CN110930162A - Stacking product flow direction tracing system and method - Google Patents

Abstract

The invention provides a stack-shifting product flow direction tracing system and a stack-shifting product flow direction tracing method, wherein the method comprises the following steps: s101: acquiring the corresponding relation between the packing box and the tray, and determining a stack shifting tray corresponding to the packing box according to the corresponding relation, wherein the packing box stores products; s102: receiving an input delivery instruction, judging whether the delivery instruction is delivery of the whole stack according to the delivery instruction, if not, executing S103, and if so, executing S104; s103: determining the flow direction of the products of the packaging box according to the delivery object; s104: and acquiring the delivery object corresponding to the stack-shifting tray and the flow direction of the packaging box of the delivery object, and taking the flow direction of the packaging box as the stack-shifting packaging box and the stack-shifting flow direction of the product of the stack-shifting packaging box. The method and the device can acquire the stack shifting tray corresponding to the packing box and determine the flow direction of the stacked products according to the stack shifting tray, thereby providing direction and basis for accurate flow direction query and facilitating better product flow direction control for users.

Description

Stacking product flow direction tracing system and method

Technical Field

The invention relates to the field of product tracing, in particular to a flow direction tracing system and a flow direction tracing method for a stack-shifting product.

Background

Currently, all the products are traced only in the production and logistics links, and the production link provides an identification information code with a designated number (numbers or letters) for each product (the identification information code can be digitally printed or labeled on the product or the package); the logistics link scans the bar code on the packing box of the product out of the warehouse and automatically records the selling area, and the association relation and the information out of the warehouse among different identifiers on the first, second and third-level packages of the product can be realized according to the management system; the enterprise market manager or the distributor can inquire the identity code on each product at any time, and quickly confirm whether the product is fake or counterfeit and whether the product is channel conflict.

However, in the processes of scanning products out of a warehouse and delivering goods, two modes of automatic collecting and stacking and manual collecting and stacking are often adopted when box stacking association is carried out; packing box and tray that mechanical fault or equipment spurious triggering probably appear and lead to when automatic acquisition pile up neatly are related to misplace, and the case dislocation also can appear during artifical pile up neatly leads to packing box and tray to be related to misplace. Under the condition of correlation dislocation, the packing box is easily bound with a wrong delivery object, and then a wrong product flow direction is generated, so that the wrong product flow direction is difficult to acquire when the product flow direction is inquired and the product is recalled, and the accurate flow direction inquiry of the product cannot be realized.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a stack shifting product flow direction tracing system and a stack shifting product flow direction tracing method, which can acquire the stack shifting tray corresponding to a packing box and determine the flow direction of a stack shifting product according to the stack shifting tray, thereby providing direction and basis for accurate flow direction query and facilitating better product flow direction control of a user.

In order to solve the above problems, the present invention adopts a technical solution as follows: a flow direction tracing method for stack-piled products comprises the following steps:

s101: acquiring the corresponding relation between a packing box and a tray, and determining a stack shifting tray corresponding to the packing box according to the corresponding relation, wherein the packing box stores products;

s102: receiving an input delivery instruction, judging whether the delivery instruction is delivery of the whole stack according to the delivery instruction, if not, executing S103, and if so, executing S104;

s103: determining the flow direction of the products of the packing box according to the delivery object;

s104: and acquiring a delivery object corresponding to the stack-shifting tray and the flow direction of a packaging box of the delivery object, and taking the flow direction of the packaging box as a stack-shifting packaging box and the stack-shifting flow direction of a product of the stack-shifting packaging box.

Further, the step of obtaining the corresponding relationship between the packaging box and the tray further includes: and acquiring the information of the product stored in the packing box, and corresponding the information to the tray corresponding to the packing box.

Further, the step of determining the stack shifting tray corresponding to the packing box according to the corresponding relationship specifically includes: and acquiring a stack tray corresponding to the tray and presetting stack-shifting probability, and enabling the packaging box corresponding to the tray to correspond to the stack-shifting tray and the presetting stack-shifting probability.

Further, each tray corresponds to four packing boxes.

Further, the preset stack-shifting probability of two of the packing boxes is 5%, and the preset stack-shifting probability of the other two packing boxes is 0.

