CN113962626B - Storage logistics linkage system based on Internet of things - Google Patents

Abstract

The invention discloses a storage logistics linkage system based on the Internet of things, which comprises the following steps: a web server; a warehouse management center; the warehouse management center includes: a counting and code scanning module; a warehouse-out verification module; a warehouse-out code generating module; a logistics management module; the movable verification device is detachably arranged on the transport vehicle and is respectively in communication connection with the ex-warehouse verification module and the ex-warehouse code generation module; and the access control is in communication connection with the ex-warehouse code generation module and synchronously downloads the generated ex-warehouse code, and the access control is also used for scanning the ex-warehouse code displayed on the mobile verification device. According to the storage logistics linkage system based on the Internet of things, the web server is intelligently matched with the storage management center, so that the efficiency and the accuracy of storage management are improved; the integrity of the delivered goods can be ensured by setting the delivery code; the warehouse management is more intelligent and flexible, and a proper transport vehicle can be reserved intelligently and quickly; the labor cost is reduced, and the possibility of human errors is low.

Description

Storage logistics linkage system based on Internet of things

Technical Field

The invention relates to the technical field of warehouse management, in particular to a warehouse logistics linkage system based on the Internet of things.

Background

Along with the development of the current technology, warehouse management tends to be intelligent, the existing intelligent warehouse cannot perform intelligent management on warehoused and ex-warehouse cargoes, and the warehouse management is the most important link in the logistics management, so that the intelligent warehouse management plays a vital role in improving logistics efficiency and reducing logistics management cost.

After the development stages of manual logistics, mechanical logistics, automatic logistics, integrated logistics and the like are carried out, the development of logistics technology has entered the research and application stages of intelligent logistics, and logistics electronization has become an essential component of electronic commerce. Particularly, along with continuous progress of logistics technology and continuous expansion of application fields of artificial intelligence, people have higher and higher intelligent requirements on logistics management, and the intelligent is one of important directions of development of logistics management systems. However, the existing warehouse management and logistics management still cannot be intelligently interconnected, so that the storage and circulation of goods also need to be manually engaged, and the speed of delivering, transporting and warehousing of the goods is seriously affected.

Disclosure of Invention

It is an object of the present invention to solve at least the above problems and to provide at least the advantages to be described later.

The invention also aims to provide a warehouse logistics linkage system based on the Internet of things, and the web server is intelligently matched with the warehouse management center, so that the efficiency and the accuracy of warehouse management are improved; the integrity of the delivered goods can be ensured by setting the delivery code; the warehouse management is more intelligent and flexible, and a proper transport vehicle can be reserved intelligently and quickly; the labor cost is reduced, and the possibility of human errors is low. In general, the system saves manpower and material resources, reduces the cost of enterprises, improves the management efficiency and accuracy, can meet the requirements, and is suitable for popularization and use.

To achieve these objects and other advantages and in accordance with the purpose of the invention, there is provided a warehouse logistics linkage system based on the internet of things, comprising:

A web server for receiving an order for goods in real time; the warehouse management center is used for acquiring the goods order of the web server in real time, and driving the warehouse-out component to carry corresponding goods to the warehouse-out area according to the goods order; the warehouse management center includes: the counting and code scanning module is used for sequentially scanning electronic tags of goods entering the to-be-delivered area to obtain a goods list I; the delivery verification module is used for reading the goods list II of the goods order, acquiring the electronic tag scanned by the counting and scanning module in real time, sequentially carrying out matching verification on the acquired goods list I and the goods list II of the goods order, returning to be 1 if the matching is successful, and generating a waiting delivery instruction after all the matching is successful; if the matching of at least one electronic tag in the goods list I is unsuccessful, returning to 0, and continuing to match and check; the ex-warehouse code generation module is used for acquiring an instruction waiting for ex-warehouse of the ex-warehouse data module and generating an ex-warehouse code of the goods order; the logistics management module is used for reading the total volume, the total weight and the preset delivery time of the goods order in real time, reserving the transport vehicle according to the total volume, the total weight and the preset delivery time of the goods order, returning the reservation result to be 1 if reservation is successful, returning to be 0 if reservation is failed, and continuing reserving the transport vehicle; the logistics management module is also used for acquiring a waiting and delivery instruction of the delivery verification module in real time, and if the current time of the acquired waiting and delivery instruction is earlier than the preset delivery time and the reservation result returns to be 1, the logistics management module drives the delivery assembly to enter a goods delivery process;

