CN110223015B - Logistics process link processing method, management system, device and storage equipment - Google Patents

Abstract

The invention discloses a logistics flow link processing method, a management system, a management device and storage equipment, and relates to the technical field of logistics management. The technical key points of the logistics flow link processing method comprise the steps of obtaining the problem of goods to be followed and the flow link of the goods; acquiring a corresponding influence flow link based on the problem to be followed; detecting whether the next process link of the goods belongs to the process influencing link; if not, the goods enter the next process link; if yes, the method stays in the current flow link, and the method has the advantage of improving the problem piece processing efficiency.

Description

Logistics process link processing method, management system, device and storage equipment

Technical Field

The present invention relates to the technical field of logistics management, and more particularly, to a method, a management system, an apparatus, and a storage device for processing a logistics process.

Background

The logistics industry is the industry greatly influenced by the outside world, and different logistics channel companies can make pricing rules according to the characteristics of the companies. Therefore, when the customer provides different goods to the front-end logistics company, the front-end logistics company needs to select a logistics channel company suitable for the customer according to the characteristics of the goods provided by the customer.

The customer provides the data provided for the front-end logistics company, and the conditions of the logistics channel company are not filled in or the filling is different from the actual conditions; these gaps sometimes lead to a change in the price quote of the logistics channel company and sometimes lead to the logistics channel company rejecting the goods; thus causing certain problems at the front end logistics companies.

The existing front-end logistics companies generally have own logistics management systems, and the logistics management systems generally have processing methods before problem parts are delivered. And the method for processing the problem parts in the logistics flow link is generally simple, all flows of the problem parts are stopped immediately as long as the problem parts appear, and the customers are contacted. In order to avoid process confusion, all the checked problem pieces need to be re-run after the problem processing is finished, so that the problem piece processing time is long, and the problem piece processing efficiency of a front-end logistics company is affected.

Disclosure of Invention

In view of the prior art, a first objective of the present invention is to provide a method for processing a logistics process link, which has an advantage of improving efficiency of processing a problem part.

In order to achieve the purpose, the invention provides the following technical scheme: a logistics flow process link processing method comprises the following steps:

obtaining the problem of goods to be followed and the process link of the goods;

based on the problem to be followed, acquiring a corresponding influence flow link;

detecting whether the next process link of the goods belongs to the process influencing link;

if not, the goods enter the next process link; if yes, stopping in the current flow link.

By adopting the technical scheme, because the influence flow links are generated according to the problems to be followed, when the problems occur in the cargo processing process, the problems to be followed can be generated; after the problem is generated, the goods cannot stop and can be judged, and if the problem to be followed does not influence the next link, the goods can continue to the next process link. Therefore, when the problem of the client is solved, the goods can still continue to flow until the link of influence; after the problem is solved, the problem that the goods are to follow is solved, and the influence on the process link disappears, so that the process continuation of the goods can be realized; thereby promoting the processing efficiency of the problem piece.

The invention is further configured to: the to-be-followed questions include flow questions automatically generated by the system and question piece questions based on manual entry.

By adopting the technical scheme, the flow problems and the problem parts are all included in the problem to be followed, so that the execution flows of all the goods need to be moved according to the unified standard, the specific classification of operators is not needed, and the cost for processing the problem parts is reduced.

The invention is further configured to: the flow link influencing the problem to be followed comprises a single flow link or a flow link set consisting of a plurality of flow links.

By adopting the technical scheme, the influence links of the problem to be followed can be distributed according to the characteristics of the problem; when the problem influence range is wide, whenever the problem is found, the process link of the goods can be stopped.

The invention is further configured to: the flow links comprise necessary flows and unnecessary flows, and the unnecessary flows are added based on manual entry.

By adopting the technical scheme, some selectable processes can be added in the process link according to different products and channels of the customer, so that the adaptability of the goods to the processes is realized.

The invention is further configured to: and when detecting that the next cargo flow link belongs to the flow affecting link, outputting the stopping indication information.

By adopting the technical scheme, the stopping indication information is given, and the information interaction is carried out, so that an operator can know that the existing flow link is not processed completely, and the indicating effect is achieved.

A second object of the present invention is to provide a logistics management system, which has the advantage of improving the problem part processing efficiency.

In order to achieve the purpose, the invention provides the following technical scheme: the logistics management system of the method of the first object is characterized in that: the method comprises the following steps:

a flow link database for storing flow link information;

the pointer unit is internally provided with an execution sequence used for executing the process links of the process link database according to a preset sequence;

the detection unit is used for detecting and recording a flow link pointed by the current pointer unit and a next flow link pointed by the pointer;

the problem database is used for recording the problems to be followed;

the influence link acquisition unit correspondingly generates an influence flow link based on the problem to be followed in the problem database; and

and the judging unit is used for judging whether the next process link pointed by the pointer unit is contained in the influenced process links or not.

