CN112418757A - Logistics system for 5G communication associated big data - Google Patents

Abstract

The invention discloses a logistics system of 5G communication associated big data, which comprises a cloud interface module, a cloud dispatch request list and a control module, wherein the cloud interface module is used for acquiring the cloud dispatch request list; the 5G communication module is used for receiving the cloud dispatch requirement list and constructing a high-speed communication network; the transportation module is used for transporting goods or people according to a set line; the positioning module is used for marking target position information of the materials in the demand list and is matched with the movement and lifting of the transportation module; the matching module is associated with the 5G communication module and the transportation module and used for acquiring a cloud dispatch requirement list, acquiring target position information through the positioning module and generating required route information to the transportation module after comparing the routes of the transportation module in a working state; and the buffer module is used for temporarily storing the line information which cannot be implemented currently. The invention can improve the dispatch speed of large-scale manufacturers.

Description

Logistics system for 5G communication associated big data

Technical Field

The invention relates to the field of internet application, in particular to a logistics system for 5G communication associated big data.

Background

With the rapid development of digital technology, the data communication speed is faster and faster, and with the emergence of 5G communication, the physical distribution management is qualitatively developed. The 5G communication technology sacrifices the communication coverage, but greatly increases the communication speed, and at this time, the development of industries having high-speed communication requirements in operation is released. How to combine logistics with the internet for high-speed delivery is the development trend of various large-scale manufacturers, and the whole logistics industry is vigorous in pace by combining the development of electric business and the coming of a big data era. How to improve the intelligence of logistics in the e-commerce field is the key to improve efficiency, especially in the current situation that the demand for the delivery of merchants is higher and higher.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a logistics system of 5G communication associated big data, which can improve the dispatch speed of large-scale manufacturers.

In order to achieve the purpose, the invention provides the following technical scheme: the logistics system for 5G communication associated big data comprises

The cloud interface module is used for acquiring a cloud dispatch requirement list;

the 5G communication module is used for receiving the cloud dispatch requirement list and constructing a high-speed communication network;

the transportation module is used for transporting goods or people according to a set line;

the positioning module is used for marking target position information of the materials in the demand list and is matched with the movement and lifting of the transportation module;

the matching module is associated with the 5G communication module and the transportation module and used for acquiring a cloud dispatch requirement list, acquiring target position information through the positioning module and generating required route information to the transportation module after comparing the routes of the transportation module in a working state;

and the buffer module is used for temporarily storing the line information which cannot be implemented currently.

As a further improvement of the invention, the system further comprises a comparison module for comparing whether the temporary storage route information in the buffer module conflicts with the routes planned by the current transportation modules in real time, and if not, transmitting the corresponding temporary storage route information to the transportation modules.

As a further improvement of the invention, the mobile terminal further comprises a fingerprint module for identifying identity information; the fingerprint module is associated with the transportation module to send identity information to the transportation module as login information; and the transportation module uploads login information to the block chain through the 5G communication module.

As a further improvement of the invention, the system also comprises an information conversion module which is associated with the 5G communication module and the block chain, and after the login information is acquired, the login information is extracted into information comprising time, personnel number, task number and equipment information and then is encrypted and uploaded to the block chain.

As a further improvement of the invention, when the transportation module finishes acquiring the materials at the target position, the matching module acquires the return position information, and generates the required route information to the transportation module after comparing the routes of the transportation module in the working state.

As a further improvement of the invention, the transportation module comprises a base capable of translating, a lifting part arranged on the base, a load carrier arranged on the lifting part, and a seat arranged on the load carrier; the seat can be horizontally connected to the load carrier in a turnover manner relative to the ground, and when the seat is in place in a turnover manner, the seat is positioned above a part for loading on the load carrier; the load carrier is provided with a locking piece, a fastener is arranged at the position of the seat relative to the locking piece, and the locking piece and the fastener are matched with each other and locked in a fastening manner.

As a further improvement of the invention, the loading frame comprises an assembly frame connected with the lifting part and a goods shelf arranged on the assembly frame, and the goods shelf and the assembly frame are in a fork shape matched with each other; the assembly rack is provided with a lifting mechanism, one outward side of the goods shelf is hinged to the assembly rack, the lifting mechanism is located between the goods shelf and the assembly rack, and when the lifting mechanism is lifted, the goods shelf is turned over and lifted outwards; the seat can be horizontally connected to a mounting rack or a goods shelf in a turnover mode relative to the ground.

