CN116167682B - Logistics supply chain management system and method based on holographic technology - Google Patents

Abstract

The invention discloses a logistics supply chain management system based on holographic technology, which comprises a logistics supply chain management server, a plurality of logistics intermediate link control parts, a database, a holographic display module, an interaction module and an environment detection module arranged in a logistics transport vehicle; the logistics supply chain management server is in signal connection with the logistics intermediate link control part; the logistics supply chain management server is connected with the database data signal; an electronic tag card is arranged on goods in the logistics transport vehicle, and an electronic tag reader is arranged on each logistics intermediate link control part; the logistics transport vehicle is internally provided with a video acquisition mechanism connected with the database signal; the holographic display module and the interaction module are electrically connected with the singlechip; the information acquired by the environment detection module and the video acquisition mechanism is transmitted to the singlechip at the management terminal through the Ethernet. The holographic technology is applied to the logistics supply chain management system, so that the omnibearing monitoring of the multi-link parameters in the cargo transportation process can be realized.

Description

Logistics supply chain management system and method based on holographic technology

Technical Field

The invention relates to a logistics supply chain management system and a management method based on a holographic technology.

Background

Current logistics supply chain management also stays on the collection and transmission of logistics supply chain information, such as the patent with publication number CN107918843 a: and the logistics supply chain management system receives the electronic tag and the reader signal by the RFID hardware equipment and feeds back the acquired logistics supply chain signal to the logistics supply chain management system, and the logistics supply chain management system feeds back information to clients and distributors through an information center depending on Internet. Holographic technology is not applied in logistics supply chain management, but only in part, as disclosed in patent publication No. CN113428547 a: a goods-to-person holographic picking workstation and method of operation, comprising a workroom, characterized in that: the intelligent storage system is characterized in that the interior of the working room is divided into a reserved area, a picking area and a processing area, the reserved area comprises a goods storage rack, the picking area comprises a holographic projection picker, a storage rack, a goods-to-person intelligent transportation trolley and a control console, the holographic projection picker is located on the right side of the picking area, the storage rack is placed in the area and is placed in two rows, and the goods-to-person intelligent transportation trolley is placed between the two rows of storage racks.

In addition, the main part of the current logistics supply chain management is the extraction of logistics information, wherein an electronic tag card and a reader are designed. The electronic tag card generally comprises a chip, an antenna and an infrared receiving circuit, the electronic tag reader generally comprises a reader chip, an infrared transmitting circuit, a radio frequency antenna, a level converting circuit and a wireless receiving circuit, the infrared receiving circuit of the electronic tag is required to face the infrared transmitting direction of the infrared transmitting circuit of the electronic tag reader in the prior art (as disclosed in a patent with the publication number CN102163375B, an active RFID electronic tag, a parking space management Internet of things system and a method, a power supply unit, an infrared transmitting unit, an infrared sensing unit, a control unit, a tag storage area and a radio frequency unit are arranged in an outer package of the electronic tag, the system and the method are used for sensing the parking space occupation state in real time by installing a novel active RFID electronic tag embedded with the infrared sensing unit in each parking space, the parking space state stored in the tag is collected in the parking space management system in real time by the RFID reader, and the parking space or occupation state is graphically displayed in a guide indicator), so that the operation of a control part in the middle of a logistics link is relatively troublesome (the electronic tag reader is required to face the electronic tag card), and the efficiency is relatively low, and a bottleneck link is formed.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, and provides a logistics supply chain management system based on a holographic technology, which is applied to the logistics supply chain management system and can realize the omnibearing monitoring of link parameters such as humidity, temperature, vibration degree, gradient, illuminance, position and the like in the cargo transportation process.

In order to achieve the above purpose, the technical scheme of the invention is to design a logistics supply chain management system based on holographic technology, which comprises a logistics supply chain management server, a plurality of logistics intermediate link control parts, a database, a holographic display module, an interaction module and an environment detection module arranged in a logistics transport vehicle;

The logistics supply chain management server is in signal connection with the logistics intermediate link control part; the logistics supply chain management server is connected with the database data signal; an electronic tag card is arranged on goods in the logistics transport vehicle, and an electronic tag reader is arranged on each logistics intermediate link control part; the logistics transport vehicle is internally provided with a video acquisition mechanism which is in signal connection with a logistics supply chain management server; the holographic display module and the interaction module are electrically connected with the singlechip; the environment detection module and the video acquisition mechanism are connected with the logistics supply chain management server through the Ethernet, and the logistics supply chain management server is connected with the singlechip at the management terminal through the Ethernet. The logistics information output end of the intermediate link logistics control part is connected with the input end of the logistics supply chain management server through the Ethernet; the data storage transmission end of the logistics supply chain management server is connected with the data storage transmission end of the database. The holographic technology is applied to a logistics supply chain management system, and can realize the omnibearing monitoring of link parameters such as humidity, temperature, vibration, gradient, illuminance, position and the like in the cargo transportation process.