The mobile verification device is detachably arranged on the transport vehicle, is respectively in communication connection with the delivery verification module and the delivery code generation module, and is used for sequentially scanning electronic tags of cargoes loaded to the transport vehicle to obtain a goods list I and uploading the goods list I to the delivery verification module, the delivery verification module sequentially carries out verification matching on the obtained goods list II and the goods list I, if verification matching is successful, the delivery verification module synchronously uploads the verification result to the delivery code generation module, the delivery code generation module sends the delivery code to the mobile verification device and synchronously displays the delivery code on a display screen of the mobile verification device, and if verification matching fails, the delivery code generation module does not send the delivery code, and if the verification matching fails, the delivery code generation module returns the result to be 0; and

And the access control is in communication connection with the ex-warehouse code generation module and synchronously downloads the generated ex-warehouse code, and the access control is also used for scanning the ex-warehouse code displayed on the mobile verification device.

Preferably, the web server is used for receiving the goods orders in real time and reading the goods class II of the goods orders, matching the goods class II with the goods class I of the plurality of warehouses respectively, and if the goods class II is successfully matched with the goods class I of any warehouse respectively, the web server sends the goods orders to the warehouse corresponding to the successfully matched goods class I.

Preferably, the to-be-delivered warehouse area comprises a plurality of subregions which are sequentially arranged in a numbering mode and are arranged close to the warehouse outlet, and the cargoes in the same cargo order are stacked in one subregion of the to-be-delivered warehouse area with the same number.

Preferably, the goods class I and/or the goods class II comprise living information goods and production information goods, wherein the living information goods comprise daily goods, food goods, clothing goods, residence goods and combustion goods; the production data commodity comprises an industrial production data commodity and an agricultural production data commodity;

The goods list I and/or the goods list II are varieties, detail and quantity of goods.

Preferably, after the delivery code is generated, the delivery code is scanned for delivery of the corresponding goods order and the preset delivery time is estimated according to the preset destination, if the actual delivery time is later than the preset delivery time, the delivery code is invalid, the mobile verification equipment loaded on the transport vehicle sequentially scans the electronic code of the goods to upload the electronic label of the goods loaded to the transport vehicle to obtain a goods list I and upload the goods list I to the delivery verification module, the delivery verification module sequentially performs verification matching on the obtained goods list II and the goods list I, if the verification matching is successful, the return result is 1, the delivery verification module synchronously uploads the verification result to the delivery code generation module, and the delivery code generation module regenerates the delivery code II, and sends the delivery code II to the mobile verification device and synchronously displays the delivery code II on a display screen of the mobile verification device.

Preferably, the at least one distribution bill is included in one of the goods orders, any one of the at least one distribution bill corresponds to one of the logistics transportation destinations, and any one of the at least one distribution bill corresponds to one of the generated delivery codes.

The logistics management module comprises a to-be-dispatched transporting vehicle list and a random dispatching transporting vehicle list, and sequentially reserves transporting vehicles in the to-be-dispatched transporting vehicle list and transporting vehicles in the random dispatching transporting vehicle list according to the total volume, total weight and preset delivery time of goods of a goods order, wherein the transporting vehicles in the to-be-dispatched transporting vehicle list are transporting vehicles which are stopped in a warehouse and are waiting for dispatching; the random dispatch transportation vehicle is an uninterrupted transportation vehicle which takes a warehouse as a center and applies for dispatch within the range of 100 km square.

