CN215679531U - Automatic storage cabinet - Google Patents

Abstract

This paper provides an automatic locker, relates to the automatic control field, and automatic locker includes: the equipment comprises a cabinet body, article identification equipment, static electricity removal equipment and control equipment; a plurality of storage units are arranged in the cabinet body and used for storing articles; the article identification equipment is arranged in each storage unit and used for identifying real-time article information; the static electricity removing equipment is arranged in the cabinet body; the control equipment is connected with the article identification equipment and the static electricity removal equipment and is used for comparing the real-time article information with historical article information, determining article in-out information according to a comparison result, and updating the historical article information by using the real-time article information; and when the warehouse-out or warehouse-in amount of the articles in the warehouse-out and warehouse-in information is non-zero, starting the static eliminating equipment to work. The article storage cabinet can automatically manage articles in the storage cabinet, can achieve the effect of static electricity removal, and improves the precision and the service life of the articles in the storage cabinet.

Description

Automatic storage cabinet

Technical Field

This paper relates to automatic control technical field, especially relates to an automatic locker.

Background

Along with the rapid growth of equipment in a data center machine room, the difficulty of managing equipment accessories in the machine room is increased more and more. When the machine room operation and maintenance personnel can independently take the equipment accessories at night, how to accurately record the access conditions of all the warehouse accessory equipment is a big problem faced by all the equipment management personnel.

The storage cabinet in the prior art does not automatically record the information of article entering and exiting the warehouse, and the article entering and exiting the warehouse is mainly realized by means of conscious registration of each operation and maintenance person, and the conscious registration mode can cause the situations of registration error, missing registration and the like.

In addition, the locker among the prior art easily receives the influence of surrounding environment such as static, dust and temperature, and then leads to the article in the locker to appear the precision scheduling problem.

SUMMERY OF THE UTILITY MODEL

The article of writing for solving the mode that people's manual registration goes out warehouse entry information among the prior art has extravagant manpower, and appears omitting easily and lead to the problem that the account is real not conform to and the problem that the locker will influence article precision because of static influence among the prior art.

In order to solve the above technical problems, a first aspect of the present disclosure provides an automated storage cabinet, comprising: the equipment comprises a cabinet body, article identification equipment, static electricity removal equipment and control equipment;

a plurality of storage units are arranged in the cabinet body and used for storing articles;

the article identification equipment is arranged in each storage unit and used for identifying real-time article information;

the static eliminating equipment is arranged in the cabinet body and comprises a humidifier motor-pumped well ion generator;

the control equipment is connected with the article identification equipment and the static electricity removal equipment and is used for comparing the real-time article information with historical article information, determining article in-out information according to a comparison result, and updating the historical article information by using the real-time article information; and when the warehouse-out or warehouse-in amount of the articles in the warehouse-out and warehouse-in information is non-zero, starting the static eliminating equipment to work.

As a further embodiment herein, the item identification device comprises: one of image acquisition and identification equipment, sensing equipment and a label identifier;

the image acquisition and identification equipment is arranged at one corner of the middle upper space of the storage unit;

the sensing equipment is arranged on the bottom plate of the storage unit;

the label identifier is arranged on two side faces of the opening of the storage unit.

As a further embodiment herein, the automated locker further comprises: an electric control lock and user identification equipment;

the electric control lock is arranged on a cabinet door of the cabinet body and used for opening and closing the cabinet door;

the user identification equipment is arranged on a cabinet door of the cabinet body and used for acquiring user information;

the control equipment is also connected with the electric control lock and the user identification equipment and used for comparing the user information with pre-stored information to verify the user authority, and when the user authority passes verification, the electric control lock is opened, so that the cabinet door of the cabinet door is opened.

As a further embodiment herein, the user identification device includes at least one of a fingerprint collector, an image collector, a touch screen, and a keyboard.