Further, the stack-shifting trays corresponding to two packing boxes with the preset stack-shifting probability of 5% are different.

Further, the delivery instruction comprises bulk delivery and stack delivery.

Further, the step of determining the product flow direction of the packaging box according to the delivery object specifically includes: and determining that the delivery instruction is bulk delivery, acquiring a delivery object of the packaging box, and taking the flow direction of the packaging box of the delivery object as the flow direction of the packaging box and the products stored in the packaging box.

Further, the step of flowing the packing boxes to a stacked packing box and a stacked flow direction of the products of the stacked packing boxes further comprises: and acquiring the delivery object of the tray and the flow direction of the packaging box of the delivery object, and flowing the packaging box to the flow direction of the product serving as the non-stack packaging box.

Based on the same inventive concept, the application also provides a flow direction tracing system for stack-shifting products, the system comprises a processor and a memory, the processor is connected with the memory, the memory stores a computer program, and the processor executes the computer program to realize the flow direction tracing method for stack-shifting products.

Compared with the prior art, the invention has the beneficial effects that: can acquire scurrying a buttress tray that the packing box corresponds to scurrying the product flow direction of buttress according to this scurrying a buttress tray and confirming, thereby for accurate flow direction inquiry provide direction and foundation, the better product flow direction control of the user of being convenient for.

Drawings

Fig. 1 is a flow chart of an embodiment of a flow direction tracing method for stacked products according to the invention;

FIG. 2 is a link diagram of an embodiment of a product production to flow direction query in the flow direction tracing method for stacked products according to the present invention;

fig. 3 is a structural diagram of an embodiment of the flow direction tracing system of the stacked product of the present invention;

fig. 4 is a flowchart of an embodiment of a method for tracing a flow direction of a stacked product executed by a processor of a stacked product flow direction tracing system according to the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

Referring to fig. 1 and 2, fig. 1 is a flow chart of an embodiment of a flow direction tracing method for stacked products according to the present invention; fig. 2 is a link diagram of an embodiment of the product production to flow direction query in the flow direction tracing method for stacked products according to the present invention. The method for tracing the flow direction of the stacked products according to the present invention is specifically described with reference to fig. 1 and 2.

S1: and acquiring the corresponding relation between the packing box and the tray, and determining the stack shifting tray corresponding to the packing box according to the corresponding relation, wherein the packing box stores products.

In this embodiment, the packing boxes are arranged on the trays, and each tray corresponds to the packing box arranged on the tray according to the information of the packing box borne or contained by the tray. After the packing boxes correspond to the trays, the serial numbers and the serial numbers of the products stored in each packing box and other information used for identifying different products are obtained, the information corresponds to the packing boxes for storing the products, and the information further corresponds to the trays corresponding to the packing boxes.

In this embodiment, after the information corresponding to the packaging box and the tray and the information corresponding to the product and the tray are obtained, the information is stored so that the user can inquire the position information of the product and provide reference and basis for the inquiry of the flow direction of the product.

In this embodiment, the device for executing the flow direction tracing method of the stack product can be a computer, a server or other devices capable of receiving and executing instructions.

In this embodiment, prestore has scurring a jam tray that every tray corresponds and packing box on this tray and scurring a jam tray probably because artifical or mechanical error mistake is associated or the corresponding predetermine and scurries a jam probability, acquires the packing box that the tray corresponds after, with this packing box with predetermine and scurring a jam tray and correspond, will predetermine and scurrie a jam probability as the packing box probably with scurring a jam tray mistake probability of corresponding.

The stack shifting tray and the preset stack shifting probability can be determined according to the position relation among the trays and the history record of the stack shifting situation, and can also be determined in other modes without limitation.

In this embodiment, four packing boxes may be disposed on each tray, that is, each tray corresponds to four packing boxes. In other embodiments, each tray may also correspond to 1, 2, 3, and other quantities of packaging boxes, and the specific correspondence may be determined according to the quantity of the packaging boxes set on the tray, and it is only necessary that each tray can correspond to the packaging boxes set on the tray, which is not limited herein.