As a further improvement of the invention, the seat comprises a rotating shaft which is used for being rotationally connected with the assembly frame, a bracket which is connected with the rotating shaft, and a backrest which is arranged on the bracket; the rotating shaft comprises a supporting shaft and connecting pieces, the supporting shaft is used for being connected with the bracket, the connecting pieces are arranged at two ends of the supporting shaft, the two connecting pieces are eccentrically arranged at two ends of the supporting shaft, and an inserting column used for being inserted into the assembling frame is arranged at a position far away from the supporting shaft; the supporting shaft is rotatably connected with the assembly frame through connecting pieces at two ends.

As a further improvement of the invention, a fixing piece is arranged on the base, a connecting frame matched with the fixing piece is arranged on the support, the connecting frame comprises two connecting sheets arranged in pairs, one end of each connecting sheet is connected to the support, and the other ends of the connecting sheets are mutually close to form a connecting part matched with the fixing piece; when the connecting frame is turned back to the goods shelf through the supporting shaft in place, the fixing piece and the connecting part are detachably connected through the bolt; the bracket comprises two transverse frames used for connecting a backrest and an inclined frame fixedly connected with the two transverse frames, the inclined frame and the transverse frames are arranged in an inclined manner at an angle of 45 degrees, a connecting rod is arranged between the inclined frame and the connecting sheets, one end of the connecting rod is connected with a connecting part between the two connecting sheets through a bolt, and the other end of the connecting rod is fixedly connected with the inclined frame; the connecting rod and the transverse frame are arranged in parallel.

As a further improvement of the invention, the transverse frame and the inclined frame are connected with each other through an arc-shaped sheet, the transverse frame and the inclined frame are respectively connected with two sides of the arc-shaped sheet, and the end parts of the transverse frame and the inclined frame are mutually attached and overlapped; the arc-shaped piece is provided with an extending part at a position for connecting the transverse frame and the inclined frame, and the transverse frame and the inclined frame are fixedly connected with the arc-shaped piece through the extending part.

The invention has the advantages of ensuring safety and high efficiency and avoiding the condition that the manual transportation route is disordered to cause route blockage and the like to influence efficiency. The delivery system of a large manufacturer is more intelligent and rapid.

Drawings

FIG. 1 is a schematic diagram of the system module connection of the present invention;

FIG. 2 is a side view of the transport module of the present invention;

FIG. 3 is a schematic top view of a transport module according to the present invention;

FIG. 4 is a schematic view of a portion of the transport module of the present invention;

FIG. 5 is a schematic top view of the seat of the present invention;

FIG. 6 is a schematic perspective view of another perspective view of the transport module of the present invention;

FIG. 7 is a schematic diagram of the lifting mechanism of the present invention;

fig. 8 is a side view of the seat of the present invention.

Reference numerals: 1. a cloud interface module; 2. a 5G communication module; 3. a transport module; 31. a base; 32. a lifting member; 33. a carrier frame; 331. a fixing member; 332. an assembly frame; 333. a shelf; 334. a lifting mechanism; 34. a seat; 341. a fastener; 342. a rotating shaft; 343. a support; 3431. a transverse frame; 3432. an inclined frame; 3433. a connecting rod; 3434. an arc-shaped sheet; 344. a backrest; 345. a support shaft; 346. a connecting member; 347. inserting the column; 348. connecting sheets; 4. a positioning module; 5. a matching module; 6. a buffer module; 7. a comparison module; 8. a fingerprint module; 9. and an information conversion module.

Detailed Description

The invention will be further described in detail with reference to the following examples, which are given in the accompanying drawings.