As a further embodiment herein, the automated locker further comprises: the timer is arranged on the electric control lock and used for recording the opening time of the electric control lock;

the control equipment is connected with the timer and used for controlling the opening duration of the static eliminating equipment according to the opening duration of the electric control lock.

As a further embodiment herein, the automated locker further comprises: temperature and humidity detection equipment and cooling and dehumidifying equipment;

the temperature and humidity detection equipment is arranged in the cabinet body and used for collecting temperature and humidity information;

the cooling and dehumidifying equipment is arranged on the side wall of the automatic storage cabinet and is used for cooling and dehumidifying;

the control equipment is further connected with the temperature and humidity detection equipment and the cooling and dehumidifying equipment and used for comparing the collected temperature and humidity information with the temperature and humidity threshold value, and if the collected temperature and humidity information is larger than the temperature and humidity threshold value, the cooling and dehumidifying equipment is started to cool and dehumidify.

As a further embodiment herein, the cooling and dehumidifying device is a fan.

As a further embodiment herein, the automated locker further comprises: the alarm equipment is arranged on the cabinet body;

the control equipment is connected with the alarm equipment, and the alarm equipment is started to alarm under the condition that the collected temperature and humidity information is greater than a temperature and humidity threshold value within a continuous preset time period.

As a further embodiment herein, the automated locker further comprises: the input equipment is used for inputting the information of goods entering and leaving the warehouse by a user;

the control equipment is also connected with the input identification and used for comparing the article warehousing and ex-warehouse information input by the user with the determined warehousing and ex-warehouse information, and if the article warehousing and ex-warehouse information input by the user is different from the determined warehousing and ex-warehouse information, the alarm equipment is started to give an alarm.

As a further embodiment herein, the automated locker further comprises: the communication equipment is used for realizing the communication between the automatic storage cabinet and the maintenance personnel terminal equipment;

the control equipment is further connected with the communication equipment and used for comparing the historical article information with the early warning threshold value information, and if the historical article information reaches the early warning threshold value information, the control equipment sends a replenishment prompt to the terminal equipment of the warehouse manager through the communication equipment.

The automatic storage cabinet provided by the invention is characterized in that the article identification device is designed to comprise a cabinet body, an article identification device, a static eliminating device and a control device; a plurality of storage units are arranged in the cabinet body and used for storing articles; the article identification equipment is arranged in each storage unit and used for identifying the real-time article information control equipment; the static eliminating equipment is arranged in the cabinet body; the control equipment is connected with the user identification equipment and the static eliminating equipment and is used for comparing the real-time article information with the historical article information, determining the information of article entering and leaving the warehouse according to the comparison result and updating the historical article information by using the real-time article information; when the warehouse-in and warehouse-out amount of the articles in the warehouse-in and warehouse-out information is non-zero, the static removing equipment is started to work, so that the articles in the storage cabinet can be automatically managed, time and labor can be saved, human errors can be avoided, and the authenticity and the accuracy of the warehouse-in and warehouse-out information are ensured. Meanwhile, the article can achieve the effect of static elimination, and the precision and the service life of articles in the storage cabinet are improved.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the embodiments or technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 illustrates a first schematic perspective view of an automated locker of an embodiment herein;

FIG. 2 illustrates a first circuit connection diagram of an automated locker of an embodiment herein;

FIG. 3 illustrates a second schematic perspective view of the automated locker of an embodiment herein;

FIG. 4 illustrates a third schematic perspective view of the automated locker of an embodiment herein;

FIG. 5 illustrates a third schematic perspective view of an automated locker of an embodiment herein;

FIG. 6 illustrates a second circuit connection diagram of the automated locker of an embodiment herein;

FIG. 7 illustrates a third circuit connection diagram of the automated locker of an embodiment herein;

FIG. 8 illustrates a fourth circuit connection diagram of the automated locker of an embodiment herein;

FIG. 9 illustrates a fourth schematic perspective view of the automated locker of an embodiment herein;

FIG. 10 illustrates a fifth circuit connection diagram of the automated locker of an embodiment herein;

FIG. 11 illustrates a sixth circuit connection diagram of the automated locker of an embodiment herein;

FIG. 12 shows a seventh circuit connection diagram of the automated locker of an embodiment herein;

FIG. 13 is a block diagram illustrating a computer device according to an embodiment of the present disclosure.

