CN109146367B - Intelligent cloud warehouse mode based on cooperative operation of multiple logistics companies - Google Patents

Abstract

The invention discloses an intelligent cloud warehouse mode based on cooperative operation of a plurality of logistics companies, which comprises a logistics company alliance, a cloud platform and intelligent hardware, wherein the logistics company alliance realizes data interaction with the cloud platform through the intelligent hardware, and the logistics company alliance comprises at least two logistics companies; the intelligent cloud storage mode comprises the following steps: s1, pushing the freight note, S2, processing by a cloud platform, S3, planning by the cloud platform, S4, receiving the freight note information by a logistics site, and carrying out goods receiving operation on goods corresponding to the freight note and warehousing operation by the logistics site of a delivery logistics company; the logistics storage system has the advantages of improving the stability, flexibility and expandability of the logistics storage system, enabling users to be more convenient and fast to use, realizing the control of logistics transportation links and storage management links, improving the logistics operation efficiency and the storage management efficiency, and having good market application value.

Description

Intelligent cloud warehouse mode based on cooperative operation of multiple logistics companies

Technical Field

The invention relates to the field of logistics, in particular to an intelligent cloud warehouse mode based on cooperative operation of multiple logistics companies.

Background

With the rise of the logistics industry, domestic logistics has been greatly developed in recent years, the logistics in China has entered a new stage of transformation and upgrading, and the total logistics cost and the total production value in China are higher than those in developed countries. In the face of the current situation of the industry, China needs to develop services such as warehousing and transportation by using more novel technologies and novel ideas, but the overall level of logistics development is not very high, the logistics cost is high, the efficiency is low, and medium and small logistics companies are more faced with the problems of overhigh transportation cost and overlow operation efficiency.

The prior art has defects and needs to be improved.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides an intelligent cloud warehouse mode which is based on cooperative operation of a plurality of logistics companies, reduces logistics cost and improves operation efficiency.

The technical scheme provided by the invention is an intelligent cloud warehouse mode based on cooperative operation of a plurality of logistics companies, which comprises a logistics company union, a cloud platform and intelligent hardware, wherein the logistics company union realizes data interaction with the cloud platform through the intelligent hardware, and the logistics company union comprises at least two logistics companies; the intelligent cloud storage mode comprises the following steps:

s1, pushing the waybill by a delivery logistics company in the logistics company union;

s2, processing by the cloud platform, wherein the cloud platform receives the waybill of a delivery logistics company in the logistics company alliance, identifies waybill information and carries out delivery operation on goods of the delivery logistics company;

s3, planning by a cloud platform, wherein the cloud platform carries out distribution planning on goods corresponding to the waybill by identifying waybill demand information, and pushes the waybill information to a logistics site of a corresponding delivery logistics company;

and S4, the logistics station receives the freight note information, and the logistics station of the delivery logistics company receives the freight corresponding to the freight note and performs warehousing operation.

Preferably, the step S1 further includes a step S11 of the shipping logistics company filling out the waybill information; and S12, uploading the waybill information to the cloud platform by the delivery logistics company.

Preferably, the waybill information includes a waybill number, an invoice bin, a consignment bin, a cargo volume, a cargo weight, a cargo item class, a waybill generation time, a shipping logistics company, an ID of the shipping logistics company, and a waybill status.

Preferably, after the step S3, the method further includes the step S31, after receiving the APP of the warehouse, confirming whether to pick up goods and feeding back the information to the cloud platform.

Preferably, when the goods are loaded and unloaded, the goods are scanned through intelligent hardware or APP waybill, and upload position information to the cloud platform through intelligent hardware or APP.

Preferably, APP and intelligent hardware bind through the bluetooth, and intelligent hardware is fixed in the driver's cabin of freight train, is equipped with voice broadcast module and GPS orientation module in the intelligent hardware, and intelligent hardware broadcasts the information of the cloud platform feedback of receiving by APP through the voice broadcast module, and GPS orientation module is used for fixing a position the positional information of freight train, feeds back to the cloud platform through APP.