By adopting the technical scheme, the flow link database is matched with the pointer unit, so that the flow link of the goods can be carried out according to the preset link; the detection unit is used for acquiring next process link information by detecting the pointer direction of the pointer unit; and the influence link acquisition unit can correspondingly generate an influenced flow link according to the to-be-followed problem recorded in the problem database. Whether the next process link is included in the affected process links or not is judged through the judging unit, so that whether the existing process links are processed or not can be rapidly known. When the next flow Cheng Huanjie is unaffected, the cargo can go to the next link. The adaptation to the flows of all goods is realized, and after the problem piece appears, the problem piece can normally run the flow until reaching the influence link, thereby accelerating the processing efficiency of the problem piece.

The invention is further configured to: an execution unit for moving the to-be-followed question mark in the question database to a processed question of the question database is also included.

By adopting the technical scheme, when the problem to be followed is processed, the processed problem to be followed is moved into the processed problem of the problem database through manual operation; the execution unit records the whole process, so that the whole process information of the goods can be conveniently inquired when the whole process information of the goods needs to be inquired.

The invention is further configured to: the system also comprises an indicating unit used for outputting the stay indicating information.

Through adopting above-mentioned technical scheme, instruction unit output stops the instruction for operating personnel knows that the goods is in the state of stopping.

The third objective of the present invention is to provide a device for processing logistics process links, which has the advantage of improving the processing efficiency of problematic parts.

In order to realize the purpose, the invention provides the following technical scheme: a device for processing logistics process links comprises a processor and a memory;

the memory is used for storing a program for supporting the device to execute the method described for the first purpose, and

storing data relating to a method according to any one of the first object;

the processor is configured to execute programs stored in the memory.

A fourth object of the present invention is to provide a mobile storage apparatus, which has the advantage of improving the problem part processing efficiency.

In order to realize the purpose, the invention provides the following technical scheme: a removable storage device comprising instructions which, when executed on a computer, cause the computer to perform the method of the first object.

Compared with the prior art, the invention has the beneficial effects that:

(1) After the goods have problems, when the problems do not influence the subsequent flow, the goods are moved; thereby improving the processing efficiency of the defective goods;

(2) Adding some selectable processes according to different products and channels of the customers to realize the adaptability of the goods to the processes;

(3) The problems of the process and the problem pieces are classified into the problems to be followed, specific classification of operators is not needed, and the cost of classifying the problem pieces is reduced.

Drawings

Fig. 1 is a block diagram showing the structure of a logistics management system;

FIG. 2 is a schematic diagram of the necessary process steps;

fig. 3 is a flow diagram of a logistics flow process link processing method.

Reference numerals: 101. a flow link database; 102. a pointer unit; 103. a detection unit; 104. a problem database; 105. an influence link acquisition unit; 106. an execution unit; 107. a determination unit; 108. and an indication unit.

Detailed Description

The invention is described in detail below with reference to the figures and examples.

A logistics management system, as shown in fig. 1, includes a process link database 101 storing process link information; a pointer unit 102 is arranged in the flow link database 101, and the pointer unit 102 is used for enabling the flow links to be executed according to a preset sequence; a detection unit 103 for detecting a current process link and a next process link pointed to by the pointer unit 102; a question database 104 storing questions to follow; an influence link obtaining unit 105 which correspondingly generates an influence flow link based on the problem to be followed in the problem database 104; an execution unit 106 for moving the to-be-followed question out of the question database 104; a determination unit 107 for determining whether the next process link pointed to by the pointer unit 102 is included in the affected process links; and an instruction unit 108 for outputting stay instruction information.

As shown in fig. 1, the process link database 101 stores information of all the process links of the logistics; the process link information includes necessary process link information and unnecessary process link information. The information of necessary process links comprises the steps of distributing goods, checking goods, confirming the goods distribution, making a bill, confirming customers, uploading information, putting goods, printing a label, scanning a base bill, printing a plate and delivering goods, wherein the step 2 is shown in the figure: and unnecessary process link information includes detecting MSDS and providing cargo type.

Specifically, in the actual process link, warehousing is to move the goods into a warehouse; the goods distribution is to classify the goods based on goods data and a conveying channel; the goods inspection is to inspect the goods and detect whether contraband and channel contraband products exist; confirming whether the goods sorting is correct or not for checking the goods sorting; the order making is to make an electronic form according to the cargo information; the customer confirms that the electronic form is sent to the customer, and the customer confirms whether the information is accurate or not; the uploading information is that the information confirmed by the client is uploaded to a server; the step of putting goods is to move the goods from a warehouse to a storage yard; printing a label, printing a bar code, and sticking the bar code on the goods; beating the plate, moving the goods to the pallet for waiting to be transported; shipment, which is the shipment of goods out of the company. Detecting MSDS detects whether customer supplied material is consistent with the goods. The goods type is provided by querying the customer for goods type information.