Preferably, the mobile verification device further comprises:

The radio frequency identification assembly is used for scanning the electronic tag of the goods on the transport vehicle once at intervals;

the data storage module is used for downloading and storing the goods list I and the ex-warehouse codes;

the positioning assembly is used for detecting the speed of the transport vehicle and positioning in real time; and

The control module is in communication connection with the radio frequency identification component, the data storage module and the positioning component, acquires the speed of the vehicle detected by the positioning component in real time and positions the vehicle in real time, and controls the radio frequency identification component to start scanning the electronic tag of the goods on the transport vehicle once if the current speed of the vehicle is less than or equal to 10 ㎞/h; the control data storage module synchronously receives the electronic tags scanned and input by the radio frequency identification assembly, compares the electronic tags with the goods list I one by one for verification, and sends verification results to the warehouse management center.

Preferably, the method further comprises: the destination verification device is respectively in communication connection with the delivery verification module and the delivery code generation module, the destination verification device is used for sequentially scanning electronic tags of goods unloaded from the transport vehicle to obtain a goods list I and uploading the goods list I to the delivery verification module, the delivery verification module sequentially carries out verification matching on the obtained goods list II and the goods list I, if verification matching is successful, the return result is 1, the delivery verification module synchronously uploads the verification result to the delivery code generation module, the delivery code generation module sends a delivery code or a delivery code II to the destination verification device and synchronously displays the delivery code or the delivery code II on a display screen of the destination verification device, and after the scanning assembly of the mobile verification device scans the delivery code or the delivery code II for secondary verification, the delivery code or the delivery code II is verified, and the goods transportation is finished; if the verification fails, the return result is 0, and the ex-warehouse code generation module does not send the ex-warehouse code or the ex-warehouse code II.

The invention at least comprises the following beneficial effects:

The web server is intelligently matched with the warehouse management center, so that the efficiency and the accuracy of warehouse management are improved; the integrity of the delivered goods can be ensured by setting the delivery code; the warehouse management is more intelligent and flexible, and a proper transport vehicle can be reserved intelligently and quickly; the labor cost is reduced, and the possibility of human errors is low. In general, the system saves manpower and material resources, reduces the cost of enterprises, improves the management efficiency and accuracy, can meet the requirements, and is suitable for popularization and use.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

Fig. 1 is a schematic structural diagram of a warehouse logistics linkage system based on the internet of things.

Detailed Description

The present invention is described in further detail below with reference to the drawings to enable those skilled in the art to practice the invention by referring to the description.

It will be understood that terms, such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

As shown in fig. 1, the present invention provides a warehouse logistics linkage system based on internet of things, comprising:

A web server for receiving an order for goods in real time; the warehouse management center is used for acquiring the goods order of the web server in real time, and driving the warehouse-out component to carry corresponding goods to the warehouse-out area according to the goods order; the warehouse-out subassembly includes tunnel stacker, sorter, fork truck etc. and warehouse management center includes: the counting and code scanning module is used for sequentially scanning electronic tags of goods entering the to-be-delivered area to obtain a goods list I; the delivery verification module is used for reading a goods list II of the goods order (such as specific goods of goods, such as clothes, food and the like, recording the brands and the quantity of each type of goods) and acquiring the electronic tag scanned by the counting code scanning module in real time, and sequentially carrying out matching verification on the acquired goods list I and the goods list II of the goods order, returning to 1 if the matching is successful, and generating a command waiting for delivery after all matching is successful; if the matching of at least one electronic tag in the goods list I is unsuccessful, returning to 0, and continuing to match and check; the ex-warehouse code generation module is used for acquiring an instruction waiting for ex-warehouse of the ex-warehouse data module and generating an ex-warehouse code of the goods order; the logistics management module is used for reading the total volume, the total weight and the preset delivery time of the goods order in real time, reserving the transport vehicle according to the total volume, the total weight and the preset delivery time of the goods order, returning the reservation result to be 1 if reservation is successful, returning to be 0 if reservation is failed, and continuing reserving the transport vehicle; the logistics management module is also used for acquiring a waiting and delivery instruction of the delivery verification module in real time, and if the current time of the acquired waiting and delivery instruction is earlier than the preset delivery time and the reservation result returns to be 1, the logistics management module drives the delivery assembly to enter a goods delivery process; the mobile verification device is detachably arranged on the transport vehicle, is respectively in communication connection with the delivery verification module and the delivery code generation module, and is used for sequentially scanning electronic tags of cargoes loaded to the transport vehicle to obtain a goods list I and uploading the goods list I to the delivery verification module, the delivery verification module sequentially carries out verification matching on the obtained goods list II and the goods list I, if verification matching is successful, the delivery verification module synchronously uploads the verification result to the delivery code generation module, the delivery code generation module sends the delivery code to the mobile verification device and synchronously displays the delivery code on a display screen of the mobile verification device, and if verification matching fails, the delivery code generation module does not send the delivery code, and if the verification matching fails, the delivery code generation module returns the result to be 0; and the access control is in communication connection with the ex-warehouse code generation module and synchronously downloads the generated ex-warehouse code, and the access control is also used for scanning the ex-warehouse code displayed on the mobile verification device. In the scheme, the web server is intelligently matched with the warehouse management center, so that the efficiency and the accuracy of warehouse management are improved; the integrity of the delivered goods can be ensured by setting the delivery code; the warehouse management is more intelligent and flexible, and a proper transport vehicle can be reserved intelligently and quickly; the labor cost is reduced, and the possibility of human errors is low. In general, the system saves manpower and material resources, reduces the cost of enterprises, improves the management efficiency and accuracy, can meet the requirements, and is suitable for popularization and use.

In a preferred scheme, the web server is used for receiving the goods orders in real time and reading the goods class II of the goods orders, matching the goods class II with the goods class I of the plurality of warehouses respectively, and if the goods class II is successfully matched with the goods class I of any warehouse respectively, the web server sends the goods orders to the warehouse corresponding to the successfully matched goods class I. In the scheme, the goods orders are issued to the warehouse with complete goods according to the goods types, and the goods are delivered after one-stop goods distribution, so that the delivery efficiency is improved. If goods in the same goods order are not uniform, the web server can divide the goods order into a plurality of branch orders to be sent to different warehouses for distribution and transportation according to the matching and comparison results.

In a preferred scheme, the to-be-delivered warehouse area comprises a plurality of subregions which are sequentially arranged in a numbering mode and are arranged close to the warehouse outlet, and goods in the same goods order are stacked in one subregion of the to-be-delivered warehouse area with the same number. In this scheme, for example, a plurality of rectangular areas are defined at the warehouse exit, the numbers are A, B, C, and the like, and the goods of the same order are placed in the same subarea for warehouse-out according to a preset warehouse-out time sequence.

In a preferred embodiment, the goods class I and/or the goods class II comprise daily material goods and production material goods, wherein the daily material goods comprise daily goods, food goods, clothing goods, residential goods and combustion goods; the production data commodity comprises an industrial production data commodity and an agricultural production data commodity; the goods list I and/or the goods list II are varieties, detail and quantity of goods.

In a preferred scheme, after the delivery code is generated, the corresponding goods order is scanned for delivery, the preset delivery time is estimated according to the preset destination, if the actual delivery time is later than the preset delivery time, the delivery code is invalid, the mobile verification equipment loaded on the transport vehicle sequentially scans the electronic code of the goods, uploads the electronic code to the electronic tag of the goods loaded on the transport vehicle, obtains a goods list I and uploads the goods list I to the delivery verification module, the delivery verification module sequentially performs verification matching on the obtained goods list II and the goods list I, if the verification matching is successful, the return result is 1, the delivery verification module synchronously uploads the verification result to the delivery code generation module, the delivery code generation module regenerates the delivery code II, and sends the delivery code II to the mobile verification device and synchronously displays the delivery code II on a display screen of the mobile verification device. In the scheme, the preset delivery time, the preset warehousing number time and the actual delivery time are set so as to further monitor the transport vehicle, effectively and reasonably plan the transport route and the transport circulation speed and ensure the circulation efficiency of logistics. In practical situations, if traffic jam, temporary roadblocks, weather of wind and snow and delayed freight speed are encountered, freight routes and freight duration can be adjusted according to positioning information, local traffic conditions and the like at the moment, and ex-warehouse codes are continuously updated, and meanwhile, through updating the ex-warehouse codes, conditions of unsmooth transportation are counted, calculated and generalized, effective data are provided for optimizing the transport routes in the future.