Preferably, the intelligence hardware includes the pedestal and the scanning body, the scanning body dismantles the formula and is fixed in on the pedestal, the pedestal is fixed in the driver's cabin of freight train, be equipped with voice broadcast module and GPS orientation module in the pedestal, GPS orientation module is used for often fixing a position the positional information of freight train, the voice broadcast module is used for broadcasting the information of the cloud platform feedback that APP received.

Preferably, the receiving warehouse and the delivering warehouse are any warehouse in the logistics company union.

Compared with the prior art, the logistics company alliance is established, so that the overall conveying capacity is improved, the storage utilization degree of each logistics company is optimized, the logistics cost is reduced, and the distribution efficiency is improved; the method adopts a cooperative win-win mode of a plurality of small and medium-sized logistics enterprises, and the logistics companies operate in cooperation with the plurality of logistics companies on the premise of not interfering independent operation of the logistics companies, so that a unified quotation system, a unified settlement system, a unified allocation system and a unified storage sharing system are established, unified transportation management is supported, and the win-win mode is realized; the system combines a cloud platform system and intelligent hardware, improves stability, flexibility and expandability of the logistics storage system, enables users to be more convenient to use, realizes control over logistics transportation links and storage management links, improves logistics operation efficiency, improves storage management efficiency, and has good market application value.

Drawings

FIG. 1 is a schematic flow chart of the present invention.

Detailed Description

The technical features mentioned above are combined with each other to form various embodiments which are not listed above, and all of them are regarded as the scope of the present invention described in the specification; also, modifications and variations may be suggested to those skilled in the art in light of the above teachings, and it is intended to cover all such modifications and variations as fall within the true spirit and scope of the invention as defined by the appended claims.

In order to facilitate an understanding of the invention, the invention is described in more detail below with reference to the accompanying drawings and specific examples. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

The present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1, in a first embodiment, an intelligent cloud storage mode based on cooperative operation of multiple logistics companies is composed of a logistics company union, a cloud platform, and intelligent hardware, where the logistics company union realizes data interaction with the cloud platform through the intelligent hardware, and the logistics company union is composed of at least two logistics companies; the intelligent cloud storage mode comprises the following steps:

s1, pushing the waybill by a delivery logistics company in the logistics company union;

s2, processing by the cloud platform, wherein the cloud platform receives the waybill of a delivery logistics company in the logistics company alliance, identifies waybill information and carries out delivery operation on goods of the delivery logistics company;

s3, planning by a cloud platform, wherein the cloud platform carries out distribution planning on goods corresponding to the waybill by identifying waybill demand information, and pushes the waybill information to a logistics site of a corresponding delivery logistics company;

and S4, the logistics station receives the freight note information, and the logistics station of the delivery logistics company receives the freight corresponding to the freight note and performs warehousing operation.

Preferably, the step S1 further includes a step S11 of the shipping logistics company filling out the waybill information; and S12, uploading the waybill information to the cloud platform by the delivery logistics company.

Preferably, the waybill information includes a waybill number, an invoice bin, a consignment bin, a cargo volume, a cargo weight, a cargo item class, a waybill generation time, a shipping logistics company, an ID of the shipping logistics company, and a waybill status.

Preferably, after the step S3, the method further includes the step S31, after receiving the APP of the warehouse, confirming whether to pick up goods and feeding back the information to the cloud platform.

Preferably, when the goods are loaded and unloaded, the goods are scanned through intelligent hardware or APP waybill, and upload position information to the cloud platform through intelligent hardware or APP.

Preferably, APP and intelligent hardware bind through the bluetooth, and intelligent hardware is fixed in the driver's cabin of freight train, is equipped with voice broadcast module and GPS orientation module in the intelligent hardware, and intelligent hardware broadcasts the information of the cloud platform feedback of receiving by APP through the voice broadcast module, and GPS orientation module is used for fixing a position the positional information of freight train, feeds back to the cloud platform through APP.

Preferably, the intelligence hardware includes the pedestal and the scanning body, the scanning body dismantles the formula and is fixed in on the pedestal, the pedestal is fixed in the driver's cabin of freight train, be equipped with voice broadcast module and GPS orientation module in the pedestal, GPS orientation module is used for often fixing a position the positional information of freight train, the voice broadcast module is used for broadcasting the information of the cloud platform feedback that APP received.