Description of the symbols of the drawings:

10. a cabinet body;

20. an item identification device;

30. a static electricity eliminating device;

40. a control device;

101. a storage unit;

201. image acquisition and identification equipment;

202. a sensing device;

203. a tag identifier;

301. a humidifier;

302. an ion generator;

50. an electrically controlled lock;

60. a user identification device;

70. a timer;

80. temperature and humidity detection equipment;

90. cooling and dehumidifying equipment;

110. an alarm device;

120. an input device;

130. a communication device;

1302. a computer device;

1304. a processor;

1306. a memory;

1308. a drive mechanism;

1310. an input/output module;

1312. an input device;

1314. an output device;

1316. a presentation device;

1318. a graphical user interface;

1320. a network interface;

1322. a communication link;

1324. a communication bus.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments herein without making any creative effort, shall fall within the scope of protection.

It should also be understood that, in the embodiments herein, the term "and/or" is only one kind of association relation describing an associated object, meaning that three kinds of relations may exist. For example, a and/or B, may represent: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

The illustrative embodiments and descriptions herein are presented for purposes of illustration and not of limitation. Additionally, the same or similar numbered elements/components used in the drawings and the embodiments are used to represent the same or similar parts.

With respect to directional terminology used herein, for example: up, down, etc., with reference only to the orientation of the figures. Accordingly, the directional terminology used is intended to be illustrative and is not intended to be limiting of the present teachings. As used herein, the terms "comprising," "including," and the like are open-ended terms that mean including, but not limited to.

The automated storage cabinet described herein may be used for article storage in the financial field, such as consumable storage in a data center, and may also be used in any field other than the financial field, and the application field of the automated storage cabinet is not limited herein.

In the prior art, a storage cabinet does not automatically record the information of article entering and exiting the warehouse, and the article entering and exiting the warehouse is mainly realized by means of conscious registration of each operation and maintenance person, and the conscious registration mode has the situations of registration error, missing registration and the like. In addition, the locker among the prior art easily receives the influence of surrounding environment such as static, dust and temperature, and then leads to the article in the locker to appear the precision scheduling problem.

In order to solve the above technical problems, in an embodiment of the present disclosure, an automated storage cabinet is provided, as shown in fig. 1 and 2, including: a cabinet 10, an article recognition device 20, a static electricity removing device 30, and a control device 40.

A plurality of storage units 101 are disposed in the cabinet 10, and the storage units 101 are used for storing articles.

The article identification device 20 is disposed in each storage unit 101, and is used for identifying real-time article information.

The static electricity removing apparatus 30 is disposed in the cabinet 10, and includes a humidifier 301 and an ionizer 302, the humidifier 301 is configured to reduce static electricity by humidifying air, and the ionizer 302 is configured to reduce static electricity by emitting ions.

The control device 40 is connected with the article identification device 20 and the static electricity removal device 30, and is used for comparing the real-time article information with the historical article information, determining the article in-out information according to the comparison result, and updating the historical article information by using the real-time article information; when the warehouse-out or warehouse-in amount in the warehouse-out and warehouse-in information of the articles is non-zero, the warehouse-out and warehouse-out occur, at this time, the electrostatic action will be enhanced, the electrostatic reduction treatment is needed, and the static electricity removing equipment 30 is started to work.

In detail, the automatic storage cabinet described herein is suitable for articles requiring static electricity, such as accessories in data centers, for example, storage devices, servers, network devices, office equipment, and the like, and various accessories, and the specific articles are not limited herein.