In a preferred scheme, at least one distribution bill is included in one cargo order, any one of the at least one distribution bill corresponds to one logistics transportation destination, and any one of the at least one distribution bill corresponds to one delivery code. In the scheme, the goods order is likely to be transported by a single commodity whole piece or scattered commodities, so that a plurality of possible transportation destinations are provided, and each destination is provided with an ex-warehouse code, so that ex-warehouse verification, logistics verification and warehouse verification are facilitated.

In a preferred scheme, the logistics management module comprises a to-be-dispatched transportation vehicle list and a random dispatch transportation vehicle list, and sequentially reserves transportation vehicles in the to-be-dispatched transportation vehicle list and transportation vehicles in the random dispatch transportation vehicle list according to the total volume, total weight and preset delivery time of goods of a goods order, wherein the transportation vehicles in the to-be-dispatched transportation vehicle list are transportation vehicles which are stopped in a warehouse and are waiting for dispatch; the random dispatch transportation vehicle is an uninterrupted transportation vehicle which takes a warehouse as a center and applies for dispatch within the range of 100 km square. When the required transportation vehicles do not exist in the list of the transportation vehicles to be dispatched, dispatching is carried out in the random dispatching transportation vehicles, goods types are written out, required transportation vehicle types, warehouse-out time and the like, and the required transportation vehicles are waited for receiving the required transportation vehicles by themselves.

In a preferred embodiment, the mobile verification device further includes: the radio frequency identification assembly is used for scanning the electronic tag of the goods on the transport vehicle once at intervals; the data storage module is used for downloading and storing the goods list I and the ex-warehouse codes; the positioning assembly is used for detecting the speed of the transport vehicle and positioning in real time; the control module is in communication connection with the radio frequency identification component, the data storage module and the positioning component, acquires the speed detected by the positioning component in real time and positions in real time, and controls the radio frequency identification component to start scanning the electronic tag of the goods on the transport vehicle once if the current speed is less than or equal to 10 ㎞/h; the control data storage module synchronously receives the electronic tags scanned and input by the radio frequency identification assembly, compares the electronic tags with the goods list I one by one for verification, and sends verification results to the warehouse management center. In this scheme, start at any time according to the speed of a motor vehicle and scan the goods in the transport vechicle and check, avoid taking place circumstances such as unloading in the middle of taking place, still can be equipped with alarm device, if take place the circumstances that the goods is not matchd, can in time send the circumstances to warehouse management center through wireless network etc. and carry out timely effectual processing.

In a preferred embodiment, the method further comprises: the destination verification device is respectively in communication connection with the delivery verification module and the delivery code generation module, the destination verification device is used for sequentially scanning electronic tags of goods unloaded from the transport vehicle to obtain a goods list I and uploading the goods list I to the delivery verification module, the delivery verification module sequentially carries out verification matching on the obtained goods list II and the goods list I, if verification matching is successful, the return result is 1, the delivery verification module synchronously uploads the verification result to the delivery code generation module, the delivery code generation module sends a delivery code or a delivery code II to the destination verification device and synchronously displays the delivery code or the delivery code II on a display screen of the destination verification device, and after the scanning assembly of the mobile verification device scans the delivery code or the delivery code II for secondary verification, the delivery code or the delivery code II is verified, and the goods transportation is finished; if the verification fails, the return result is 0, and the ex-warehouse code generation module does not send the ex-warehouse code or the ex-warehouse code II. In the scheme, when the destination verification device is used for warehousing, the warehouse-in goods are further verified in a warehouse-out code or warehouse-out code II verification mode, so that verification efficiency is high, and the condition of piece missing can be effectively avoided. All links of delivery, logistics and warehousing are penetrated by delivery codes, and even if a piece is lost, the error link can be rapidly positioned, so that the error correction efficiency is improved.

