report include, but are not limited to, a reagent usage line and a reagent usage time line.

Further, the storage cabinet management system is connected to a transfer warehouse management system through a communication network, and the transfer warehouse management system includes:

the transfer bin signing module is in signal connection with the control module and is responsible for receiving the two-dimensional code information on the delivery note scanned by the mobile terminal connected with the transfer bin management system and acquiring the name, specification and quantity of reagents of the delivery note in the two-dimensional code information; according to the actual requirement, the actual amount of the signed reagent is adjusted and then the sign-in is confirmed;

the control module transmits the actual signing information to the inventory management module of the storage cabinet management system through the communication network after the signing is confirmed to update the reagent inventory list in the storage cabinet; the control module is in signal communication with the master control server;

and the transfer bin management module is in signal connection with the control module, manages the warehousing condition of the transfer bin, the stock condition of the transfer bin and the delivery condition of the transfer bin, and uploads the management result to the master control server through the control module for real-time monitoring.

Compared with the prior art, the beneficial effects of the utility model reside in that:

(1) the storage cabinet adopts a double-person double-lock structure, and the door lock of the storage cabinet can be opened by the identity IC cards of two persons, so that the safety of the reagents in the storage cabinet is improved;

(2) under the cooperation of platform is called to intelligence, discerns the reagent information after the use, can in time know the use amount of reagent to carry out real time monitoring to the reagent in many cabinets in the reagent in service behavior and the sign-for condition in transfer bin through total accuse server, let operating personnel know the access condition of reagent in the cabinet in real time, thereby improve reagent safety in utilization.

Drawings

Fig. 1 is a schematic structural view of a storage cabinet and an intelligent scale platform according to the present invention;

fig. 2 is a signal transmission diagram of the management system of the storage cabinet of the present invention.

Reference numerals: 1. a cabinet body; 101. an identity recognizer; 102. adjusting the laminate; 103. a door lock; 2. an intelligent weighing platform; 201. a weighing module; 202. an RFID identifier; 203. a display screen; 3. a cabinet management system; 301. an information acquisition module; 302. a main control module; 303. an inventory management module; 304. a user management module; 305. an alarm module; 306. a standing book module; 4. a transfer bin management system; 401. a control module; 402. a transit bin sign-in module; 403. a transfer bin management module; 5. and a master control server.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

An intelligent laboratory storage cabinet, as shown in fig. 1, comprising:

the cabinet body 1 hinge of the storage cabinet is made of polypropylene materials, a door opening mechanism is adopted, a transparent window is arranged on the cabinet door, a person can observe the condition in the storage cabinet, and meanwhile, an air inlet used for increasing the air circulation in the cabinet body 1 is arranged on the cabinet body 1. A plurality of layers of adjusting laminate plates 102 are arranged in the storage cabinet, and anti-leakage baffles are arranged around each layer of adjusting laminate plate 102 to prevent reagent liquid from polluting reagents of other layers after the reagents are damaged; in order to increase the load-bearing capacity of the adjustment layer plate 102, a load-bearing bar is arranged at the bottom of the adjustment layer plate 102.

The door lock 103 of the storage cabinet is configured as a double lock structure, and can be unlocked by a key or can be unlocked by an IC card recognition. Under the condition of power failure, the door lock 103 can be opened only by using two keys to work simultaneously, and under the condition of power on, the door lock 103 can be opened only by reading two IC cards of different users in sequence at the identity recognizer 101, so that the safety of the storage cabinet can be improved by adopting a double-lock structure, and the reagent is prevented from being stolen by non-experimenters privately.

An identity recognizer 101 for recognizing user information is installed on the wall of the cabinet body 1, the identity recognizer 101 judges whether the user identity information is correct after reading an IC card of a user, the micro-control center generates an unlocking instruction and transmits the unlocking instruction to the door lock 103 to control the door lock 103 to be opened after the identity verification is correct, and if the identity verification fails, the door lock 103 cannot be opened.

The RFID identifiers 202 used for reading RFID labels on reagent bottles are mounted on the wall of the storage cabinet corresponding to each layer of adjusting laminate 102 in the cabinet body 1, the RFID identifiers 202 are in signal communication with the micro-control center, and automatically scan and read the labels on the existing reagent bottles in the cabinet body 1 after the door lock 103 is closed or a scanning instruction is received, and the scanning and identifying results are transmitted to the micro-control center to count and manage the existing reagents.