As shown with reference to figures 1-8,

the first embodiment: the logistics system for 5G communication associated big data comprises

The cloud interface module 1 is used for acquiring a cloud dispatch requirement list;

the 5G communication module 2 is used for receiving the cloud dispatch requirement list and constructing a high-speed communication network;

the transportation module 3 is used for transporting goods or people according to a set line;

the positioning module 4 is used for marking the target position information of the materials in the demand list and is matched with the movement and lifting of the transportation module 3;

the matching module 5 is associated with the 5G communication module 2 and the transportation module 3 and is used for acquiring a cloud dispatch requirement list, acquiring target position information through the positioning module 4 and generating required route information to the transportation module 3 after comparing the routes of the transportation module 3 in a working state;

and the buffer module 6 is used for temporarily storing the line information which cannot be implemented currently.

Come to be connected with the big data in high in the clouds merchant system through high in the clouds interface module 1, obtain high in the clouds group delivery demand list, come to associate a plurality of cooperation sellers and sell the shop from business through the high in the clouds, can accurate quick acquisition group delivery information, and do not need artifical participation information to obtain, through 5G communication module 2, can obtain high in the clouds group delivery demand list fast, and through the target position that the material in the quick location list of orientation module 4 corresponds, utilize this orientation module 4 preliminary positioning. The routes are matched through the matching module 5, so that the moving track of the transportation module 3 which is working at present at each moment can be avoided, meanwhile, the track is planned according to the target position, and the materials are confirmed according to the cloud dispatch requirement list, so that the accuracy of material information and the safety of the routes can be ensured; when no route can be moved, the route of the current transportation module 3 can be planned according to the route to be opened after the work of each current transportation module 3 is finished, the route information is temporarily stored in the buffer module 6 due to the fact that the route cannot be directly moved, and the matching module 5 is enabled to continuously match the route of the next transportation module 3 to be ready by means of the temporary storage function of the buffer module 6. Therefore, the scheme can ensure safety and high efficiency, and avoid the condition that the manual transportation route is messy to cause route blockage and the like to influence efficiency. The delivery system of a large manufacturer is more intelligent and rapid.

In the second embodiment, based on the preferred scheme of the first embodiment, a comparison module 7 is further provided, and is configured to compare whether the temporary storage route information in the buffer module 6 conflicts with the routes planned by the current transportation modules 3 in real time, and if not, transmit the corresponding temporary storage route information to the transportation modules 3.

The first embodiment is based on the principle of first-in last-out, and because the route is planned in advance and then temporarily stored in the buffer module 6, the route cannot be intelligently changed in the buffer module 6. In the embodiment, the comparison module compares the current route planned by each transportation module 3 in real time, and route information meeting the working requirements can be sent to the corresponding transportation module 3 first, so that the transportation module can join in the work preferentially, and further the working efficiency is further improved.

In the method, as optimization, the system further comprises a fingerprint module 8 for identifying identity information; the fingerprint module 8 is associated with the transport module 3 to send identity information to the transport module 3 as login information; and the transport module 3 uploads the login information to the block chain through the 5G communication module 2.

Through fingerprint module 8 can be when personnel pair the transportation module 3 of awaiting orders, carry out fingerprint identification in order to obtain identity information to utilize identity information to log in transportation module 3, can match personnel and task voluntarily this moment, have the important role to accounting staff's work volume, and can record the information of each task, make the task flow can be complete to record down. The login information can be uploaded to the block chain for storage through the 5G communication module 2, due to the characteristic that the block chain goes to the center and cannot be opened, the recording of a task flow is prevented from being modified privately, all tasks can be provided with evidence preservation, once the recording is modified, the recording is not matched with data on the block chain, and modification responsibility can be pursued. The whole process is more standard, and the problem of abuse authority can be avoided.

In the further setting, the system also comprises an information conversion module 9 which is associated with the 5G communication module 2 and the block chain, extracts the login information into information comprising time, personnel number, task number and equipment information after acquiring the login information, and encrypts and uploads the information to the block chain.

Before the 5G communication module 2 interacts with the blockchain, the 5G communication module 2 unpacks and extracts the login information, extracts the information through a specific format, encrypts the information and uploads the encrypted information to the blockchain. Since part of the content of the task flow may be adjusted as needed, the task flow cannot correspond to the data on the block chain at this time, but the time, the personnel number, the task number and the equipment information are key and fixed features in each task, and the time, the personnel number, the task number and the equipment information are not allowed to be modified during adjustment, so that the features in the task flow can be extracted and compared in the tracing process, and the data on the block chain can be correspondingly matched at this time. The method and the device avoid the problem that the data on the block chain cannot be paired with the actual data due to small adjustment, and further influence the accuracy.