Although embodiments of the present invention have been disclosed above, it is not limited to the details and embodiments shown and described, it is well suited to various fields of use for which the invention would be readily apparent to those skilled in the art, and accordingly, the invention is not limited to the specific details and illustrations shown and described herein, without departing from the general concepts defined in the claims and their equivalents.

Claims (9)

1. Storage commodity circulation linked system based on thing networking, its characterized in that includes:

A web server for receiving an order for goods in real time; the warehouse management center is used for acquiring the goods order of the web server in real time, and driving the warehouse-out component to carry corresponding goods to the warehouse-out area according to the goods order; the warehouse management center includes: the counting and code scanning module is used for sequentially scanning electronic tags of goods entering the to-be-delivered area to obtain a goods list I; the delivery verification module is used for reading the goods list II of the goods order, acquiring the electronic tag scanned by the counting and scanning module in real time, sequentially carrying out matching verification on the acquired goods list I and the goods list II of the goods order, returning to be 1 if the matching is successful, and generating a waiting delivery instruction after all the matching is successful; if the matching of at least one electronic tag in the goods list I is unsuccessful, returning to 0, and continuing to match and check; the ex-warehouse code generation module is used for acquiring an instruction waiting for ex-warehouse of the ex-warehouse data module and generating an ex-warehouse code of the goods order; the logistics management module is used for reading the total volume, the total weight and the preset delivery time of the goods order in real time, reserving the transport vehicle according to the total volume, the total weight and the preset delivery time of the goods order, returning the reservation result to be 1 if reservation is successful, returning to be 0 if reservation is failed, and continuing reserving the transport vehicle; the logistics management module is also used for acquiring a waiting and delivery instruction of the delivery verification module in real time, and if the current time of the acquired waiting and delivery instruction is earlier than the preset delivery time and the reservation result returns to be 1, the logistics management module drives the delivery assembly to enter a goods delivery process;

The mobile verification device is detachably arranged on the transport vehicle, is respectively in communication connection with the delivery verification module and the delivery code generation module, and is used for sequentially scanning electronic tags of cargoes loaded to the transport vehicle to obtain a goods list I and uploading the goods list I to the delivery verification module, the delivery verification module sequentially carries out verification matching on the obtained goods list II and the goods list I, if verification matching is successful, the delivery verification module synchronously uploads the verification result to the delivery code generation module, the delivery code generation module sends the delivery code to the mobile verification device and synchronously displays the delivery code on a display screen of the mobile verification device, and if verification matching fails, the delivery code generation module does not send the delivery code, and if the verification matching fails, the delivery code generation module returns the result to be 0; and

And the access control is in communication connection with the ex-warehouse code generation module and synchronously downloads the generated ex-warehouse code, and the access control is also used for scanning the ex-warehouse code displayed on the mobile verification device.

2. The internet of things-based warehouse logistics linkage system of claim 1, wherein the web server pre-stores goods class i stored in a plurality of warehouses, and is used for receiving goods orders in real time and reading goods class ii of the goods orders, matching the goods class ii with the goods class i of the warehouses respectively, and if the goods class ii is successfully matched with the goods class i of any warehouse respectively, the web server issues the goods orders to the warehouse corresponding to the successfully matched goods class i.

3. The internet of things-based warehouse logistics linkage system of claim 1, wherein the to-be-ex-warehouse area comprises a plurality of subregions arranged in sequence in a numbered arrangement and is arranged near the warehouse outlet, and the goods in the same goods order are stacked in one subregion of the to-be-ex-warehouse area with the same number.