The electronic tag reader receives the information on the electronic tag card and transmits the information to the logistics supply chain management server; the logistics supply chain management server transmits information to the clients and distributors through the Ethernet;

The outer surface of the logistics transportation vehicle is also provided with an environment detection module and a video acquisition mechanism connected with the database signals. The environment detection modules and the video acquisition mechanisms are arranged inside and outside the logistics transportation vehicle, so that the condition of goods in the transportation process can be better solved, and if the temperature difference between the inside and the outside is overlarge, a driver of the logistics transportation vehicle can be timely reminded to stop the door of the goods in time or timely adjust an air conditioner when the goods in the vehicle need to be kept at a certain temperature; if the difference between the internal humidity and the external humidity is too large, a driver of the logistics transportation vehicle can be timely reminded of starting internal circulation or external circulation; the logistics information can be monitored and fed back more intelligently and more timely.

The further technical scheme is that an electronic tag card arranged on goods in a logistics transportation vehicle is a UWB electronic tag card for acquiring accurate position information; the environment detection module comprises a temperature and humidity sensor and a photosensitive sensor. UWB labels are arranged on cargoes in the car, accurate position information is obtained, and vibration degree conditions in the logistics transportation process can be comprehensively monitored by combining video acquisition images.

The further technical scheme is that an auxiliary mechanism which is convenient for an electronic tag reader to receive electronic tag card information is arranged on a goods packing box in a logistics transportation vehicle. The infrared receiving circuit of the electronic tag is required to face the infrared transmitting direction of the infrared transmitting circuit of the electronic tag reader, so that in logistics supply chain management, the middle link control part becomes a bottleneck link which is a key part affecting the efficiency and the speed.

The auxiliary mechanism comprises a rectangular paperboard which is adhered to six surfaces of the cuboid-shaped cargo packaging box, and an electronic tag card is fixedly arranged in the center of the paperboard; the auxiliary mechanism further comprises a conveying belt for midway inspection of goods, wherein the conveying belt is arranged in the middle link control part of the logistics, a plurality of equidistant openings are formed in the conveying belt and used for facilitating information reading of electronic tag readers, and the electronic tag readers in the middle link control part of the logistics are four and are respectively located right above, right below the conveying belt and on two sides of the goods on the conveying belt. Because all set up electronic tag card on six faces of goods packing carton, the conveyer belt is examined to the goods midway in the link control portion in the middle of the cooperation commodity circulation, only needs to be as to the conveyer belt with the goods, can acquire the information of electronic tag card one by one, has improved efficiency also reduced intensity of labour, need not the manual work with electronic tag reader just can read the commodity circulation information on the electronic tag card to the goods one by one.

The further technical scheme is that a cylindrical level gauge is arranged on a cargo packing box in a logistics transportation vehicle. The auxiliary mechanism can also comprise a rectangular annular sealing piece which is arranged on the four surfaces of the cuboid-shaped cargo packaging box in a surrounding mode, the sealing piece is made of plastic materials, liquid is arranged in the sealing piece, and the volume of the liquid is smaller than that of the sealing piece to form a level meter; the inclination is comprehensively monitored by matching with the video image acquired by the video acquisition mechanism; the electronic tag card is arranged in the liquid, the surface of the electronic tag card is wrapped around the sealing film to prevent the liquid from damaging the function of the electronic tag, the bottom surface of the electronic tag card (namely, one surface of the non-infrared receiving circuit) is fixedly provided with the floating body to ensure that the electronic tag card always floats in the liquid (the floating body is used for ensuring that the gravity and the buoyancy of the electronic tag card are equal), the floating body can be a plastic piece, the plastic piece is provided with a hollow cavity, and the liquid can be water or oil. The rectangular annular sealing piece is arranged outside the goods packaging box to form a level meter, so that on one hand, the inclination condition can be monitored, on the other hand, the floating electronic tag card is arranged in the sealing piece, one surface of the goods, which is required to face the electronic tag reader, of the packaging box is not required to face the electronic tag reader when the goods are transported to the logistics intermediate link control part, the electronic tag reader can be directly opposite to the electronic tag card quickly, logistics information can be read quickly, and the efficiency is improved; but also the closure can be reused (especially for packages of the same size).