The size of the cabinet and the storage unit can be determined according to the type and size of the placed object, and the structure and the size of the cabinet and the storage unit are not particularly limited. The articles stored in the storage units can be the same or different, and in specific implementation, the articles can be put in storage according to a pre-designed article placement plan.

The article identification device described herein is capable of identifying real-time article information, wherein the real-time article information includes: name of article, model, brand, quantity, etc. The article identification device includes: at least one of the image capturing and identifying device 201, the sensing device 202 and the tag identifier 203.

As shown in fig. 3, the image capturing and recognizing device 201 is disposed at a corner of the upper space in the storage unit 101 for determining real-time article information by image capturing and recognizing. The image recognition algorithm is stored in the image acquisition and recognition device, and the specific process of recognizing the article by the image recognition algorithm can refer to the prior art, which is not limited herein.

As shown in fig. 4, the sensing device 202 is disposed on the bottom plate of the storage unit 101. Specifically, the sensing device 202 includes: a gravity detector and an identifier. The gravity detector is used for detecting whether an article is placed above the gravity detector, for example, the detection result of the gravity detector is 0 and 1, where 1 indicates that the gravity detector detects the article, and 0 indicates that the gravity detector does not detect the article. The recognizer is used for being connected with the gravity detector in a bus mode, and real-time article information is determined according to the detection result of the gravity detector and an article placement position strategy.

As shown in fig. 5, at least two tag identifiers are included, and tag identification is performedThe devices 203 are arranged at the opening of the storage unit 101 in tandem, and the article is determined to be delivered or stored in a warehouse through the time difference of the article information recognized by the two tag identifiers 203, for example, the first tag identifier is closer to the article than the second identifier, and the time when the first tag identifier recognizes the article information is T_RFID1The second tag identifier identifies the article information at a time T_RFID2If Δ T is equal to T_RFID1-T_RFID2When Δ T is>When 0, determining to put in storage, namely, the goods enter the storage cabinet, and when delta T is reached<And when 0, determining that the articles are out of the storage cabinet, namely the articles leave the storage cabinet. Labels are pasted on articles in the automatic storage cabinet, and article information is stored in the labels.

The humidifier 301 and the ionizer 302 described herein may be implemented by commercially available devices, and their manufacturers, models, and the like are not particularly limited.

The control device 40 may be disposed in an automatic storage cabinet or a remote server, and may be a Central Processing Unit (CPU), or other programmable general purpose or special purpose Microprocessor (Microprocessor), Digital Signal Processor (DSP), programmable control module, Application Specific Integrated Circuit (ASIC), or other similar components or combinations thereof, and the type, model, etc. of the control device 40 are not limited in detail herein. In specific implementation, the control device 40 may further include a specially designed circuit, for example, a memory, a comparator and a processor, where the memory stores article information, that is, article information existing in the storage cabinet, the comparator compares the real-time article information with the historical article information, the processor determines the article in-out information according to the comparison result, and updates the historical article information with the real-time article information; when the warehouse-in/out information of the articles is non-zero, a starting instruction is sent to the static eliminating equipment 30.

This embodiment can realize the automatic management to article in the cabinet, can save time the manpower on the one hand, and on the other hand also can avoid the human error, has guaranteed authenticity, the accuracy of discrepancy storehouse information. Meanwhile, the article can also achieve the effect of static elimination, the influence of static on articles in the storage cabinet is avoided, and the precision and the service life of the articles in the storage cabinet are improved.

In one embodiment of this document, in order to ensure the safety of the automatic locker and avoid unauthorized persons from taking articles from the automatic locker, as shown in fig. 6, the automatic locker further comprises: an electrically controlled lock 50 and a user identification device 60. The electric control lock 50 is disposed on the cabinet door of the cabinet 10 for opening and closing the cabinet door. The user identification device 60 is disposed on a door of the cabinet 10, and is configured to obtain user information. The control device 40 is further connected to the electric control lock 50 and the user identification device 60, and is configured to compare the user information with pre-stored information to verify the user right, and when the user right passes the verification, open the electric control lock 50, thereby opening the cabinet door of the cabinet 10.