In the third embodiment, based on the second embodiment, when the transportation module 3 finishes acquiring the material at the target position, the matching module 5 acquires the return position information, and generates the required route information to the transportation module 3 after comparing the routes of the transportation module 3 in the working state.

The work of the matching module 5 is divided into two parts, one part is before the transportation module 3 works, the other part is after the transportation module 3 finishes loading, and after the work is divided into two parts, the route planning can be faster, the calculation and comparison processes are reduced, only a single-way route needs to be calculated, and the actual work efficiency can be improved. Moreover, since the time for loading the transport module 3 is difficult to confirm, the working route can be further optimized, thereby avoiding the influence on the subsequent operation of the transport module 3 due to the overtime time for loading and avoiding the waste of time caused by the early completion of loading.

In the fourth embodiment, the transport module 3 includes a base 31 capable of translating, a lifting member 32 provided on the base 31, a carrier 33 provided on the lifting member 32, and a seat 34 provided on the carrier 33; the seat 34 is connected to the load carrier 33 in a manner that the seat can be horizontally turned over relative to the ground, and when the seat 34 is turned over to the right position, the seat 34 is positioned above the part for loading on the load carrier 33; the carrier 33 is provided with a locking member, the seat 34 is provided with a fastener 341 at a position corresponding to the locking member, and the locking member and the fastener 341 are mutually matched, fastened and locked.

Wherein, the wheel body on the base 31 adopts a Mecanum wheel.

The base 31 that sets up adopts the translation mode, can reduce turning to of transport module 3 and cause the unstable problem of personnel, has improved the security, also can reduce simultaneously because turn to the angle calibration problem that brings, avoids leading to wasting time and energy, has the problem of potential safety hazard even. The lifting member 32 can lift the carrier 33, and further, the personnel can be driven to lift to the position corresponding to the storage module. The seat 34 that sets up can let the personnel better stand by, and when the personnel sat on seat 34, can be used for stepping on the foot with the load board as the fulcrum, can lock seat 34 through locking piece and fastener 341, avoid its upset. Specifically, the locking member is of a snap structure, and the fastener 341 is engaged with the snap, so that the locking can be completed when the snap is engaged with the fastener 341, thereby ensuring that the seat 34 is not turned over to cause a safety problem during the moving process. When people arrive at a destination, the person can be unlocked and then turned to two sides without affecting the placement of materials. After the material is placed, the base 31 drives the goods to be transported to the final destination. After which the person can return himself to the original position and take the transport module 3 ready again. Compared with the existing manual retrieval and manual carrying modes, the method has the advantages of high efficiency and safety. Personnel only need be responsible for the transport can, need not carry out other operations, can let the management of material more intelligent. Base 31 adopts four mecanum wheels to cooperate, and the cross translation of controlling around can realizing through the regulation that turns to of mecanum wheel, need not turn to. The structure is simple, the implementation is easy, the change of hardware is small, only the existing wheels need to be replaced, the four-wheel drive is arranged, the independent wheels are controlled, the translation driving can be realized, the principle is simple, and the change is simple. And once a driving problem occurs, which wheel or corresponding driving of the wheel has a problem can be quickly found according to an actual moving track, and the maintenance can be quickly carried out.

The load carrier 33 includes a mounting frame 332 connected to the elevating member 32 and a rack 333 provided on the mounting frame 332, and the rack 333 and the mounting frame 332 are of a fork shape; the assembly rack 332 is provided with a lifting mechanism 334, one outward side of the goods shelf 333 is hinged to the assembly rack 332, the lifting mechanism 334 is located between the goods shelf 333 and the assembly rack 332, and when the lifting mechanism 334 is lifted, the goods shelf 333 is overturned outwards and lifted; the seat 34 is connected to the mounting bracket 332 or the shelf 333 so as to be horizontally tiltable with respect to the floor.