The further technical scheme is that a packaging adhesive tape is adhered to a cargo packaging box in a logistics transportation vehicle, and the cylindrical level is adhered to the adhesive tape.

The auxiliary mechanism comprises a rectangular paperboard which is adhered to the top surface and the bottom surface of the cuboid-shaped cargo packaging box, and an electronic tag card is fixedly arranged in the center of the paperboard; the auxiliary mechanism further comprises a conveying belt for midway inspection of goods, wherein the conveying belt is arranged in the logistics intermediate link control part, and the electronic tag reader in the logistics intermediate link control part is arranged right above the conveying belt. The top and bottom surfaces are referred to herein as the largest-sized surfaces, and the small-sized surfaces are generally referred to as the side surfaces.

The goods in the logistics transportation vehicle are also provided with RFID electronic tag cards, a real-time positioning module is arranged in an electronic tag reader matched with the RFID electronic tag cards, and the electronic tag reader is arranged in the logistics transportation vehicle and in a logistics intermediate link control part; an RFID electronic tag card is arranged in the logistics transportation vehicle and the logistics intermediate link control part, and an electronic tag reader is arranged in the logistics intermediate link control part in a matched mode. The logistics transportation vehicle can clearly know the position information of the goods transportation by only arranging one RFID electronic tag card to realize positioning, and the specific position information is realized by the UWB electronic tag card.

The technical scheme provided by the invention is that the logistics supply chain management method based on the holographic technology comprises the following steps in sequence:

Writing logistics information into an electronic tag on goods to be monitored, and transmitting the logistics information to a logistics supply chain management server through an Ethernet after an electronic tag reader receives the information on an electronic tag card; the logistics supply chain management server transmits information to the clients and distributors through the Ethernet;

The information acquired by the environment detection module and the video acquisition mechanism is transmitted to the logistics supply chain management server through the Ethernet, and the logistics supply chain management server transmits the information to the singlechip at the management terminal through the Ethernet;

the singlechip is used for receiving the video stream and transmitting the video stream to the holographic display module for decoding and playing;

The electronic tag reader matched with the RFID electronic tag card reads information on the RFID electronic tag card and transmits the information to the logistics supply chain management server for sending positioning information to a client and a dealer;

The electronic tag reader reads the position information on the UWB electronic tag card, and transmits the position information to the logistics supply chain management server through the logistics supply chain management server after combining with the video stream information acquired by the video acquisition mechanism, and then transmits the position information to the singlechip through the logistics supply chain management server, and an operator comprehensively monitors and displays the vibration degree of logistics transportation goods through the holographic display module after performing interactive operation through the interactive module;

The environment detection module transmits the information of the temperature, the humidity and the illuminance to the logistics supply chain management server, then transmits the information to the singlechip operator through the logistics supply chain management server, and comprehensively monitors and displays the temperature, the humidity and the illuminance of the logistics transportation goods through the holographic display module after the interaction module performs interactive operation;

The information of the level meter collected by the video collection mechanism is transmitted to the logistics supply chain management server, and then transmitted to the singlechip operator through the logistics supply chain management server, and the condition of displaying the inclination of the logistics transportation goods is monitored through the holographic display module after the interaction module is used for interaction. The monitoring of temperature and humidity and illuminance mainly depends on video streams acquired by a video acquisition mechanism, and the conditions of the illuminance and the temperature and the humidity are monitored by an environment monitoring mechanism during holographic display, and the conditions of the temperature and the illuminance are displayed by displaying the water vapor mark and the brightness during holographic display. The holographic display module and the interaction module are in the prior art, the holographic display module generally comprises a holographic projection device and 3D projection equipment (generally a 3D projector) connected with the holographic projection device, and the holographic projection device is generally a holographic projection screen arranged on the top wall in the 3D projector box body; the interaction module comprises a touch screen, a wireless transmission module and a mobile terminal, wherein the touch screen is electrically connected with the singlechip, the mobile terminal is in wireless connection with the wireless transmission module, the wireless transmission module is electrically connected with the singlechip, the touch screen and the mobile terminal are used for receiving control instructions input by a user, and the singlechip is used for receiving video streams transmitted by the video acquisition mechanism, transmitting the video streams to the 3D projector and decoding and playing the video streams;