The pointer unit 102 provides a flow link indication sequence, so that the flow links are performed in the order of distribution, checking, confirming distribution, making a receipt, confirming by a client, uploading information, putting goods, printing a label, scanning a base receipt, printing a plate and discharging only in necessary flow links. When the MSDS detection and the cargo type providing are added to an unnecessary process, the pointer unit 102 will first point to the MSDS detection and the cargo type providing and then point to the cargo checking when the process of cargo distribution is completed.

The detection unit 103 obtains corresponding process link information by obtaining what the current pointer unit 102 points to and what the pointer unit 102 points next; and can transmit the obtained next procedure link to the determination unit 107.

The questions to be followed and the processed questions are entered in the question database 104; the to-follow-up questions include flow questions automatically generated by the system and question-piece questions based on manual entry. The process problems generated by the system comprise the to-be-distributed goods, the to-be-checked goods, the to-be-confirmed goods distribution, the to-be-made bill, the to-be-confirmed customer confirmation, the to-be-uploaded information, the to-be-put goods, the to-be-printed Label, the to-be-scanned base bill, the to-be-printed board, the to-be-delivered goods, the to-be-detected MSDS and the to-be-provided goods type related to the process. The problem part problem of manual input comprises a goods distribution process link, a goods inspection process link or a customer confirmation link, an operator finds and inputs the problem, and the problem part problem comprises goods forbidden transportation, goods price difference, goods return application and the like.

The influence link obtaining unit 105 correspondingly generates an influenced flow link based on the follow-up problem in the problem database 104; all the problems to be followed are preset with corresponding influencing flow links, and the influencing flow links comprise a single flow link or a flow link set consisting of a plurality of flow links.

Specifically, the influence flow link of the goods to be distributed is a goods searching flow link, the influence flow link of the goods to be searched is a goods distribution confirming flow link, the influence flow link of the goods to be confirmed is a goods manufacturing flow link, the influence flow link of the goods to be manufactured is an information uploading flow link, the influence flow link of the goods to be confirmed by a client is an information uploading flow link, the influence flow link of the information to be uploaded is a Label printing flow link, the influence flow link of the goods to be released is a Label printing flow link, the influence flow link of the Label to be printed is a bottom bill scanning flow link, the influence flow link of the bottom bill to be scanned is a plate printing flow link, the influence flow link of the plate to be printed is a goods discharging flow link, the influence flow link of the goods to be discharged has no influence on the flow link, the influence flow link of the MSDS to be detected is a goods manufacturing flow link, and the influence flow link of the goods type to be provided is a goods manufacturing flow link. The influence flow links of goods forbidden transport are all flow links, the influence flow links of goods with different prices are a system flow link and a customer confirmation flow link, and the influence flow links of goods return application are all flow links. The affected flow links included in the affected link acquisition unit 105 are therefore a set of affected flow links for the included to-be-followed problem.

The execution unit 106 adds a processed tag to the to-be-followed question which is already processed in the question database 104, and moves the tag into the category of the processed question in the question database 104; further, in order to more comprehensively acquire the processed information, the question database 104 can add creator information and creation time information for creating a question to be followed; and the information of the processor who finishes processing the problem to be followed and the information of the processing time; therefore, the purposes of comprehensive recording and convenient searching are achieved.

The determining unit 107 is configured to determine whether the next process link pointed to by the pointer unit 102 is included in the affected process link, and if the next process link is included in the affected process link, output an execution signal to the indicating unit 108, so that the indicating unit 108 outputs a stay indication, and so that the pointer of the pointer unit 102 is maintained at the existing process link. If not, the next process element pointed to by the pointer unit 102 is made.

The instruction unit 108 gives a stay instruction through the output display window.

As shown in fig. 3, the method for processing logistics process links includes:

s1, acquiring a problem to be followed of goods and a process link of the goods;

the problem to be followed of the goods is obtained based on the problem database 104, and the process link of the goods is obtained by detecting the process link database 101 pointed by the pointer unit 102 through the detection unit 103. Due to the use of the pointer unit 102, when unnecessary links are added, the unnecessary links are directly captured from the flow link database 101 without independent addition, and the method is suitable for various flow links.

S2, acquiring a corresponding influence flow link based on the problem to be followed;

the influence link obtaining unit 105 obtains the problem to be followed in the problem processing unit, and outputs a corresponding influence flow link set according to the recorded corresponding relationship between the problem to be followed and the influence flow links.