In this embodiment, the tray is only one device for carrying or accommodating the stacked packaging boxes, and in other embodiments, the tray may be a chassis, a stacking area, a container, a warehouse, or other devices or areas capable of accommodating the stacked packaging boxes, and is not limited herein.

In this embodiment, the correspondence relationship between the packing boxes and the trays can be represented by correspondence probability, and the sum of the correspondence probability that there is a possibility of stack-shifting and the preset stack-shifting probability is 1.

The corresponding relation between the packing box and the tray and the preset stack-shifting probability are explained in the following.

1. Corresponding relation between packing box and tray and preset stack-shifting probability

It can be seen from the table that 001-.

In the production process, when the production line equipment is in a fault shutdown or the acquisition equipment is triggered by mistake and other unavoidable abnormal conditions, the packing boxes in A01 are stacked into A00 or A02 and the packing boxes in A02 are stacked into A01 or A03 at a probability of 10%.

The pre-set stacking probability of two packing boxes in each tray is 5%, and the pre-set stacking probability of the other two packing boxes is 0. And the stack-shifting trays corresponding to two packing boxes with the preset stack-shifting probability of 5% are different.

In other embodiments, the preset stack-shifting probability may be 3%, 4% and other data, and the preset stack-shifting probability of the packaging box corresponding to each tray may also be the same or corresponding to the same stack-shifting tray, and the preset stack-shifting probability may be 10% or other probability. The user may determine the information according to the actual situation, which is not described herein.

In the above embodiment, the preset stack-shifting probability and the stack-shifting tray corresponding to each tray may be input or stored before obtaining the corresponding relationship between the packaging box and the tray, or may be input or obtained after obtaining the corresponding relationship between the packaging box and the tray, which is not limited herein.

S102: receiving an input shipping instruction, judging whether the shipping instruction is the whole stack shipping according to the shipping instruction, if not, executing S103, and if so, executing S104.

In this embodiment, when the product is sold and delivered out of the warehouse, the whole stack delivery and the bulk delivery are performed in two modes, and if the delivery object is taken out of the warehouse and bound according to the whole stack, the stacked packaging boxes in each tray have a probability of being out of the stacked packaging boxes of the current tray by 10%; the problem of stack shifting can not occur in bulk delivery, and the packaging box can be directly corresponding to a corresponding delivery object.

Therefore, when a delivery instruction is obtained, whether the delivery is finished stack delivery needs to be judged according to the delivery instruction, and if yes, stack shifting trays corresponding to the packaging boxes are not adjusted, and stack shifting probability is not preset. If not, when the delivery instruction is bulk delivery, setting the corresponding probability of the packaging box delivered by the bulk delivery and the tray where the packaging box is located as 1, removing the stack-shifting tray corresponding to the packaging box and the preset stack-shifting probability, and associating or corresponding the packaging box with a delivery object.

In this embodiment, the shipping object is a distributor, and in other embodiments, the shipping object may be a manufacturer to be shipped, a shipping address, and other objects that are in the next flow of the product in the package.

In this embodiment, the shipping instruction includes entire stack shipping and bulk box shipping, and in other embodiments, the shipping instruction may also include unpacking the packaging boxes, product bulk shipping and partial entire stack shipping, partial bulk box shipping or a combination of the above instructions.

In this embodiment, the shipping instruction may be manually input by the user, may be input through the internet, or may be preset, which is not limited herein.

S103: the flow direction of the product of the packaging box is determined according to the delivery object.

After determining that the delivery instruction is not the instruction of whole stack delivery but bulk delivery, acquiring the information of the delivered packaging box and the information of the delivery object, and corresponding the packaging information to the delivery object. And acquires information on a product corresponding to the package to be shipped, and associates the information on the product with the shipment target. And the pre-stored flow direction information of the packing box corresponding to the delivery object is used as the product flow direction information of the product.

In this embodiment, after the information of the product is associated with the delivery object, the flow direction information of the packaging box fed back by the delivery object may be acquired, and the flow direction information of the packaging box may be stored as the flow direction of the product in the packaging box to be delivered.

S104: and acquiring the delivery object corresponding to the stack-shifting tray and the flow direction of the packaging box of the delivery object, and taking the flow direction of the packaging box as the stack-shifting packaging box and the stack-shifting flow direction of the product of the stack-shifting packaging box.