Preferably, the receiving warehouse and the delivering warehouse are any warehouse in the logistics company union.

Further, step S1 is preceded by step S01 of establishing a federation of logistics companies, for example, a manager of the logistics company registers the federation of the logistics companies through APP, such as uploading registration information, for example, uploading qualification of the logistics companies, uploading warehouse information of the logistics companies and uploading vehicle information of the logistics companies; the warehouse information of the logistics company comprises a warehouse name, a warehouse position, a warehouse number, a warehouse volume and a warehouse storage goods class.

Preferably, step S01 is followed by step S02, in which the APP is connected to the cloud platform, receives registration information received by the APP, the cloud platform examines the registration information, and feeds back a registration result through the APP, and step S001 is further included before step S01, in which the cloud platform feeds back a federation protocol of the logistics company through the APP, and a supervisor of the logistics company selects whether to agree with the federation protocol of the logistics company; further, step S002 is included after step S001, the cloud platform feeds back the logistics alliance unified offer through APP, and the administrator of the logistics company selects whether to agree with the logistics alliance unified offer and joins in the logistics company alliance; further, after the step S002, a step S003 is further included, and after the logistics company owner joins in the logistics company alliance, the cloud platform allocates a unique ID to feed back to the APP hosted by the logistics company; further, after the step S003, the method further includes the step of SOO4, the cloud platform allocating a unique financial account to the logistics company, and the logistics company entering into the recharging operation through the financial account; still further, step S005 is included after step S004, the APP with the ID may set a plurality of sub-IDs to be allocated to the logists under the logistics company, and the logists may log in the APP through the sub-IDs and join in the logistics company alliance.

Further, the step S1 further includes a step S11 of the shipping logistics company filling out the waybill information; s12, the delivery logistics company uploads the waybill information to a cloud platform; for example, S11, the delivery logistics company fills waybill information on APP, S12, the APP uploads the waybill information to the cloud platform; further, a delivery logistics company fills waybill information in the APP and gives the electronic tag to the goods, the delivery logistics company writes the waybill information into the electronic tag through a terminal where the APP is located, and meanwhile, the APP uploads the waybill information to the cloud platform; furthermore, the terminal where the APP is located writes the waybill information into the electronic tag through the NFC reader-writer, and the waybill state is to-be-delivered; preferably, the electronic tag is a rewritable electronic tag; for example, the waybill information includes the waybill number, the shipment warehouse, the cargo volume, the cargo weight, the cargo class, the waybill generation time, the shipping logistics company, the ID of the shipping logistics company, and the waybill status;

s2, cloud platform processing, for example, the cloud platform receives an invoice of a delivery logistics company in a logistics company union, the cloud platform receives the invoice of the delivery logistics company through GPRS, identifies the invoice information, extracts an invoice number, a delivery bin, a receiving bin, a cargo volume, a cargo weight, a cargo class, an invoice generation time, an ID of the delivery logistics company and freight form state information in the invoice information, calculates a transportation amount through extracting the invoice information, deducts a corresponding transportation amount from a financial account of the delivery logistics company to a cloud platform account, and converts the freight form state from the delivery to the to-be-received goods; for example, waybill status includes ready to ship, ready to pick up, in transit, arrived at a warehouse; further, the cloud platform calculates the transportation amount according to the delivery warehouse, the receiving warehouse, the cargo volume, the cargo weight and the cargo category; furthermore, the cloud platform receives the waybill from a delivery logistics company in the logistics company alliance, the waybill information is stored after the waybill information is identified, the storage serial numbers are sequentially generated according to the time sequence and stored in a storage module of the cloud platform, the storage module is composed of a database, the storage serial numbers are stored in the database, and the waybill number, the delivery warehouse, the receiving warehouse, the cargo volume, the cargo weight, the cargo type, the waybill generation time, the ID, the waybill state and the transportation amount information of the delivery logistics company and the delivery logistics company are correspondingly arranged after the serial numbers are stored; the storage serial number is formed by the time when the waybill information is stored in the storage module, for example, 27 minutes 56 seconds of waybill information is stored in the storage module at 13 hours at 5 months and 20 days in 2018, the storage serial number is 20180520132756, the storage serial number is formed by the time when the delivery warehouse, the receiving warehouse and the waybill information are stored in the storage module, for example, the delivery warehouse is a guangzhou warehouse, the receiving warehouse is a beijing warehouse, and the 27 minutes 56 seconds of waybill information is stored in the storage module at 13 hours at 5 months and 20 days in 2018, the storage serial number is guangzhou-beiijing 20180520132756.