The invention has the advantages and beneficial effects that:

The environment detection modules and the video acquisition mechanisms are arranged inside and outside the logistics transportation vehicle, so that the condition of goods in the transportation process can be better solved, and if the temperature difference between the inside and the outside is overlarge, a driver of the logistics transportation vehicle can be timely reminded to stop the door of the goods in time or timely adjust an air conditioner when the goods in the vehicle need to be kept at a certain temperature; if the difference between the internal humidity and the external humidity is too large, a driver of the logistics transportation vehicle can be timely reminded of starting internal circulation or external circulation; the logistics information can be monitored and fed back more intelligently and more timely.

UWB labels are arranged on cargoes in the car, accurate position information is obtained, and vibration degree conditions in the logistics transportation process can be comprehensively monitored by combining video acquisition images.

The infrared receiving circuit of the electronic tag is required to face the infrared transmitting direction of the infrared transmitting circuit of the electronic tag reader, so that in logistics supply chain management, the middle link control part becomes a bottleneck link which is a key part affecting the efficiency and the speed.

Because all set up electronic tag card on six faces of goods packing carton, the conveyer belt is examined to the goods midway in the link control portion in the middle of the cooperation commodity circulation, only needs to be as to the conveyer belt with the goods, can acquire the information of electronic tag card one by one, has improved efficiency also reduced intensity of labour, need not the manual work with electronic tag reader just can read the commodity circulation information on the electronic tag card to the goods one by one.

The rectangular annular sealing piece is arranged outside the goods packaging box to form a level meter, so that on one hand, the inclination condition can be monitored, on the other hand, the floating electronic tag card is arranged in the sealing piece, one surface of the goods, which is required to face the electronic tag reader, of the packaging box is not required to face the electronic tag reader when the goods are transported to the logistics intermediate link control part, the electronic tag reader can be directly opposite to the electronic tag card quickly, logistics information can be read quickly, and the efficiency is improved; but also the closure can be reused (especially for packages of the same size).

The holographic technology is applied to a logistics supply chain management system, and can realize the omnibearing monitoring of link parameters such as humidity, temperature, vibration, gradient, illuminance, position and the like in the cargo transportation process.

Drawings

FIG. 1 is a schematic diagram of a first embodiment of a holographic-based logistics supply chain management system in accordance with the present invention;

fig. 2 is a schematic view of a cargo box of the present invention;

FIG. 3 is a partial schematic view of a cargo midway inspection conveyor belt in the logistics intermediate link control section of the present invention;

Fig. 4 is a front view of fig. 3;

fig. 5 is a schematic view of a cargo box according to a second embodiment of the present invention;

FIG. 6 is a schematic view of the closure of FIG. 5;

FIG. 7 is an enlarged schematic view of the float of FIG. 6;

Fig. 8 is a side view of fig. 7.

In the figure: 1. a cargo packing box; 2. a rectangular paperboard; 3. an electronic tag card; 4. a conveyor belt; 5. an opening; 6. an electronic tag reader; 7. a cylindrical level; 8. a closure; 9. a floating body.

Detailed Description

The following describes the embodiments of the present invention further with reference to the drawings and examples. The following examples are only for more clearly illustrating the technical aspects of the present invention, and are not intended to limit the scope of the present invention.

Embodiment one:

As shown in fig. 1 to 4 (for convenience of illustration, fig. 3 only shows a part of openings; fig. 4 only shows electronic tag readers on two sides), the invention relates to a logistics supply chain management system based on holographic technology, which comprises a logistics supply chain management server, a plurality of logistics intermediate link control parts, a database, a holographic display module, an interaction module and an environment detection module arranged in a logistics transport vehicle;

The logistics supply chain management server is in signal connection with the logistics intermediate link control part; the logistics supply chain management server is connected with the database data signal; an electronic tag card 3 is arranged on goods in the logistics transport vehicle, and an electronic tag reader 6 is arranged on each logistics intermediate link control part; the logistics transport vehicle is internally provided with a video acquisition mechanism which is in signal connection with a logistics supply chain management server; the holographic display module and the interaction module are electrically connected with the singlechip; the environment detection module and the video acquisition mechanism are connected with the logistics supply chain management server through the Ethernet, and the logistics supply chain management server is connected with the singlechip at the management terminal through the Ethernet.

