CN210324274U - Warehouse personnel and tool management system - Google Patents

Abstract

The present application relates to a warehouse personnel and tool management system for managing tools with electronic tags, and personnel lending or returning the tools. The warehouse personnel and tool management system comprises a tool monitoring device, a personnel monitoring device and an information acquisition and analysis device. The tool monitoring device comprises an electronic tag reader-writer and at least two electronic tag readers. The personnel monitoring apparatus includes a face recognition device for collecting and verifying face images of the personnel lending or returning the tool. The information acquisition and analysis device is used for correlating tool information and personnel information of the warehouse, so as to control and manage the tools of the warehouse and the personnel lending or returning the tools. The warehouse personnel and tool management system provided by the application can solve the problems that the traditional scheme is inconvenient to manage and management errors easily occur when warehouse tool management is carried out.

Description

Warehouse personnel and tool management system

Technical Field

The application relates to the field of warehouse management systems, in particular to a warehouse personnel and tool management system.

Background

A large number of tools are stored in the warehouse, and the tools must be managed when the tools are used.

In the conventional scheme, when tools in a warehouse are managed, a borrower needs to record a special form when manual autonomous registration is adopted, namely, tools enter or leave the warehouse. This method is wasteful of paper and is prone to tool loss or tool management errors caused by mis-registration or mis-registration. The existing warehouse management system or warehouse management device has no means for assisting warehouse personnel in managing the warehouse, so that it is necessary to develop a device suitable for the warehouse personnel to manage tools in the warehouse.

In summary, in the management of warehouse tools, conventional solutions lack a system or apparatus suitable for warehouse management.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide a warehouse personnel and tool management system for the case that the conventional solution lacks a system or device suitable for warehouse management.

A warehouse personnel and tool management system is used for managing tools with electronic tags and personnel borrowing or returning the tools, and is characterized by comprising a tool monitoring device, a personnel monitoring device and an information acquisition and analysis device;

the tool monitoring device comprises an electronic tag reader-writer and at least two electronic tag readers;

the electronic tag reader-writer is in signal connection with the information acquisition and analysis device and is used for recording first coding information and sending the detected first coding information to the information acquisition and analysis device so that the information acquisition and analysis device generates an information base; the first coded information is the coded information of the tool detected by the electronic tag reader-writer;

the at least two electronic tag readers are in signal connection with the information acquisition and analysis device and are used for acquiring second coded information and sending the second coded information to the information acquisition and analysis device so that the information acquisition and analysis device can judge whether the second coded information exists in the information base and generate a judgment result; the second coded information is the coded information of the tool detected by the electronic tag reader;

the personnel monitoring device comprises a face recognition device, the face recognition device is used for collecting and verifying face images of the personnel lending or returning the tool, and the personnel monitoring device is used for monitoring and managing the personnel lending or returning the tool;

the information acquisition and analysis device is in signal connection with the signal output ends of the tool monitoring device and the personnel monitoring device and is used for managing the tools entering and exiting the warehouse and the personnel lending or returning the tools.

The application provides a warehouse personnel and tool management system, include tool monitoring device, personnel monitoring device and information acquisition analytical equipment. The tool monitoring device is used for monitoring and managing the tools entering and exiting the warehouse. The tool monitoring device comprises an electronic tag reader-writer and at least two electronic tag readers. The electronic tag reader-writer can scan the tool to be delivered, and the at least two electronic tag readers can detect whether the tool passing through the at least two electronic tag readers is scanned by the electronic tag reader-writer and whether the tool is recorded by the information acquisition and analysis device. The personnel monitoring device is used for monitoring and managing the personnel lending or returning the tool. The personnel monitoring device comprises face recognition equipment, and personnel borrowing or returning tools can brush face on the face recognition equipment for verification and store face images by the face recognition equipment. The information acquisition and analysis device is in signal connection with the signal output ends of the tool monitoring device and the personnel monitoring device and is used for managing the tools entering and leaving the warehouse and the personnel lending or returning the tools.