The intelligent scale platform 2 comprises a processing center, a weighing module 201 which is in signal communication with the processing center and used for reading the weight of the reagent, an identity recognition module used for recognizing the user information using the intelligent scale platform 2 and an RFID recognition module used for reading the RFID label of the reagent bottle body; the processing center is in signal communication with a micro control center of the storage cabinet through a communication network and is responsible for receiving and processing the read information transmitted by each module, generating a corresponding execution instruction to control the storage cabinet to execute corresponding operation and synchronizing various data of the storage cabinet and the intelligent scale platform 2 in real time; the processing center is connected with the master control server 5 through a communication network, and uploads various synchronous data to the master control server 5 for real-time monitoring.

After the reagent is used, the experimenter puts the returned reagent on the weighing module 201 of the intelligent weighing platform 2 to weigh the weight of the reagent, identifies the identity of the user using the intelligent weighing platform 2, reads the RFID label on the returned reagent bottle, uploads the weighed returned reagent weight, the name of the returned reagent, the specification of the returned reagent, the user information of the operation and other return information to the central processing unit to monitor the reagent dosage, updates the reagent data in the cabinet body 1 after the return, and uploads the updated reagent data to the master control server 5 to monitor.

The intelligent scale platform 2 is provided with a display screen 203, and the display screen 203 is connected with the processing center and is responsible for receiving and displaying information such as the ID, date, the number of articles used/returned and related users of the storage cabinet.

Example two

A cabinet management system 3 for an intelligent laboratory cabinet, as shown in fig. 2, comprises:

the information acquisition module 301 comprises a storage cabinet information acquisition module and an intelligent weighing platform information acquisition module, wherein the storage cabinet information acquisition module is responsible for receiving the identity information of the user transmitted by the identity recognizer 101 and acquiring the RFID label information of the residual reagent bottle bodies in the cabinet body 1 read by the RFID recognizer 202 after the door lock 103 of the storage cabinet is closed each time; the intelligent scale platform information acquisition module is responsible for receiving the read information transmitted by the intelligent scale platform 2;

the main control module 302 is in signal connection with the information acquisition module 301 and is responsible for receiving the read information of the storage cabinet information acquisition module and the intelligent scale platform information acquisition module, counting the number and the types of reagents for accepting each time of opening the cabinet, generating a corresponding acceptance list and sending the acceptance list to the mobile terminal for the experimenter to confirm; after the reagent is returned, the residual weight of the returned reagent is correspondingly updated according to the reading information transmitted by the intelligent weighing platform 2, and the current usage amount is calculated;

after the experimenter uses the reagent, put reagent on intelligent platform 2 and weigh, main control module 302 collects the reading information of intelligent platform information acquisition module, and the weight of reagent in the storage cabinet and the current use amount are updated according to the reading information correspondence of intelligent platform 2, can know the current reagent use amount of experimenter, and compare the reagent use amount with the quantity scope of settlement, if detect that the reagent use amount exceeds the scope of settlement, then make the alarm and remind.

The inventory management module 303 is connected with the main control module 302 and is responsible for recording and displaying the inventory condition of the reagents in the storage cabinet and generating a management list according to the inventory condition of the reagents; the management list includes but is not limited to a warehousing list, an inventory list, a long-term reagent list, and a discard list. The operator participating in the warehousing process, the warehousing time, the names, the specifications and the quantity of the warehoused reagents and the warehoused reagents can be obtained according to the warehousing list; displaying 4 categories of easy explosion, easy virus and high virus according to inventory data in the inventory list, wherein the inventory data of each category are arranged from high to low; displaying 4 categories of easy explosion, easy virus and severe virus according to the long-time reagent data in the long-time reagent list, supporting the time standard of changing a self-defined common reagent into a long-time reagent, and supporting the storage change condition of the long-time reagent in 12 months through a chart; according to the scrapping list, the name, specification and associated operators, time and scrapping place of the scrapped reagent every day can be obtained.

The inventory management modules 303 are all related to user rights, and the inventory data in each right range can be checked according to different rights.