In detail, the user identification device 60 described herein includes at least one of a fingerprint collector, an image collector, a touch screen, and a keyboard. The fingerprint collector is used for collecting user fingerprint information, and authorized user fingerprint information is stored in the control equipment in advance. The image acquisition equipment is used for acquiring user image information or eyeball information, and the control equipment stores the user image information or the eyeball information in advance. The touch screen and the keyboard are used for a user to input information such as a user name, a password and the like, and the user name and the password of an authorized user are stored in the control equipment in advance.

If a user wants to take articles from the automatic storage cabinet or put the articles into the automatic storage cabinet, the user identification equipment is required to acquire user information, the user information is sent to the control equipment for verification, and the control equipment opens the electric control lock after verification is passed, so that the cabinet door of the automatic storage cabinet is opened.

In specific implementation, the control device 40 may further bind the user information with the article warehousing information, so as to track the warehousing user information in the following.

The safety of article in the automatic storage cabinet can be guaranteed to this embodiment, avoids the user to take article at will.

In an embodiment of this document, in order to realize precise control of static electricity prevention, as shown in fig. 7, the automatic storage cabinet further includes: and the timer 70 is arranged on the electric control lock 50 and used for recording the opening time of the electric control lock. The control device 40 is connected with the timer 70 and is used for controlling the opening duration of the static eliminating device 30 according to the opening duration of the electric control lock. The opening duration of the static eliminating device 30 is in a direct proportional relationship with the opening duration of the electric control lock, and the proportionality coefficient can be determined through experiments, which is not limited herein.

In an embodiment of the present disclosure, to prevent the excessive temperature and humidity from affecting the articles in the automatic storage cabinet, as shown in fig. 8 and 9, the automatic storage cabinet further includes: temperature and humidity measurement equipment 80 and cooling and dehumidifying equipment 90. The temperature and humidity detection device 80 is arranged in the cabinet body 10 and used for collecting temperature and humidity information.

The cooling and dehumidifying device 90 is disposed on the sidewall of the automatic storage cabinet for cooling. The control device 40 is further connected to the temperature and humidity detection device 80 and the temperature reduction and dehumidification device 90, and is configured to compare the collected temperature and humidity information and the temperature and humidity threshold value, and if the collected temperature and humidity information is greater than the temperature and humidity threshold value, the temperature reduction and dehumidification device 90 is turned on to perform temperature reduction and dehumidification.

Cooling dehumidification equipment 90 of this embodiment can adopt the fan, temperature and humidity detection equipment 80 can adopt the existing temperature and humidity sensor on the market, during the concrete implementation, in order to realize the accurate measurement of the internal temperature of cabinet, can set up a plurality of temperature and humidity sensors in the internal many places of cabinet, the internal temperature and humidity distribution characteristic of cabinet is confirmed to the value that measures through temperature and humidity sensor, according to the installation position of temperature and humidity distribution characteristic definite cooling dehumidification equipment.

In an embodiment of this document, in order to avoid the situation that the temperature and humidity cannot be reduced due to the failure of the temperature and humidity reducing and dehumidifying device 90, as shown in fig. 10, the automatic storage cabinet further includes: and the alarm device 110 is arranged on the cabinet body 10. The control device 40 is further connected to the alarm device 110, and when the collected temperature and humidity information is greater than the temperature and humidity threshold value within a continuous predetermined time period, the alarm device 110 is turned on to alarm.

In an embodiment of this document, in order to avoid an error in entering or exiting the warehouse, as shown in fig. 11, the automated locker further includes: and an input device 120 for a user to input information of the article entering or exiting the warehouse. The control device 40 is further connected to the input device 120, and configured to compare the article warehousing information input by the user with the determined warehousing information, and if the article warehousing information input by the user is different from the determined warehousing information, turn on the alarm device 110 to alarm.