The warehouse personnel and tool management system provided by the application can assist the warehouse management personnel in performing informatization management on tools in the warehouse and personnel borrowing the tools, manual and autonomous registration is not needed, and the condition that tools are lost or tool management errors caused by mis-registration or mis-registration when the tools are lent or returned to the warehouse is avoided. Therefore, the warehouse personnel and tool management system provided by the application can solve the problem that the traditional scheme lacks a system or a device suitable for warehouse management in the management of warehouse tools.

In one embodiment, the face recognition device includes:

a face recognition device body;

the camera is arranged on the face recognition equipment body and used for shooting a face image;

the proximity sensor is arranged on the face recognition equipment body and used for detecting whether a face approaches the face recognition equipment body or not and generating a sensing signal;

the mainboard comprises a processor, is in signal connection and electric connection with the camera and the proximity sensor, and is used for receiving the sensing signal transmitted by the proximity sensor and awakening the camera to work according to the sensing signal.

In one embodiment, the face recognition device further includes:

and the display screen is arranged on the face recognition equipment body and used for displaying the face image.

In one embodiment, the proximity sensor comprises:

the face recognition equipment comprises a face recognition equipment body, at least one light-emitting diode lamp and a control circuit, wherein the face recognition equipment body is used for recognizing human faces;

and the induction sensor is arranged on the face recognition equipment body and used for inducing light reflected by the light pulse when a face approaches the face recognition equipment body.

In one embodiment, the main board is further provided with:

the memory is electrically connected and in signal connection with the camera and is used for storing the face image and forming a face image information base;

and the coprocessor is in signal connection with the camera and is used for extracting the characteristics of the face image, identifying whether the characteristics of the face image are matched with the characteristics in the face image information base or not according to the face image information base, and outputting an identification result.

In one embodiment, the camera comprises a light sensing camera, an infrared emission tube, an infrared camera and a driving circuit.

In one embodiment, the tool monitoring device further comprises:

and the alarm device is in signal connection with the information acquisition and analysis device and is used for receiving an alarm command of the information acquisition and analysis device and executing alarm operation, wherein the alarm command is generated by the information acquisition and analysis device according to the judgment result.

In one embodiment, the alarm device comprises an acoustic alarm and an optical alarm.

In one embodiment, the information collecting and analyzing device includes a computer.

In one embodiment, the personnel monitoring device further comprises:

the warehouse camera is in signal connection with the information acquisition and analysis device and is used for acquiring personnel moving images in the warehouse and sending the acquired images to the information acquisition and analysis device for identification and storage.

Drawings

Fig. 1 is a schematic diagram illustrating a warehouse personnel and tool management system according to an embodiment of the present application.

Fig. 2 is a schematic diagram of a part of a face recognition device according to an embodiment of the present application.

Fig. 3 is a schematic composition diagram of a face recognition device according to an embodiment of the present application.

Description of the reference numerals

Warehouse personnel and tool management system 10

Tool monitoring apparatus 100

Electronic label reader-writer 110

Electronic label reader 120

Alarm device 130

Personnel monitoring device 200

Face recognition device 210

Face recognition device body 211

Camera 220

Light sensing camera 221

Infrared emission tube 222

Infrared camera 223

Driver circuit 224

Proximity sensor 230

Light emitting diode lamp 231

Inductive sensor 232

Main board 240

Processor 241

Display screen 250

Memory 260

Coprocessor 270

Warehouse camera 280

Information collecting and analyzing device 300

Detailed Description

The traditional scheme has the problems of inconvenient management and easy management error when warehouse tool management is carried out. Based on this, this application provides a warehouse personnel and instrument management system.

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, embodiments accompanying the present application are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application. This application is capable of embodiments in many different forms than those described herein and those skilled in the art will be able to make similar modifications without departing from the spirit of the application and it is therefore not intended to be limited to the embodiments disclosed below.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1, the present application provides a warehouse personnel and tools management system 10 for managing tools with electronic tags 20 and personnel who lend or return the tools. The warehouse personnel and tool management system 10 includes a tool monitoring apparatus 100, a personnel monitoring apparatus 200, and an information collection and analysis apparatus 300.

The tool monitoring apparatus 100 includes an electronic tag reader/writer 110 and at least two electronic tag readers 120.