The electronic tag reader 6 receives the information on the electronic tag card 3 and transmits the information to the logistics supply chain management server; the logistics supply chain management server transmits information to the clients and distributors through the Ethernet;

the outer surface of the logistics transportation vehicle is also provided with an environment detection module and a video acquisition mechanism connected with the database signals.

The electronic tag card 3 arranged on the goods in the logistics transportation vehicle is a UWB electronic tag card 3 used for acquiring accurate position information; the environment detection module comprises a temperature and humidity sensor and a photosensitive sensor.

An auxiliary mechanism which is convenient for the electronic tag reader 6 to receive the information of the electronic tag card 3 is arranged on the goods packing box 1 in the logistics transportation vehicle.

The auxiliary mechanism comprises a rectangular paperboard 2 attached to six surfaces of the cuboid-shaped goods packaging box 1, and an electronic tag card 3 is fixedly arranged in the center of the paperboard; the auxiliary mechanism further comprises a conveying belt 4 for midway sending and checking goods, wherein the conveying belt 4 is arranged in the middle link control part of the logistics, a plurality of openings 5 which are arranged at equal intervals and are used for facilitating the electronic tag reader 6 to read information are arranged on the conveying belt 4, and the electronic tag reader 6 in the middle link control part of the logistics is provided with four electronic tag readers which are respectively positioned right above, right below the conveying belt 4 and on two sides of the goods on the conveying belt 4.

A cylindrical level meter 7 is arranged on a cargo packing box 1 in a logistics transportation vehicle.

The packing tape is adhered and arranged on the goods packing box 1 in the logistics transportation vehicle, and the cylindrical level meter 7 is adhered on the tape.

The goods in the logistics transportation vehicle are also provided with RFID electronic tag cards 3, a real-time positioning module is arranged in an electronic tag reader 6 matched with the RFID electronic tag cards 3, and the electronic tag reader 6 is arranged in the logistics transportation vehicle and in a logistics intermediate link control part; an electronic tag reader 6 matched with the RFID electronic tag card 3 is arranged in the logistics transportation vehicle and the logistics intermediate link control part.

A logistics supply chain management method based on holographic technology comprises the following steps in sequence:

Writing logistics information into an electronic tag on goods to be monitored, and transmitting the logistics information to a logistics supply chain management server through an Ethernet after the electronic tag reader 6 receives the information on the electronic tag card 3; the logistics supply chain management server transmits information to the clients and distributors through the Ethernet;

The information acquired by the environment detection module and the video acquisition mechanism is transmitted to the logistics supply chain management server through the Ethernet, and the logistics supply chain management server transmits the information to the singlechip at the management terminal through the Ethernet;

the singlechip is used for receiving the video stream and transmitting the video stream to the holographic display module for decoding and playing;

the electronic tag reader 6 matched with the RFID electronic tag card 3 reads information on the RFID electronic tag card 3 and transmits the information to the logistics supply chain management server for sending positioning information to a client and a dealer;

The electronic tag reader 6 reads the position information on the UWB electronic tag card 3, and transmits the position information to the logistics supply chain management server in combination with the video stream information acquired by the video acquisition mechanism, and then transmits the video stream information to the singlechip through the logistics supply chain management server, and an operator comprehensively monitors and displays the vibration degree of the logistics transportation goods through the holographic display module after interactive operation of the interactive module;

The environment detection module transmits the information of the temperature, the humidity and the illuminance to the logistics supply chain management server, then transmits the information to the singlechip operator through the logistics supply chain management server, and comprehensively monitors and displays the temperature, the humidity and the illuminance of the logistics transportation goods through the holographic display module after the interaction module performs interactive operation;

The information of the level meter collected by the video collection mechanism is transmitted to the logistics supply chain management server, and then transmitted to the singlechip operator through the logistics supply chain management server, and the condition of displaying the inclination of the logistics transportation goods is monitored through the holographic display module after the interaction module is used for interaction.