4. The internet of things-based warehouse logistics linkage system of claim 1, wherein the goods class i and/or the goods class ii comprises a life information commodity and a production information commodity, wherein the life information commodity comprises a daily commodity, a food commodity, a clothing commodity, a residential commodity and a combustion commodity; the production data commodity comprises an industrial production data commodity and an agricultural production data commodity;

The goods list I and/or the goods list II are varieties, detail and quantity of goods.

5. The internet of things-based warehouse logistics linkage system according to claim 1, wherein after the ex-warehouse code is generated, the corresponding goods order scans the ex-warehouse, the preset warehouse-in time is estimated according to the preset destination, if the actual warehouse-in time is later than the preset warehouse-in time, the ex-warehouse code is invalid, the mobile verification equipment loaded on the transport vehicle sequentially scans the electronic tag of the goods, which is loaded on the transport vehicle, through uploading scanning, to obtain a goods list I and uploading the goods list to the ex-warehouse verification module, the ex-warehouse verification module sequentially performs verification matching on the obtained goods list II and the goods list I, if verification matching is successful, the return result is 1, the ex-warehouse verification module synchronously uploads the verification result to the ex-warehouse code generation module, the ex-warehouse code generation module regenerates the ex-warehouse code II, and sends the ex-warehouse code II to the mobile verification device and synchronously displays the ex-warehouse code II on a display screen of the mobile verification device.

6. The internet of things-based warehouse logistics linkage system of claim 1, wherein one of the goods orders comprises at least one of the branch orders, wherein any of the at least one of the branch orders corresponds to one of the logistics transportation destinations, and wherein any of the at least one of the branch orders corresponds to one of the delivery codes.

7. The internet of things-based warehouse logistics linkage system of claim 1, wherein the logistics management module comprises a to-be-dispatched transportation vehicle list and a random dispatch transportation vehicle list, and the transportation vehicles in the to-be-dispatched transportation vehicle list and the random dispatch transportation vehicle list are reserved in sequence according to the total volume, total weight and preset delivery time of goods of a goods order, wherein the transportation vehicles in the to-be-dispatched transportation vehicle list are transportation vehicles which are parked in a warehouse and waiting for dispatch; the random dispatch transportation vehicle is an uninterrupted transportation vehicle which takes a warehouse as a center and applies for dispatch within the range of 100 km square.

8. The internet of things-based warehousing and logistics linkage system of claim 1, wherein the mobile verification device further comprises:

The radio frequency identification assembly is used for scanning the electronic tag of the goods on the transport vehicle once at intervals;

the data storage module is used for downloading and storing the goods list I and the ex-warehouse codes;

the positioning assembly is used for detecting the speed of the transport vehicle and positioning in real time; and

The control module is in communication connection with the radio frequency identification component, the data storage module and the positioning component, acquires the speed of the vehicle detected by the positioning component in real time and positions the vehicle in real time, and controls the radio frequency identification component to start scanning the electronic tag of the goods on the transport vehicle once if the current speed of the vehicle is less than or equal to 10 ㎞/h; the control data storage module synchronously receives the electronic tags scanned and input by the radio frequency identification assembly, compares the electronic tags with the goods list I one by one for verification, and sends verification results to the warehouse management center.

9. The internet of things-based warehousing and logistics linkage system of claim 5, further comprising:

The destination verification device is respectively in communication connection with the delivery verification module and the delivery code generation module, the destination verification device is used for sequentially scanning electronic tags of goods unloaded from the transport vehicle to obtain a goods list I and uploading the goods list I to the delivery verification module, the delivery verification module sequentially carries out verification matching on the obtained goods list II and the goods list I, if verification matching is successful, the return result is 1, the delivery verification module synchronously uploads the verification result to the delivery code generation module, the delivery code generation module sends a delivery code or a delivery code II to the destination verification device and synchronously displays the delivery code or the delivery code II on a display screen of the destination verification device, and after the scanning assembly of the mobile verification device scans the delivery code or the delivery code II for secondary verification, the delivery code or the delivery code II is verified, and the goods transportation is finished; if the verification fails, the return result is 0, and the ex-warehouse code generation module does not send the ex-warehouse code or the ex-warehouse code II.