The existing forklift structure is used for lifting goods on the ground away from the ground and carrying the goods through a vehicle body, and only vertical lifting and placing can be achieved. In this scheme, carry out the lifting to goods shelves 333 through lifting mechanism 334, let goods shelves 333 use the articulated point to overturn as the fulcrum, can carry out the lifting of slope with the goods on goods shelves 333 this moment, can landing downwards under the action of gravity, to some materials that need utilize the tipping bucket to fall, can fall through this mode to can adjust goods shelves 333's height according to the demand. The lifting mechanism 334 may be implemented using an existing electrically controlled hydraulic cylinder.

Preferably, the jig 332 is provided with at least two sets of safety buckles and a safety belt, the safety belts are wound on two sides of the lower end of the jig 332 respectively through elastic winding mechanisms, the two safety buckles are arranged on two sides of the upper portion of the jig 332 and are matched with the safety belt, and when the safety belt is fastened with the safety buckles, the safety belt corresponds to the seat 34.

The safety buckle and the safety belt are respectively arranged at the left side and the right side of the assembly frame 332, and at the moment, a person sitting on the seat 34 can perform protection operation through a group of safety buckles and safety belts corresponding to the respective seats 34, so that the person sitting on the seat 34 can be prevented from falling. And the dislocation of utilizing this safety belt is buckled mutually, can detain the goods on goods shelves 333, detain the safety belt on the left on the safety hasp on the right, and the safety belt on the right is detained on the safety hasp on the left, can let two safety belts form alternately, and then fixes the goods, avoids the goods to drop.

Further, the seat 34 includes a rotating shaft 342 for rotatably connecting with the mounting bracket 332, a bracket 343 connected with the rotating shaft 342, and a backrest 344 provided on the bracket 343; the rotating shaft 342 comprises a supporting shaft 345 for connecting with the bracket 343 and connecting pieces 346 arranged at two ends of the supporting shaft 345, the two connecting pieces 346 are eccentrically arranged at two ends of the supporting shaft 345, and a plugging column 347 for plugging with the assembly frame 332 is arranged at a position far away from the supporting shaft 345; the support shaft 345 is rotatably connected to the mounting bracket 332 by connecting members 346 at both ends.

Wherein the connecting member 346 is eccentrically arranged with the supporting shaft 345 as shown in the figure, specifically, the scheme adopts a waist-shaped arrangement, but also can adopt a square shape, a round shape and the like, one side of the connecting member 346 is eccentrically connected with the supporting shaft 345, the other side is provided with the plug-in post 347, the plug-in post 347 is rotatably connected with the assembly frame 332, which means that the connection between the supporting shaft 345 and the assembly frame 332 is not directly connected, but is connected through a connecting member 346, and both ends of the supporting shaft 345 are connected through the connecting member 346, after the connecting members 346 at both ends of the supporting shaft 345 are connected, the supporting shaft 345 is directly contacted with the connecting member 346, therefore, the abrasion during rotation only generates abrasion to the supporting shaft 345 and the connecting member 346, the assembly frame 332 is prevented from being abraded, the replacing cost of the connecting member 346 and the supporting shaft 345 is low, the support shaft 345 can be directly supported on the mounting bracket 332 through the connecting piece 346, the friction force is increased through the contact between the connecting piece 348 and the mounting bracket 332, the support shaft 345 avoids the connecting position between the connecting piece 346 and the mounting bracket 332, the influence on the connection between the connecting piece 346 and the mounting bracket 332 when the bracket 343 rotates can be reduced, and the service life can be further prolonged.

The base 31 is provided with a fixing part 331, the support 343 is provided with a connecting frame matched with the fixing part 331, the connecting frame comprises two connecting sheets 348 which are arranged in pairs, one end of each of the two connecting sheets 348 is connected to the support 343, and the other ends of the two connecting sheets 348 are mutually close to form a connecting part matched with the fixing part 331; when the connecting frame is turned to a proper position back to the goods shelf 333 through the supporting shaft 345, the fixing piece 331 and the connecting part are detachably connected through the bolt; the support 343 comprises two transverse frames 3431 for connecting the backrest 344 and an inclined frame 3432 for fixedly connecting the two transverse frames 3431, the inclined frame 3432 and the transverse frames 3431 are arranged in an inclined manner at an angle of 45 degrees, a connecting rod 3433 is arranged between the inclined frame 3432 and the connecting piece 348, one end of the connecting rod 3433 is connected to the connecting part between the two connecting pieces 348 through a bolt, and the other end is fixedly connected to the inclined frame 3432; the link 3433 is disposed in parallel with the transversal frame 3431.