And the user management module 304 is connected with the main control module 302, is provided with multiple levels of user permissions, matches the corresponding user permissions according to the identity information of the user, checks the relevant data of the reagent at the corresponding level according to the user permissions and manages the user information of the next level of permissions. In this embodiment, users with 4 levels of different authorities are set, and the first level of authority is a school level management user and can view reagent related data of a whole school; the second level is a hospital level user, and can check the relevant data of the reagent of the college where the user is located; the third level is a laboratory (or subject group or project) management user and a transit bin management user, and can check all the relevant data of the reagent in the laboratory (or subject group or project or transit bin); the fourth level is a common user and can only view data related to the reagent associated with the user. Besides the information of the corresponding authority, the user can manage the user with the next authority, check, add or delete the information of the user with the next authority, including user name, subject group name, project name, laboratory, telephone number and the like, and can register or delete the IC card for the user with the next authority, and a single user can register no more than 3 IC cards. In addition, a laboratory administrative user may set that a next level of authority user may not use a reagent. The setting of user's permission can be convenient for the management of reagent, avoids the user to use dangerous reagent more than grade simultaneously, improves laboratory security.

The alarm module 305 generates an alarm report according to an alarm condition while giving an alarm for a case where the storage cabinet is not closed, unweighted, unreturned, and the reagent is not in compliance at the reagent placement site and is not authorized to be taken after a predetermined time. The content of the alarm report includes, but is not limited to, classification trend graphs, alarm profiles, compliance rates, and real-time alarm types. The classification trend graph is used for fixedly displaying the development trend of 5 alarms in the current month, and the development trend in any time can be further checked; the alarm distribution map is used for fixedly displaying the proportion of each alarm in the current month, and can further check the proportion of each alarm in any time period; the compliance rate ranking is used for viewing a ranking list of times of triggering alarm operation by the laboratory user or viewing the compliance rate (proportion of not triggering the alarm operation) of the operation process of the next-level authority user; the real-time alarm type is used for displaying the condition that a laboratory user triggers an alarm every day in real time, and 5 alarms are displayed in a classified mode.

The ledger module 306 is used for counting the reagent usage and generating a corresponding reagent usage report, and the contents of the reagent usage report include, but are not limited to, a reagent usage line and a reagent usage time line. The reagent dosage ranking is used for fixedly displaying each reagent detail of the dosage from large to small in the current month, and the dosage ranking of users at all levels in the permission, the taking/replacing times, the scrapping times and the alarming times related to the reagent can be checked; the reagent use time ranking is used for displaying the history of the reagents with operation records, and is performed from near to far according to time, and the operators and the positions related to the reagents are displayed; at the same time, the usage line and time line can be viewed by searching the laboratory (or subject group or item) for any period of time, and in the usage line, the details of use (sorted by time) of each bottle of each reagent can be continuously viewed.

The processing center is in signal communication with the master control server 5, the master control server 5 controls the terminal conditions of the plurality of storage cabinets, whether the service terminals of each storage cabinet are in stock or not is monitored in real time, and the terminal information of the storage cabinets and the reading information of the intelligent scale platform 2 are uploaded to the cloud for remote bidirectional monitoring.

If the monitored reagent dosage in the storage cabinet is insufficient and the reagent needs to be supplemented, the reagent needs to be warehoused through a transfer bin. The transit warehouse is matched with a transit warehouse management system 4, the transit warehouse management system 4 is connected with the storage cabinet management system 3 through a communication network, the transit warehouse management system 4 is further connected with a master control server 5 through a wireless network, and data of the transit warehouse management system 4 can be transmitted to the master control server 5 for real-time monitoring.

The transit warehouse management system 4 includes:

the transfer warehouse sign-in module 402 is connected with the control module 401 and is responsible for receiving the two-dimension code information on the delivery bill scanned by the mobile terminal connected with the transfer warehouse management system 4 and acquiring the name, specification and quantity of reagents of the delivery bill in the two-dimension code information; according to the actual requirement, the actual amount of the signed reagent is adjusted and then the sign-in is confirmed;

a control module 401 for transmitting the actual signing information to the inventory management module 303 of the storage cabinet management system 3 through the communication network after the signing is confirmed to update the reagent inventory list in the storage cabinet; the control module 401 is in signal communication with the master control server 5, and transmits the information of the control module 401 to the master control server 5 for monitoring;

the transfer warehouse management module 403 is connected to the control module 401, manages the warehousing condition of the transfer warehouse, the inventory condition of the transfer warehouse, and the delivery condition of the transfer warehouse, and uploads the management result to the general control server 5 through the control module 401 for real-time monitoring.