Embodiment two:

the difference from the first embodiment is that, as shown in fig. 5 to 8, the auxiliary mechanism includes a rectangular annular sealing member 8 surrounding four surfaces of the rectangular goods packing box 1, the sealing member 8 is made of plastic material, a liquid is arranged in the sealing member 8, and the volume of the liquid is smaller than that of the sealing member 8 to form a level meter; the inclination is comprehensively monitored by matching with the video image acquired by the video acquisition mechanism; the electronic tag card 3 is arranged in the liquid, the surface of the electronic tag card 3 surrounds the sealing film to prevent the liquid from damaging the function of the electronic tag, the floating body 9 is fixedly arranged on the bottom surface of the electronic tag card 3 (namely, one surface of the non-infrared receiving circuit) to ensure that the electronic tag card 3 always floats in the liquid (the floating body 9 is used for ensuring that the gravity and the buoyancy of the electronic tag card 3 are equal), the floating body 9 can be a plastic piece, the plastic piece is provided with a hollow cavity, and the liquid can be water or oil.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that it will be apparent to those skilled in the art that several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the scope of the invention.

Claims (7)

1. The logistics supply chain management method based on the holographic technology is characterized by comprising the following steps in sequence:

Writing logistics information into an electronic tag on goods to be monitored, and transmitting the logistics information to a logistics supply chain management server through an Ethernet after an electronic tag reader receives the information on an electronic tag card; the logistics supply chain management server transmits information to the clients and distributors through the Ethernet;

The information acquired by the environment detection module and the video acquisition mechanism is transmitted to the logistics supply chain management server through the Ethernet, and the logistics supply chain management server transmits the information to the singlechip at the management terminal through the Ethernet;

the singlechip is used for receiving the video stream and transmitting the video stream to the holographic display module for decoding and playing;

The electronic tag reader matched with the RFID electronic tag card reads information on the RFID electronic tag card and transmits the information to the logistics supply chain management server for sending positioning information to a client and a dealer;

The electronic tag reader reads the position information on the UWB electronic tag card, and transmits the position information to the logistics supply chain management server through the logistics supply chain management server after combining with the video stream information acquired by the video acquisition mechanism, and then transmits the position information to the singlechip through the logistics supply chain management server, and an operator comprehensively monitors and displays the vibration degree of logistics transportation goods through the holographic display module after performing interactive operation through the interactive module;

The environment detection module transmits the information of the temperature, the humidity and the illuminance to the logistics supply chain management server, then transmits the information to the singlechip operator through the logistics supply chain management server, and comprehensively monitors and displays the temperature, the humidity and the illuminance of the logistics transportation goods through the holographic display module after the interaction module performs interactive operation;

The information of the level meter acquired by the video acquisition mechanism is transmitted to the logistics supply chain management server, then transmitted to the singlechip operator through the logistics supply chain management server, and the information is interactively operated through the interaction module and then used for monitoring and displaying the inclination condition of the logistics transportation goods through the holographic display module;

The environment detection modules and the video acquisition mechanisms are arranged inside and outside the logistics transportation vehicle so as to better solve the condition of goods in the transportation process, and if the temperature difference between the inside and the outside is overlarge, the driver of the logistics transportation vehicle is timely reminded to stop the door of the goods in time or adjust the air conditioner in time when the goods in the vehicle need to keep a certain temperature; if the difference between the internal humidity and the external humidity is too large, the driver of the logistics transportation vehicle is timely reminded to start internal circulation or external circulation; more intelligent and timely monitoring and feedback of logistics information; for monitoring of temperature and humidity and illuminance, the conditions of the temperature and the illuminance are displayed by displaying the water vapor mark and the brightness during holographic display according to the video stream acquired by the video acquisition mechanism and then the conditions of the illuminance and the temperature and the humidity monitored by the environment monitoring mechanism during holographic display;

the logistics information output end of the intermediate link logistics control part is connected with the input end of the logistics supply chain management server through the Ethernet; the data storage transmission end of the logistics supply chain management server is connected with the data storage transmission end of the database;