S3, the cloud platform planning and the cloud platform plan the distribution of the goods corresponding to the waybill by identifying the waybill demand information and push the waybill information to the logistics site of the corresponding delivery logistics company; for example, the cloud platform extracts information of an shipment cabin, a receipt cabin, a cargo volume, a cargo weight, a cargo class and a transportation amount in the storage module, the cloud platform specifies a circuit through the information of the shipment cabin and the receipt cabin, partition planning of the receipt cabin is performed according to the cargo volume, the cargo weight and the cargo class, and the cloud platform pushes the information of the shipment cabin, the receipt cabin, the cargo volume, the cargo weight, the cargo class and the transportation amount to an APP of the receipt cabin; further, after the step S3, the method further includes the step S31 of confirming whether to pick up goods and feeding back the information to the cloud platform after the APP of the goods receiving bin receives the information, and if the information received by the cloud platform is that the picking up goods is confirmed, the cloud platform feeds back all the waybill information in the storage module to the APP of the goods receiving bin; if the information received by the cloud platform is that the picking of goods is refused, the cloud platform plans a replacing bin closest to the goods receiving bin, pushes the goods volume, the goods weight, the goods types and the transportation amount information, and repeats the step S3 until the information received by the cloud platform is that the picking of goods is confirmed; the corresponding waybill state in the storage module is changed in transportation according to the goods to be collected.

S4, the logistics station receives the freight note, and the logistics station of the delivery logistics company receives the freight corresponding to the freight note and performs warehousing operation; for example, after the logistics site of the goods receiving warehouse confirms the goods collection, the logistics site automatically dispatches the goods to the goods sending warehouse for receiving the goods and performs warehousing operation; preferably, after the delivery warehouse logistics site confirms that goods are picked up, the goods are fed back to the cloud platform through the APP for taxi calling operation, the APP taxi calling module of the cloud platform monitors the goods around the delivery warehouse and pushes the delivery warehouse, the goods volume, the goods weight and the goods types to the APP of the goods driver around the delivery warehouse, the goods driver can perform order grabbing operation, after the order grabbing operation is completed, the APP of the goods driver feeds back information to the APP taxi calling module of the cloud platform, the APP taxi calling module feeds back the order grabbing information to the APP of the delivery warehouse logistics site, and the goods are transported to the delivery warehouse by the goods driver who grabs orders; further, if the goods receiving warehouse is an operation center, namely a large logistics company node, the cloud platform distributes the freight bill to the corresponding partition of the goods receiving warehouse; for example, the operation center is provided with 4 subareas, namely A, B, C, D, which are used for storing goods in north China, east China, China and south China respectively, and then the goods corresponding to the waybill are distributed to the corresponding subareas; furthermore, the operation center is provided with an intelligent handling worker, the intelligent handling worker is connected with the cloud platform, the intelligent handling worker receives the information of the distribution delivery list of the cloud platform, the goods are conveyed to the corresponding subarea, and the delivery list state is changed into the delivery list state.

Further, step S5 of settlement by the cloud platform is included after step S4, and the cloud platform transfers the transportation amount deducted from the financial account of the shipment logistics company into the account of the shipment logistics company to complete the delivery of the goods; further, the cloud platform transfers a part of the transportation amount deducted from the financial account of the delivery logistics company to the financial account of the delivery logistics company, and transfers the other part of the transportation amount to the corresponding financial account of the truck driver.

In the second embodiment, a plurality of node type delivery processes are adopted between the delivery site and the receiving site of the goods, namely, a plurality of delivery bins and receiving bins are connected in series to form the delivery bin of the previous node delivery process, namely, the receiving bin of the next node delivery process is the necessary bin of the next node delivery process.