The transfer warehouse management system 4 is in signal connection with the master control server 5, the master control server 5 is responsible for monitoring information uploaded by the transfer warehouse management system 4 and the storage cabinet management system 3 in real time, the master control server 5 can be connected with terminal equipment, and a user can directly observe the reagent conditions of the transfer warehouse and the storage cabinet by using the terminal equipment.

The transfer warehouse administrator uses the WeChat applet or APP software on the mobile terminal to scan the delivery note two-dimensional code of the reagent to be warehoused, obtains the name, specification and quantity of the reagent in the delivery note, adjusts the corresponding upper product quantity in the applet according to the quantity of the commodity which needs to be signed, then signs, synchronizes the signed reagent information (name, specification, quantity and sign-in person) to the inventory management module 303 of the storage cabinet processing center, updates the reagent inventory list in the cabinet, and enters the state to be warehoused. Before the storage cabinet is put in storage, the storage cabinet enters a storage mode through a small program, under the mode, the storage cabinet does not allow to take out the original reagent, otherwise, the storage cabinet is regarded as illegal operation; and the new reagents in the inventory list are identified by the intelligent weighing platform 2 and then put into the storage cabinet to finish warehousing operation.

The storage cabinet may store not only reagents but also laboratory articles such as medicines, and the articles stored in the storage cabinet are not limited herein.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (5)

1. An intelligent laboratory storage cabinet, comprising:

the storage cabinet comprises a cabinet body, an adjusting laminate, a micro-control center, an identity recognizer and an RFID recognizer, wherein the identity recognizer and the RFID recognizer are in signal communication with the micro-control center; a plurality of layers of adjusting laminate plates are arranged in the cabinet body, an RFID identifier is arranged on the wall of the storage cabinet corresponding to each layer of adjusting laminate plate, and the RFID identifier is communicated with the micro-control center through signals;

the intelligent scale platform comprises a processing center, a weighing module, an identity recognition module and an RFID recognition module, wherein the weighing module is in signal communication with the processing center and is used for reading the weight of the reagent, the identity recognition module is used for recognizing user information using the intelligent scale platform, and the RFID recognition module is used for reading the RFID label of the reagent bottle body; the processing center is in signal communication with a micro-control center of the storage cabinet through a communication network and is responsible for receiving and processing the read information transmitted by each module, generating a corresponding execution instruction to control the storage cabinet to execute corresponding operation and synchronizing the data of the storage cabinet and the intelligent scale platform in real time; the processing center is connected with the master control server through a communication network, and synchronous data are uploaded to the master control server for real-time monitoring.

2. The intelligent laboratory storage cabinet of claim 1, wherein a display screen is mounted on said intelligent scale platform, said display screen being connected to a processing center.

3. A cabinet management system for an intelligent laboratory cabinet according to any one of claims 1 to 2, comprising:

the information acquisition module comprises a storage cabinet information acquisition module and an intelligent weighing platform information acquisition module, and the storage cabinet information acquisition module is used for receiving the identity information of the user transmitted by the identity recognizer and acquiring the RFID label information of the residual reagent bottle bodies in the cabinet body read by the RFID recognizer after the door lock of the storage cabinet is closed each time; the intelligent scale platform information acquisition module is responsible for receiving the read information transmitted by the intelligent scale platform;

the main control module is in signal connection with the information acquisition module and is responsible for receiving the read information of the storage cabinet information acquisition module and the intelligent weighing platform information acquisition module, counting the number and the types of the reagents used for accepting each time of opening the cabinet, generating a corresponding acceptance list, correspondingly updating the residual weight of the returned reagent according to the read information transmitted by the intelligent weighing platform after returning the reagent, and calculating the current use amount;

the inventory management module is connected with the main control module and is responsible for recording and displaying the inventory condition of the reagents in the storage cabinet and generating a management list according to the inventory condition of the reagents; the inventory conditions include, but are not limited to, weight of reagent, quantity of reagent, type of reagent, time of delivery and delivery of reagent, and shelf life of reagent.

4. A cabinet management system according to claim 3, wherein the management lists include, but are not limited to, warehousing lists, inventory lists, long-term reagent lists, and discard lists.

5. A cabinet management system according to claim 3, further comprising:

and the user management module is connected with the main control module, is provided with a plurality of levels of user authorities, matches the corresponding user authorities according to the identity information of the user, checks the relevant data of the reagent at the corresponding level according to the user authorities and manages the user information of the next level of authority.

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