The electronic tag reader/writer 110 is in signal connection with the information acquisition and analysis device 300, and is configured to record first encoded information, and send the detected first encoded information to the information acquisition and analysis device 300, so that the information acquisition and analysis device 300 generates an information base. Wherein the first encoded information is encoded information of the tool detected by the electronic tag reader/writer 110.

The electronic tag 20 on the tool may be a two-dimensional code pattern, and correspondingly, the electronic tag reader 110 may be a two-dimensional code scanner, and the two-dimensional code scanner may obtain the encoding information of the tool through the two-dimensional code pattern. In an embodiment, the electronic tag 20 may also be an RFID (radio frequency identification) tag, and correspondingly, the electronic tag reader 110 may be an RFID reader, and the RFID reader may be a handheld RFID reader, a fixed RFID reader, or a mobile RFID reader, which may be specifically selected according to actual needs, and the application is not limited. In one embodiment, the electronic tag reader/writer 110 is a short-range RFID reader/writer, and is designed to be hand-held and small. The electronic tag reader-writer 11 adopts WIFI or bluetooth to perform information intercommunication with the information acquisition and analysis device 300. The information acquisition and analysis device 300 is used for detecting and registering the RFID label of the tool when the tool enters and exits the warehouse.

The electronic tag reader/writer 110 is in signal connection with the information collection and analysis device 300, and can send the first encoded information to the information collection and analysis device 300, and the information collection and analysis device 300 records the first encoded information and generates the information base. The information base includes all the encoded information of the tools detected by the electronic tag reader/writer 110.

The at least two electronic tag readers 120 are in signal connection with the information collecting and analyzing device 300, and are configured to obtain second encoded information, and send the second encoded information to the information collecting and analyzing device 300, so that the information collecting and analyzing device 300 determines whether the second encoded information exists in the information base, and generates a determination result. Wherein the second encoded information is encoded information of the tool detected by the electronic tag reader 120.

In one embodiment, the electronic tag 20 is an RFID tag and the electronic tag reader 120 is an RFID reader. In one embodiment, the RFID readers are mounted at exit and entrance locations of the warehouse for legitimate detection at tool borrowing. In one embodiment, the electronic tag reader 120 includes two RFID readers, and the sensing distance between one of the RFID readers and the other RFID reader is greater than 1 meter. The RFID reader may sense the electronic tag 20 when the person lending or returning the tool is holding the tool in an exit or entrance location to or from the warehouse.

In one embodiment, the at least two electronic tag readers 120 are connected with the signal collecting and analyzing device 300 through a dedicated signal line. The at least two electronic tag readers 120 may transmit the sensed information to the signal collecting and analyzing device 300. If the second encoding information matches the first encoding information, that is, the first encoding information that is the same as the second encoding information can be found in the information base, it is verified that the tool corresponding to the second encoding information has been detected and recorded by the electronic tag reader/writer 110. When the tool corresponding to the second encoded information is recorded by the electronic tag reader/writer 110, the tool corresponding to the second encoded information may be normally taken out of the warehouse. If the second encoding information is not matched with the first encoding information, that is, the first encoding information identical to the second encoding information cannot be found in the information base, it is proved that the tool corresponding to the second encoding information is not detected by the electronic tag reader/writer 110. If the tool corresponding to the second encoded information is not detected by the electronic tag reader/writer 110, the information collecting and analyzing device 300 generates information that the tool is not recorded, and notifies a warehouse manager in an obvious manner. The obvious way may include an alarm or a display screen for display, etc.

The person monitoring apparatus 200 includes a face recognition device 210, the face recognition device 210 is used to collect and verify a face image of the person who loans or returns the tool, and the person monitoring apparatus 200 is used to monitor and manage the person who loans or returns the tool. It will be appreciated that the face recognition device 210 may recognize and record facial features of the person lending or returning the tool. It can be understood that the warehouse manager collects the facial features of the tool user through the face recognition device 210, inputs the user information, and then stores the facial features and the user information in the database. It is understood that the face recognition device 210 may be placed at any location within the warehouse, and the application is not limited thereto. The face recognition device 120 may facilitate the collection of facial features of the person lending or returning the tool by warehouse management personnel.