In this embodiment, when it is determined that the shipping instruction is for entire stack shipping, information of a shipped tray is obtained, and information of a packaging box corresponding to the tray and a packaging box with a preset stack-fleeing probability greater than zero in the packaging box is obtained according to the information. And determining the information of the stack-shifting tray according to the information of the packaging boxes, and acquiring the delivery object corresponding to the stack-shifting tray and the flow direction of the packaging boxes corresponding to the delivery object. And the flow direction of the packing box is taken as the flow direction of the packing box with the preset stack-shifting probability larger than zero and the stack-shifting flow direction of the products of the packing box during stack-shifting.

After the stack shifting flow direction is obtained, the delivery object information of the delivered tray is obtained, the flow direction of the packing box corresponding to the delivery object is determined according to the information, the flow direction of the packing box is taken as the flow direction of the packing box which is not stacked in the tray, and the flow direction of the packing box which is not stacked is taken as the flow direction of the product in the packing box.

In a specific embodiment, the corresponding relationship between the packing box and the tray is shown in table 1, the packing box 001-.

Compared with the prior art, the flow direction tracing method for stack-alternating products has the beneficial effects that: can acquire scurrying a buttress tray that the packing box corresponds to scurrying the product flow direction of buttress according to this scurrying a buttress tray and confirming, thereby for accurate flow direction inquiry provide direction and foundation, the better product flow direction control of the user of being convenient for.

Based on the same inventive concept, the invention also provides a flow direction tracing system for stack-alternating products, please refer to fig. 3 and 4, fig. 3 is a structural diagram of an embodiment of the flow direction tracing system for stack-alternating products according to the invention; fig. 4 is a flowchart of an embodiment of a method for tracing a flow direction of a stacked product executed by a processor of a stacked product flow direction tracing system according to the present invention. The flow direction tracing system of the stacked products of the present invention will be further described with reference to fig. 3 and 4.

The flow direction tracing system for the stack-alternating products comprises a processor and a memory, wherein the processor is connected with the memory, the memory stores a computer program, and the processor executes the computer program to realize the flow direction tracing method for the stack-alternating products as follows:

s201: and acquiring the corresponding relation between the packing box and the tray, and determining the stack shifting tray corresponding to the packing box according to the corresponding relation, wherein the packing box stores products.

In this embodiment, the packing boxes are arranged on the trays, and the processor corresponds each tray to the packing box arranged on the tray according to the information of the packing box borne by or contained in the tray. After the packing boxes correspond to the trays, the serial numbers and the serial numbers of the products stored in each packing box and other information used for identifying different products are obtained, the information corresponds to the packing boxes for storing the products, and the information further corresponds to the trays corresponding to the packing boxes.

In this embodiment, the processor and the memory may be disposed together, for example, on the same computer, mobile phone, server, and other devices capable of receiving instructions for executing instructions, or may be disposed separately on different devices, for example, the processor and the memory are disposed separately on different servers or devices, and the two are connected through a network cable or a cloud, which is not limited herein

In this embodiment, after the processor obtains the information corresponding to the packaging box and the tray and the information corresponding to the product and the tray, the information is stored so that the user can inquire the position information of the product and provide reference and basis for the inquiry of the flow direction of the product.

In this embodiment, the processor prestores the stack shifting tray corresponding to each tray and the preset stack shifting probability that the packing boxes on the tray and the stack shifting tray are associated or correspond due to manual or mechanical error through the memory, and after the packing boxes corresponding to the trays are obtained, the packing boxes correspond to the preset stack shifting tray, and the preset stack shifting probability is used as the probability that the packing boxes are possibly in wrong correspondence with the stack shifting tray.

The stack shifting tray and the preset stack shifting probability can be determined according to the position relation among the trays and the history record of the stack shifting situation, and can also be determined in other modes without limitation.

In this embodiment, four packing boxes may be disposed on each tray, that is, each tray corresponds to four packing boxes. In other embodiments, each tray may also correspond to 1, 2, 3, and other quantities of packaging boxes, and the specific correspondence may be determined according to the quantity of the packaging boxes set on the tray, and it is only necessary that each tray can correspond to the packaging boxes set on the tray, which is not limited herein.