Through the cooperation of link and mounting 331, can let be in and fix after the seat 34 that does not use turns over, avoid seat 34 to rotate at will and produce the goods and collide with in the delivery process. In addition, since the two transverse frames 3431 are fixed by the inclined frame 3432, the inclined frame 3432 is inclined at 45 °, the connection strength between the two transverse frames 3431 can be improved, and since the two transverse frames 3431 are both connected with the support shaft 345, if the upper transverse frame 3431 has a tendency of bending downward, the transverse frame 3431 will bend downward with the connection position of the support shaft 345 as a fulcrum, and the movement of the transverse frame 3431 back to the end of the support shaft 345 is in an arc shape, so that the bending tendency can be counteracted to the maximum extent by the inclined frame 3432, and the support effect is stronger than that of a vertical connection mode. The strength of the tilting frame 3432 can be further increased by the connecting rod 3433, and the tilting frame 3432 is fixed by the connecting rod 3433 and the lower transversal frame 3431 to support the strength of the tilting frame 3432, thereby reducing the possibility that the tilting frame 3432 is bent along with the upper transversal frame 3431.

Further, the transversal frame 3431 and the inclined frame 3432 are connected to each other through an arc-shaped piece 3434, the transversal frame 3431 and the inclined frame 3432 are respectively connected to both sides of the arc-shaped piece 3434, and the ends of the transversal frame 3431 and the inclined frame 3432 are attached to each other and overlapped; the arc-shaped pieces 3434 are provided with extending parts at positions for connecting the transversal frames 3431 and the inclined frames 3432, and the transversal frames 3431 and the inclined frames 3432 are fixedly connected with the arc-shaped pieces 3434 through the extending parts.

As shown in the figure, the two ends of the arc-shaped piece 3434 are respectively connected to the transversal frame 3431 and the inclined frame 3432, the arc-shaped piece 3434 improves the supporting effect of the inclined frame 3432 on the transversal frame 3431, and increases the stress area, compared with the case of directly fixing the inclined frame 3432 and the transversal frame 3431 by bolts, the number of fixing points is increased without increasing the overlapping area, thereby further improving the fixing effect. If bolts are used to directly connect the inclined frame 3432 and the transverse frame 3431, in the case that the inclined frame 3432 is inclined at 45 °, the thickness of the transverse frame 3431 or the inclined frame 3432 needs to be increased to fix the two frames better. The force arm is reduced while the stress area is increased, and the supporting effect can be further improved. The ends of the transversal frame 3431 and the inclined frame 3432 are fitted and overlapped to avoid collision therebetween. The arrangement of the extension part can further improve the supporting area and shorten the force arm.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (10)

1.5G communication association big data's logistics system, its characterized in that: comprises that

The cloud interface module (1) is used for acquiring a cloud dispatch requirement list;

the 5G communication module (2) is used for receiving the cloud dispatch requirement list and constructing a high-speed communication network;

a transportation module (3) for transporting goods or persons according to a set route;

the positioning module (4) is used for marking target position information of the materials in the demand list and is matched with the movement and lifting of the transportation module (3);

the matching module (5) is associated with the 5G communication module (2) and the transportation module (3) and is used for acquiring a cloud dispatch requirement list, acquiring target position information through the positioning module (4), and generating required route information to the transportation module (3) after comparing the route of the transportation module (3) in a working state;

and the buffer module (6) is used for temporarily storing the line information which cannot be implemented currently.

2. The logistics system of claim 1, wherein: the system also comprises a comparison module (7) for comparing the temporary storage route information in the buffer module (6) with the routes planned by the current transportation modules (3) in real time, and if not, transmitting the corresponding temporary storage route information to the transportation modules (3).

3. The logistics system of claim 1, wherein: the fingerprint module (8) is used for identifying identity information; the fingerprint module (8) is associated with the transportation module (3) to send identity information to the transportation module (3) as login information; and the transport module (3) uploads login information to the block chain through the 5G communication module (2).