The information collecting and analyzing device 300 is in signal connection with the signal output ends of the tool monitoring device 100 and the personnel monitoring device 200, and is used for managing the tools entering and exiting the warehouse and the personnel lending or returning the tools. It is understood that the information collecting and analyzing apparatus 300 may help the warehouse manager record tool information of the warehouse and personnel information of the warehouse. When the tool in the warehouse is lent or returned, the information collecting and analyzing device 300 may record the coded information of the tool and the information of the person lending or returning the tool, so as to facilitate the management of the tool with the electronic tag 20 and the person lending or returning the tool by the warehouse person. In one embodiment, the information collecting and analyzing device 300 may be a computer or other device capable of data storage and data analysis. The method can be selected according to actual needs, and the method is not limited in the application. In one embodiment of the present application, the information collecting and analyzing apparatus 300 includes a computer.

The present embodiment provides a warehouse personnel and tool management system 10, which includes the tool monitoring device 100, the personnel monitoring device 200, and the information collecting and analyzing device 300. The tool monitoring apparatus 100 is used to monitor and manage the tools entering and exiting the warehouse. The tool monitoring apparatus 100 includes the electronic tag reader/writer 110 and the at least two electronic tag readers 120. The electronic tag reader/writer 110 may scan a tool to be delivered, and the at least two electronic tag readers 120 may detect whether the tool passing through the at least two electronic tag readers 120 has been scanned by the electronic tag reader/writer 110, and whether the coded information of the tool to be delivered is recorded by the information collecting and analyzing device 300. The personnel monitoring device 200 is used to monitor and manage the personnel lending or returning the tools. The people monitoring apparatus 200 includes the face recognition device 210, and the person who borrows or returns a tool can perform face brushing verification on the face recognition device 210, and the face recognition device 210 stores a face image. The information collecting and analyzing device 300 is in signal connection with the signal output terminals of the tool monitoring device 100 and the personnel monitoring device 200, and is used for managing the tools entering and exiting the warehouse and the personnel lending or returning the tools.

The warehouse personnel and tool management system 10 provided by the embodiment can assist the warehouse management personnel in performing informatization management on tools in the warehouse and the personnel borrowing the tools, does not need manual autonomous registration, and also avoids the condition that tools are lost or tool management errors are caused by mis-registration or mis-registration when the tools are lent or returned to the warehouse. Therefore, the warehouse personnel and tool management system 10 provided by the present application can solve the problem that the conventional solution lacks a system or device suitable for warehouse management in the management of warehouse tools.

Referring to fig. 1 to 3, in an embodiment of the present application, the face recognition device 210 includes a face recognition device body 211, a camera 220, a proximity sensor 230, and a main board 240.

The camera 220 is mounted on the face recognition device body 211 and used for shooting a face image. The resolution of the camera 220 may be selected according to actual needs, and is not limited in this application. The number of the cameras 220 can be selected according to actual needs, and is not limited in the present application.

The proximity sensor 230 is installed in the face recognition device body 211, and configured to detect whether a face is close to the face recognition device body 211 and generate a sensing signal. The main board 240 includes a processor 241, the processor 241 is in signal connection and electrical connection with the camera 220 and the proximity sensor 230, and the processor 241 is configured to receive the sensing signal transmitted by the proximity sensor 230 and wake up the camera 220 to work according to the sensing signal.

When a person approaches the face recognition device body 211, the proximity sensor 230 detects the face approaching the face recognition device body 211, and sends a sensing signal to the processor 241. After receiving the sensing signal, the processor 241 controls the camera 220 to be awakened, so that the camera 220 enters a working state. It is understood that the sensing range of the proximity sensor 230 is close to the operating range of the camera 220. When the proximity sensor 400 does not detect a human face approaching the human face recognition device body 211 for a continuous period of time, the main board 240 may control the camera 220 to sleep or power off. The period of time can be set according to actual needs, and the application is not limited. In one embodiment, the proximity sensor 400 may be an infrared laser range finder, an infrared sensor, or another type of proximity sensor as long as it can sense a human face. The specific type of the proximity sensor 400 can be selected according to actual needs, and is not limited in this application.