S3, detecting whether the next process link of the goods belongs to the process influencing link, if not, the goods enter the next flow Cheng Huanjie, and if so, outputting a stopping instruction;

the detection unit 103 detects the process link pointed by the next pointer of the pointer unit 102, and obtains the process link from the process link database 101. The determining unit 107 compares one by one whether the next process link pointed by the pointer unit 102 is included in the affected process links; if the same flow links exist, the next flow link of the goods belongs to the influence flow link, and then the stay indication is output. The dwell indication may be a display output window. If the same flow links do not exist, the next flow link of the goods does not belong to the flow affecting link, and the goods enter the next flow link.

After the problem to be followed in the problem database 104 is solved, the operator can move the processed problem to be followed out of the problem database 104 through the execution unit 106; thereby, the affected flow link corresponding to the problem to be followed is moved out of the affected link obtaining unit 105. The process links originally belonging to the process influencing links are separated from the process influencing links, and the continuation of the process links is realized.

S4, detecting whether a next process link exists, if so, entering S5, and if not, ending the process;

the detection unit 103 detects a process link pointed by a next pointer of the pointer unit 102 to obtain whether a subsequent process link exists in the process link database 101; and when the goods do not exist, the goods are shown to have been completely taken out in the process links.

And S5, entering a next flow link and returning to S1.

The pointer unit 102 jumps to the flow link pointed to by the next pointer.

In the above embodiments, it may be implemented in whole or in part by software, hardware, firmware, or any combination thereof. When implemented in software, may be implemented in whole or in part in the form of a computer program product. The computer program product includes one or more computer instructions. When loaded and executed on a computer, cause the processes or functions described in accordance with embodiments of the invention, to occur, in whole or in part. The computer may be a general purpose computer, a special purpose computer, a network of computers, or other programmable device. The computer instructions may be stored in a computer readable removable storage device.

It will be understood by those skilled in the art that all or part of the steps of implementing the above embodiments may be implemented by hardware, or may be implemented by a program instructing relevant hardware, where the program may be stored in a computer-readable removable storage device, and the above-mentioned removable storage device may be a usb disk, an SSD, or a mechanical hard disk.

The above description is only a preferred embodiment of the present invention, and the scope of the present invention is not limited to the above embodiments, and all technical solutions that belong to the idea of the present invention belong to the 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. A logistics flow link processing method is characterized in that: the method comprises the following steps:

obtaining the problem of goods to be followed and the process link of the goods;

based on the problem to be followed, a corresponding influence flow link is obtained, after the problem is solved, the problem to be followed of the goods is solved, the influence flow link disappears, and the goods can be continued in the flow;

detecting whether the next process link of the goods belongs to the process influencing link;

if not, the goods enter the next process link; if yes, stopping in the current flow link.

2. The method for processing logistics process links according to claim 1, wherein: the to-be-followed questions include flow questions automatically generated by the system and question piece questions based on manual entry.

3. The method for processing logistics process links according to claim 1, wherein: the flow links affected by the problem to be followed comprise a single flow link or a flow link set formed by a plurality of flow links.

4. The method for processing logistics process links according to claim 1, wherein: the flow links comprise necessary flows and unnecessary flows, and the unnecessary flows are added based on manual entry.

5. The method for processing the logistics process links according to claim 1, wherein: and when detecting that the next cargo flow link belongs to the flow affecting link, outputting the stopping indication information.

6. A logistics management system for use in the method of any one of claims 1 to 4 wherein: the method comprises the following steps:

a flow link database (101) for storing flow link information;

the pointer unit (102) is internally provided with an execution sequence for executing the process links of the process link database (101) according to a preset sequence;

the detection unit (103) is used for detecting and recording a flow link pointed by the current pointer unit (102) and a next flow link pointed by the pointer;

a question database (104) for recording questions to be followed;

an influence link acquisition unit (105) which correspondingly generates an influence flow link based on the problem to be followed in the problem database (104);

and a determination unit (107) for determining whether the next process link pointed to by the pointer unit (102) is included in the affected process links.

7. The physical distribution management system according to claim 6, wherein: an execution unit (106) for moving the to-be-followed question mark within the question database (104) to a processed question of the question database (104) is also included.

8. The physical distribution management system according to claim 6, wherein: an indicating unit (108) for outputting stay indicating information is also included.

9. The utility model provides a device that commodity circulation flow link was handled which characterized in that: the apparatus includes a processor and a memory;

the memory is used for storing a program for supporting the device to execute the method of any one of claims 1-5 and storing data involved in implementing the method of any one of claims 1-5;

the processor is configured to execute programs stored in the memory.

10. A portable storage device, comprising: comprising instructions which, when executed on a computer, cause the computer to perform the method of any one of claims 1-5.

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