4. The logistics system of claim 3, wherein: the system also comprises an information conversion module (9) which is associated with the 5G communication module (2) and the block chain, extracts the login information into information comprising time, personnel number, task number and equipment information after acquiring the login information, and encrypts and uploads the information to the block chain.

5. The logistics system of claim 1, wherein: when the transportation module (3) finishes acquiring the materials at the target position, the matching module (5) acquires the return position information, and generates required route information to the transportation module (3) after comparing the routes of the transportation module (3) in the working state.

6. The logistics system of claim 1, wherein: the transportation module (3) comprises a base (31) capable of translating, a lifting part (32) arranged on the base (31), a load carrier (33) arranged on the lifting part (32), and a seat (34) arranged on the load carrier (33); the seat (34) can be horizontally connected to the load carrier (33) in a turnover mode relative to the ground, and when the seat (34) is in a turnover mode, the seat (34) is located above a part for loading on the load carrier (33); the load carrier (33) is provided with a locking piece, a fastener (341) is arranged at the position of the seat (34) corresponding to the locking piece, and the locking piece and the fastener (341) are matched with each other, buckled and locked.

7. The logistics system of claim 6, wherein: the load carrier (33) comprises an assembly frame (332) connected with the lifting component (32) and a goods shelf (333) arranged on the assembly frame (332), and the goods shelf (333) and the assembly frame (332) are in a fork shape matched with each other; the assembly rack (332) is provided with a lifting mechanism (334), one outward side of the goods shelf (333) is hinged to the assembly rack (332), the lifting mechanism (334) is located between the goods shelf (333) and the assembly rack (332), and when the lifting mechanism (334) is lifted, the goods shelf (333) is overturned outwards and lifted; the seat (34) is connected to a mounting rack (332) or a shelf (333) in a horizontally turnable manner relative to the ground.

8. The logistics system of claim 7, wherein: the seat (34) comprises a rotating shaft (342) which is used for being rotatably connected with the assembly frame (332), a bracket (343) which is connected with the rotating shaft (342), and a backrest (344) which is arranged on the bracket (343); the rotating shaft (342) comprises a supporting shaft (345) connected with the bracket (343) and connecting pieces (346) arranged at two ends of the supporting shaft (345), the two connecting pieces (346) are eccentrically arranged at two ends of the supporting shaft (345), and a plugging column (347) for plugging with the assembly frame (332) is arranged at a position far away from the supporting shaft (345); the supporting shaft (345) is rotatably connected with the mounting frame (332) through connecting pieces (346) at two ends.

9. The logistics system of claim 8, wherein: a fixing piece (331) is arranged on the base (31), a connecting frame matched with the fixing piece (331) is arranged on the support (343), the connecting frame comprises two connecting pieces (348) which are arranged in pairs, one end of each of the two connecting pieces (348) is connected to the support (343), and the other ends of the two connecting pieces are mutually close to form a connecting part matched with the fixing piece (331); when the connecting frame is turned to a position opposite to the goods shelf (333) through the supporting shaft (345), the fixing piece (331) and the connecting part are detachably connected through the bolt; the support (343) comprises two transverse frames (3431) which are connected with the backrest (344) by a dry joint and an inclined frame (3432) which is simultaneously fixedly connected with the two transverse frames (3431), the inclined frame (3432) and the transverse frames (3431) are arranged in an inclined way of 45 degrees, a connecting rod (3433) is arranged between the inclined frame (3432) and the connecting piece (348), one end of the connecting rod (3433) is connected with the connecting part between the two connecting pieces (348) through a bolt, and the other end of the connecting rod (3433) is fixedly connected with the inclined frame (3432); the connecting rod (3433) is arranged in parallel with the transverse frame (3431).

10. The logistics system of claim 9, wherein: the transverse frame (3431) and the inclined frame (3432) are connected with each other through an arc-shaped sheet (3434), the transverse frame (3431) and the inclined frame (3432) are respectively connected with two sides of the arc-shaped sheet (3434), and the end parts of the transverse frame (3431) and the inclined frame (3432) are mutually attached and overlapped; the arc-shaped piece (3434) is provided with an extending part at the position for connecting the transverse frame (3431) and the inclined frame (3432), and the transverse frame (3431) and the inclined frame (3432) are fixedly connected with the arc-shaped piece (3434) through the extending part.

Images