According to the embodiment, the situation that the user goes out and enters the warehouse wrongly can be prevented by comparing the article entering and exiting information input by the user with the article entering and exiting information determined according to the information identified by the article identification device. For example, if the user wants to take device a but actually takes device B, the user may be alerted to the error by issuing an alarm.

In one embodiment of this document, in order to facilitate the stock manager to replenish the stock as soon as possible, as shown in fig. 12, the automated locker further comprises: and the communication equipment 130 is used for realizing the communication between the automatic storage cabinet and the maintenance personnel terminal equipment.

The control device 40 is further connected to the communication device 130, and configured to compare the historical article information with the early warning threshold information, and send a replenishment reminder to the terminal device of the warehouse manager through the communication device 130 if the historical article information reaches the early warning threshold information.

In detail, the early warning threshold information may be set according to actual conditions, and specific values thereof are not limited herein.

The automatic storage cabinet provided by the paper can realize real-time management and storage of warehouse entry and warehouse exit acceptance of common accessories of a data center machine room through intelligent article identification, user identification, temperature and humidity control and ion control, ensures the accuracy of accessory management and the availability of the accessories, and can prompt purchasing and warehouse supplement in time. The requirement of intelligent management of the data center is met.

As embodied herein, the control module described above may also be replaced with a computer, and as shown in fig. 13, computer device 1302 may include one or more processors 1304, such as one or more Central Processing Units (CPUs), each of which may implement one or more hardware threads. Computer device 1302 may also include any memory 1306 for storing any kind of information, such as code, settings, data, etc. For example, without limitation, memory 1306 may include any one or more of the following in combination: any type of RAM, any type of ROM, flash memory devices, hard disks, optical disks, etc. More generally, any memory may use any technology to store information. Further, any memory may provide volatile or non-volatile retention of information. Further, any memory may represent fixed or removable components of computer device 1302. In one case, when processor 1304 executes associated instructions that are stored in any memory or combination of memories, computer device 1302 may perform any of the operations of the associated instructions. The computer device 1302 also includes one or more drive mechanisms 1308, such as a hard disk drive mechanism, an optical drive mechanism, etc., for interacting with any memory.

Computer device 1302 may also include an input/output module 1310(I/O) for receiving various inputs (via input device 1312) and for providing various outputs (via output device 1314)). One particular output mechanism may include a presentation device 1316 and an associated graphical user interface 1318 (GUI). In other embodiments, input/output module 1310(I/O), input device 1312, and output device 1314 may also not be included, as only one computer device in a network. Computer device 1302 may also include one or more network interfaces 1320 for exchanging data with other devices via one or more communication links 1322. One or more communication buses 1324 couple the above-described components together.

Communication link 1322 may be implemented in any manner, e.g., via a local area network, a wide area network (e.g., the Internet), a point-to-point connection, etc., or any combination thereof. The communication link 1322 may comprise any combination of hardwired links, wireless links, routers, gateway functions, name servers, etc., governed by any protocol or combination of protocols.

The principles and embodiments of this document are explained herein using specific examples, which are presented only to aid in understanding the methods and their core concepts; meanwhile, for the general technical personnel in the field, according to the idea of this document, there may be changes in the concrete implementation and the application scope, in summary, this description should not be understood as the limitation of this document.

The principles and embodiments of this document are explained herein using specific examples, which are presented only to aid in understanding the methods and their core concepts; meanwhile, for the general technical personnel in the field, according to the idea of this document, there may be changes in the concrete implementation and the application scope, in summary, this description should not be understood as the limitation of this document.