An auxiliary mechanism which is convenient for an electronic tag reader to receive information of the electronic tag card is arranged on a goods packing box in the logistics transportation vehicle;

the auxiliary mechanism comprises a rectangular paperboard which is adhered to six surfaces of the cuboid-shaped goods packaging box, and an electronic tag card is fixedly arranged at the center of the paperboard; the auxiliary mechanism further comprises a conveying belt for midway inspection of goods, wherein the conveying belt is arranged in the logistics intermediate link control part, a plurality of equidistant openings which are arranged at intervals and are used for facilitating information reading of the electronic tag readers are arranged on the conveying belt, and the four electronic tag readers in the logistics intermediate link control part are respectively arranged right above, right below and on two sides of the goods on the conveying belt;

Or the auxiliary mechanism also comprises a rectangular annular sealing piece which is arranged on the four surfaces of the cuboid goods packaging box in a surrounding mode, the sealing piece is made of plastic materials, liquid is arranged in the sealing piece, and the volume of the liquid is smaller than that of the sealing piece to form a level meter; the inclination is comprehensively monitored by matching with the video image acquired by the video acquisition mechanism; an electronic tag card is arranged in the liquid, the surface of the electronic tag card is wrapped around the sealing film and used for preventing the liquid from damaging the functions of the electronic tag, and a floating body is fixedly arranged on the bottom surface of the electronic tag card, namely one surface of the non-infrared receiving circuit, so that the electronic tag card is ensured to float in the liquid all the time; the floating body is used for ensuring that the gravity and the buoyancy of the electronic tag card are equal; the floating body is a plastic piece, the plastic piece is provided with a hollow cavity, and the liquid is water or oil;

A cylindrical level gauge is arranged on a goods packing box in the logistics transportation vehicle.

2. The logistics supply chain management system related to the logistics supply chain management method based on the holographic technology according to claim 1, which is characterized by comprising a logistics supply chain management server, a plurality of logistics intermediate link control parts, a database, a holographic display module, an interaction module and an environment detection module arranged in a logistics transportation vehicle;

The logistics supply chain management server is in signal connection with the logistics intermediate link control part; the logistics supply chain management server is connected with the database data signal; an electronic tag card is arranged on goods in the logistics transport vehicle, and an electronic tag reader is arranged on each logistics intermediate link control part; the logistics transport vehicle is internally provided with a video acquisition mechanism which is in signal connection with a logistics supply chain management server; the holographic display module and the interaction module are electrically connected with the singlechip; the environment detection module and the video acquisition mechanism are connected with the logistics supply chain management server through the Ethernet, and the logistics supply chain management server is connected with the singlechip at the management terminal through the Ethernet.

3. The holographic-based logistics supply chain management system of claim 2, wherein the electronic tag reader receives information on the electronic tag card and transmits the information to the logistics supply chain management server; the logistics supply chain management server transmits information to the clients and distributors through the Ethernet;

the outer surface of the logistics transportation vehicle is also provided with an environment detection module and a video acquisition mechanism connected with the database signals.

4. The holographic-based logistics supply chain management system of claim 3, wherein the electronic tag card arranged on the goods in the logistics transportation vehicle is a UWB electronic tag card for acquiring accurate position information; the environment detection module comprises a temperature and humidity sensor and a photosensitive sensor.

5. The holographic-based logistics supply chain management system of claim 2, wherein the packaging tape is attached to the packaging box of the logistics transportation vehicle, and the cylindrical level is attached to the tape.

6. The holographic-based logistics supply chain management system of claim 4, wherein the auxiliary mechanism comprises rectangular paperboards attached to the top and bottom surfaces of the cuboid-shaped cargo packaging box, and an electronic tag card is fixedly arranged in the center of the paperboards; the auxiliary mechanism further comprises a conveying belt for midway inspection of goods, wherein the conveying belt is arranged in the logistics intermediate link control part, and the electronic tag reader in the logistics intermediate link control part is arranged right above the conveying belt.

7. The holographic-technology-based logistics supply chain management system according to claim 5, wherein an RFID electronic tag card is further arranged on goods in the logistics transportation vehicle, a real-time positioning module is arranged in an electronic tag reader matched with the RFID electronic tag card, and the electronic tag reader is arranged in the logistics transportation vehicle and in a logistics intermediate link control part; an RFID electronic tag card is arranged in the logistics transportation vehicle and the logistics intermediate link control part, and an electronic tag reader is arranged in the logistics intermediate link control part in a matched mode.