In an embodiment of the present application, the face recognition device 210 further includes a display screen 250, where the display screen 250 may be a liquid crystal display, a cathode ray tube display, or another type of display screen, and may be specifically selected according to actual needs, which is not limited in the present application. When a person approaches the face recognition device body 211, the proximity sensor 230 detects the face approaching the face recognition device body 211, and sends a sensing signal to the processor 241. After receiving the sensing signal, the processor 241 controls the display screen 250 to be awakened, so that the display screen 250 enters a working state. When the proximity sensor 400 does not detect a human face approaching the human face recognition device body 211 for a continuous period of time, the main board 240 may control the display screen 250 to sleep or power off.

In one embodiment of the present application, the proximity sensor 230 includes at least one light emitting diode lamp 231 and an induction sensor 232.

The at least one led lamp 231 is mounted on the face recognition device body 211 for emitting light pulses outwards.

The sensing sensor 232 is mounted on the face recognition device body 211 and is configured to sense light reflected by the light pulse when a human face approaches the face recognition device body 211. When a human face approaches the face recognition device body 211, the at least one light emitting diode lamp 231 emits light pulses, and the human face approaching the face recognition device body 211 is irradiated by the light pulses emitted by the at least one light emitting diode lamp 231 and reflects the light pulses to form reflected light. The sensing sensor 232 detects the reflected light, thereby sensing a human face approaching the face recognition device 210. In one embodiment, the at least one led lamp 231 may be an infrared led lamp. It is understood that the at least one led lamp 231 may be other types of led lamps, as long as the led lamps emit light pulses and the reflected light is detected by the inductive sensor 232. The specific type of the at least one led lamp 231 may be selected according to actual needs, and is not limited in this application.

In an embodiment of the present application, the main board 240 is further provided with a memory 260 and a coprocessor 270.

The memory 260 is electrically connected and in signal connection with the camera 220, and is used for storing the face image. The memory 260 may be an external memory or an internal memory, and may be specifically selected according to actual needs, which is not limited in this application. In one embodiment, the memory 260 is built into the camera 220. The size of the storage capacity of the storage 260 may be selected according to actual needs, and is not limited in this application.

The coprocessor 270 is in signal connection with the camera 220, and is configured to extract features of the face image, identify whether the features of the face image match features in a face image information base according to the face image information base, and output an identification result. The coprocessor 270 performs information comparison with the face image information in the face image information base after the processor 241 processes the face image shot by the camera 220. If the coprocessor 270 can find a face image matching with the face image information base, the processor 241 is notified to control the display screen 250 to display the face image.

In one embodiment of the present application, the camera 220 includes a light-sensing camera 221, an infrared emission tube 222, an infrared camera 223, and a driving circuit 224.

The light sensing camera 221 photographs a human face near the face recognition device 220 using natural light. The infrared transmitting tube 222 is used for emitting infrared light to the outside, and irradiates a face close to the face recognition device 220. The infrared camera 223 uses infrared light reflected by the approaching human face to photograph the approaching human face. The driving circuit 223 is used for driving the light sensing camera 221, the infrared transmitting tube 222 and the infrared camera 223 to work.

In one embodiment of the present application, the tool monitoring device 100 further comprises an alarm device 130. The alarm device 130 is in signal connection with the information collecting and analyzing device 300, and is configured to receive an alarm command of the information collecting and analyzing device 300 and execute an alarm operation, where the alarm command is generated by the information collecting and analyzing device 300 according to the determination result. The judgment result is that the information collecting and analyzing device 300 judges whether the second encoding information exists in the information base. If the judgment result indicates that the second encoded information does not exist in the information base, the information acquisition and analysis device 300 generates the alarm command, sends the alarm command to the alarm device 130, and the alarm device 130 executes an alarm operation. In one embodiment of the present application, the alarm device 130 includes an audible alarm 131 and a light alarm 132. In one embodiment, the audible alarm 131 may be a sound device such as a speaker or the like. The light alarm 132 may be a diode light.