Claims (10)

1. An automated storage cabinet, comprising: a cabinet body (10), an article identification device (20), a static electricity removal device (30) and a control device (40);

a plurality of storage units (101) are arranged in the cabinet body (10), and the storage units (101) are used for storing articles;

the article identification device (20) is arranged in each storage unit (101) and is used for identifying real-time article information;

the static electricity removing equipment (30) is arranged in the cabinet body (10) and comprises a humidifier (301) and an ion generator (302);

the control device (40) is connected with the article identification device (20) and the static electricity removal device (30) and is used for comparing the real-time article information with historical article information, determining article in-out information according to a comparison result and updating the historical article information by using the real-time article information; and when the warehouse-out or warehouse-in amount of the articles in the warehouse-out and warehouse-in information is non-zero, starting the static removing equipment (30) to work.

2. An automated locker according to claim 1 wherein the article identification device (20) comprises: one of the image acquisition and identification device (201), the sensing device (202) and the label identifier (203);

the image acquisition and recognition equipment (201) is arranged at one corner of the upper space in the storage unit (101);

the sensing equipment (202) is arranged on a bottom plate of the storage unit (101);

the label identifier (203) is arranged on the side surface of the opening of the storage unit (101).

3. The automated locker of claim 1 or 2 further comprising: an electrically controlled lock (50) and a user identification device (60);

the electric control lock (50) is arranged on a cabinet door of the cabinet body (10) and is used for opening and closing the cabinet door;

the user identification equipment (60) is arranged on a cabinet door of the cabinet body (10) and is used for acquiring user information;

the control equipment (40) is further connected with the electric control lock (50) and the user identification equipment (60) and is used for comparing the user information with pre-stored information to verify user authority, and when the user authority passes verification, the electric control lock (50) is opened, so that a cabinet door of the cabinet body (10) is opened.

4. The automated locker of claim 3, wherein the user identification device (60) comprises at least one of a fingerprint collector, an image collector, a touch screen, and a keyboard.

5. The automated locker of claim 3 further comprising: the timer (70) is arranged on the electric control lock (50) and used for recording the opening duration of the electric control lock;

the control device (40) is connected with the timer (70) and is used for controlling the opening duration of the static eliminating device (30) according to the opening duration of the electric control lock.

6. The automated locker of claim 1 further comprising: temperature and humidity detection equipment (80) and cooling and dehumidifying equipment (90);

the temperature and humidity detection equipment (80) is arranged in the cabinet body (10) and is used for collecting temperature and humidity information;

the cooling and dehumidifying equipment (90) is arranged on the side wall of the automatic storage cabinet and is used for cooling;

the control equipment (40) is further connected with the temperature and humidity detection equipment (80) and the temperature reduction and dehumidification equipment (90) and used for comparing the collected temperature and humidity information and the collected temperature and humidity threshold value, and if the collected temperature and humidity information is larger than the temperature and humidity threshold value, the temperature reduction and dehumidification equipment (90) is started to carry out temperature reduction and dehumidification.

7. An automated storage cabinet according to claim 6, wherein the temperature reducing and dehumidifying equipment (90) is a fan.

8. The automated locker of claim 7 further comprising: the alarm device (110) is arranged on the cabinet body (10);

the control equipment (40) is further connected with the alarm equipment (110), and the alarm equipment (110) is started to alarm under the condition that the collected temperature and humidity information is greater than the temperature and humidity threshold value within the continuous preset time period.

9. The automated locker of claim 8 further comprising: an input device (120) for a user to input item in and out information;

the control device (40) is further connected with the input device (120) and is used for comparing the article warehousing and ex-warehouse information input by the user with the determined warehousing and ex-warehouse information, and if the article warehousing and ex-warehouse information input by the user is different from the determined warehousing and ex-warehouse information, the alarm device (110) is started to alarm.

10. The automated locker of claim 6 further comprising: the communication device (130) is used for realizing the communication between the automatic locker and the maintenance personnel terminal device;

the control equipment is further connected with the communication equipment (130) and used for comparing the historical article information with the early warning threshold information, and if the historical article information reaches the early warning threshold information, the control equipment sends a replenishment prompt to the terminal equipment of the warehouse manager through the communication equipment (130).

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