The embodiment III, with above embodiment difference lie in, APP binds through the bluetooth with intelligent hardware, and in the driver's cabin that intelligent hardware is fixed in the freight train, be equipped with voice broadcast module and GPS orientation module in the intelligent hardware, intelligent hardware broadcasts the information of the cloud platform feedback that the module was received by APP through voice broadcast, and GPS orientation module is used for fixing a position the positional information of freight train, feeds back to the cloud platform through APP.

The technical features mentioned above are combined with each other to form various embodiments which are not listed above, and all of them are regarded as the scope of the present invention described in the specification; also, modifications and variations may be suggested to those skilled in the art in light of the above teachings, and it is intended to cover all such modifications and variations as fall within the true spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. An intelligent cloud warehouse mode based on cooperative operation of a plurality of logistics companies is characterized by comprising a logistics company union, a cloud platform and intelligent hardware, wherein the logistics company union realizes data interaction with the cloud platform through the intelligent hardware, and the logistics company union comprises at least two logistics companies; the intelligent cloud storage mode comprises the following steps:

s1, pushing the waybill by a delivery logistics company in the logistics company union;

s2, processing by the cloud platform, wherein the cloud platform receives the waybill of a delivery logistics company in the logistics company alliance, identifies waybill information and carries out delivery operation on goods of the delivery logistics company;

s3, planning by a cloud platform, wherein the cloud platform carries out distribution planning on goods corresponding to the waybill by identifying waybill demand information, and pushes the waybill information to a logistics site of a corresponding delivery logistics company;

s4, the logistics station receives the freight note information, and the logistics station of the delivery logistics company receives the freight corresponding to the freight note and performs warehousing operation;

step S01 is also included before step S1, a logistics company union is established.

2. The intelligent cloud warehouse mode based on the cooperative operation of multiple logistics companies as claimed in claim 1, wherein the step S1 further comprises the steps of S11, the shipping logistics company fills out waybill information; and S12, uploading the waybill information to the cloud platform by the delivery logistics company.

3. The intelligent cloud warehouse mode based on the cooperative operation of the logistics companies of claim 2, wherein the waybill information comprises a waybill number, a delivery warehouse, a receiving warehouse, a cargo volume, a cargo weight, a cargo class, a waybill generation time, a shipping logistics company, an ID of the shipping logistics company and a waybill state.

4. The intelligent cloud storage mode based on cooperative operation of multiple logistics companies as claimed in claim 3, further comprising step S31 after step S3, after receiving information from APP in the warehouse, determining whether to pick up goods and feeding back the information to the cloud platform.

5. The intelligent cloud warehouse mode based on cooperative operation of multiple logistics companies of claim 4 is characterized in that when cargos are loaded and unloaded, waybill scanning is carried out through intelligent hardware or APP, and position information is uploaded to a cloud platform through the intelligent hardware or APP.

6. The intelligent cloud storehouse mode based on operation of many logistics companies cooperation of claim 5, characterized in that, APP and intelligent hardware bind through the bluetooth, and intelligent hardware is fixed in the driver's cabin of freight train, is equipped with voice broadcast module and GPS orientation module in the intelligent hardware, and intelligent hardware reports the information of the cloud platform feedback that is received by APP through voice broadcast module, and GPS orientation module is used for fixing a position the positional information of freight train, feeds back to the cloud platform through APP.

7. The intelligent cloud storehouse mode based on operation is collaborated to many logistics company of claim 6, characterized in that, intelligent hardware includes pedestal and scanning body, scanning body dismantlement formula is fixed in on the pedestal, the pedestal is fixed in the driver's cabin of freight train, be equipped with voice broadcast module and GPS orientation module in the pedestal, GPS orientation module is used for the positional information of real-time location freight train, the voice broadcast module is used for reporting the information of the cloud platform feedback that APP received.

8. The intelligent cloud warehouse mode based on cooperative operation of multiple logistics companies of claim 1, wherein the receiving warehouse and the sending warehouse are any warehouse in a logistics company union.

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