In an embodiment of the present application, the personnel monitoring device 200 further includes a warehouse camera 280, the warehouse camera 280 is in signal connection with the information collecting and analyzing device 300, the warehouse camera 280 is used for collecting personnel moving images in the warehouse, and sending the collected images to the information collecting and analyzing device 300 for identification and storage.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A warehouse personnel and tool management system is used for managing tools with electronic tags (20) and personnel lending or returning the tools, and is characterized by comprising a tool monitoring device (100), a personnel monitoring device (200) and an information acquisition and analysis device (300);

wherein the tool monitoring device (100) comprises an electronic tag reader-writer (110) and at least two electronic tag readers (120);

the electronic tag reader-writer (110) is in signal connection with the information acquisition and analysis device (300) and is used for recording first coded information and sending the detected first coded information to the information acquisition and analysis device (300) so that the information acquisition and analysis device (300) generates an information base; wherein the first coded information is the coded information of the tool detected by the electronic tag reader-writer (110);

the at least two electronic tag readers (120) are in signal connection with the information acquisition and analysis device (300) and are used for acquiring second coded information and sending the second coded information to the information acquisition and analysis device (300), so that the information acquisition and analysis device (300) judges whether the second coded information exists in the information base or not and generates a judgment result; wherein the second encoded information is encoded information of the tool detected by the electronic tag reader (120);

wherein the people monitoring apparatus (200) comprises a face recognition device (210), the face recognition device (210) is used for collecting and verifying face images of the people lending or returning the tool, and the people monitoring apparatus (200) is used for monitoring and managing the people lending or returning the tool;

wherein the information collecting and analyzing device (300) is in signal connection with the signal output ends of the tool monitoring device (100) and the personnel monitoring device (200) and is used for managing the tools entering and exiting the warehouse and the personnel lending or returning the tools.

2. The warehouse personnel and tools management system of claim 1 wherein the face recognition device (210) comprises:

a face recognition device body (211);

the camera (220) is arranged on the face recognition equipment body (211) and is used for shooting a face image;

the proximity sensor (230) is mounted on the face recognition equipment body (211) and used for detecting whether a face approaches the face recognition equipment body (211) or not and generating a sensing signal;

the mainboard (240) comprises a processor (241) which is in signal connection and electric connection with the camera (220) and the proximity sensor (230), and the processor (241) is used for receiving the sensing signal transmitted by the proximity sensor (230) and awakening the camera (220) to work according to the sensing signal.

3. The warehouse personnel and tools management system of claim 2 wherein the face recognition device (210) further comprises:

and the display screen (250) is arranged on the face recognition equipment body (211) and is used for displaying the face image.

4. The warehouse personnel and tools management system of claim 2 wherein the proximity sensor (230) comprises:

at least one light emitting diode lamp (231) mounted on the face recognition device body (211) for emitting light pulses outwards;

and the induction sensor (232) is arranged on the face recognition equipment body (211) and is used for inducing the light reflected by the light pulse when a face approaches the face recognition equipment body (211).

5. The warehouse personnel and tools management system of claim 2, wherein the main board (240) further has disposed thereon:

the memory (260) is electrically connected and in signal connection with the camera (220) and is used for storing the face image and forming a face image information base;

and the coprocessor (270) is in signal connection with the camera (220) and is used for extracting the characteristics of the face image, identifying whether the characteristics of the face image are matched with the characteristics in the face image information base or not according to the face image information base, and outputting an identification result.

6. The warehouse personnel and tools management system of claim 2, wherein the camera (220) comprises a light-sensitive camera (221), an infrared emission tube (222), an infrared camera (223), and a drive circuit (224).

7. The warehouse personnel and tools management system of claim 1 wherein the tools monitoring device (100) further comprises:

and the alarm device (130) is in signal connection with the information acquisition and analysis device (300) and is used for receiving an alarm command of the information acquisition and analysis device (300) and executing alarm operation, wherein the alarm command is generated by the information acquisition and analysis device (300) according to the judgment result.

8. Warehouse personnel and tool management system according to claim 7, characterized in that the alarm means (130) comprise an acoustic alarm (131) and an optical alarm (132).

9. The warehouse personnel and tools management system of claim 1 wherein the information collection and analysis device (300) comprises a computer.

10. The warehouse personnel and tools management system of claim 1, wherein the personnel monitoring device (200) further comprises:

the warehouse camera (280) is in signal connection with the information acquisition and analysis device (300), and the warehouse camera (280) is used for acquiring personnel moving images in a warehouse and sending the acquired images to the information acquisition and analysis device (300) for identification and storage.

Images