In this embodiment, the tray is only one device for carrying or accommodating the stacked packaging boxes, and in other embodiments, the tray may be a chassis, a stacking area, a container, a warehouse, or other devices or areas capable of accommodating the stacked packaging boxes, and is not limited herein.

In this embodiment, the correspondence relationship between the packing boxes and the trays can be represented by correspondence probability, and the sum of the correspondence probability that there is a possibility of stack-shifting and the preset stack-shifting probability is 1.

The following is a description of table 2, the corresponding relationship between the packing boxes and the trays, and the predetermined stacking probability.

2. Corresponding relation between packing box and tray and preset stack-shifting probability

It can be seen from the table that 001-.

In the production process, when the production line equipment is in a fault shutdown or the acquisition equipment is triggered by mistake and other unavoidable abnormal conditions, the packing boxes in A01 are stacked into A00 or A02 and the packing boxes in A02 are stacked into A01 or A03 at a probability of 10%.

The pre-set stacking probability of two packing boxes in each tray is 5%, and the pre-set stacking probability of the other two packing boxes is 0. And the stack-shifting trays corresponding to two packing boxes with the preset stack-shifting probability of 5% are different.

In other embodiments, the preset stack-shifting probability may be 3%, 4% and other data, and the preset stack-shifting probability of the packaging box corresponding to each tray may also be the same or corresponding to the same stack-shifting tray, and the preset stack-shifting probability may be 10% or other probability. The user may determine the information according to the actual situation, which is not described herein.

In the above embodiment, the preset stack-shifting probability and the stack-shifting tray corresponding to each tray may be input or stored before obtaining the corresponding relationship between the packaging box and the tray, or may be input or obtained after obtaining the corresponding relationship between the packaging box and the tray, which is not limited herein.

S202: receiving an input shipping instruction, judging whether the shipping instruction is the whole stack shipping according to the shipping instruction, if not, executing S203, and if so, executing S204.

In this embodiment, when the product is sold and delivered out of the warehouse, the whole stack delivery and the bulk delivery are performed in two modes, and if the delivery object is taken out of the warehouse and bound according to the whole stack, the stacked packaging boxes in each tray have a probability of being out of the stacked packaging boxes of the current tray by 10%; the problem of stack shifting can not occur in bulk delivery, and the packaging box can be directly corresponding to a corresponding delivery object.

Therefore, when acquiring a delivery instruction, the processor needs to judge whether the delivery is finished stack delivery according to the delivery instruction, and if so, stack shifting trays corresponding to the packaging boxes are not adjusted, and stack shifting probability is not preset. If not, when the delivery instruction is bulk delivery, setting the corresponding probability of the packaging box delivered by the bulk delivery and the tray where the packaging box is located as 1, removing the stack-shifting tray corresponding to the packaging box and the preset stack-shifting probability, and associating or corresponding the packaging box with a delivery object.

In this embodiment, the shipping object is a distributor, and in other embodiments, the shipping object may be a manufacturer to be shipped, a shipping address, and other objects that are in the next flow of the product in the package.

In this embodiment, the shipping instruction includes entire stack shipping and bulk box shipping, and in other embodiments, the shipping instruction may also include unpacking the packaging boxes, product bulk shipping and partial entire stack shipping, partial bulk box shipping or a combination of the above instructions.

In this embodiment, the shipping instruction may be manually input by the user, may be input through the internet, or may be preset, which is not limited herein.

S203: the flow direction of the product of the packaging box is determined according to the delivery object.

And after determining that the delivery instruction is not the instruction of whole stack delivery but bulk delivery, the processor acquires the information of the delivered packaging box and the information of the delivery object, and corresponds the packaging information to the delivery object. And acquires information on a product corresponding to the package to be shipped, and associates the information on the product with the shipment target. And the pre-stored flow direction information of the packing box corresponding to the delivery object is used as the product flow direction information of the product.

In this embodiment, the processor may obtain the flow direction information of the packing box fed back by the delivery object after associating the information of the product with the delivery object, and store the flow direction information of the packing box as the flow direction of the product in the packing box to be delivered.

S204: and acquiring the delivery object corresponding to the stack-shifting tray and the flow direction of the packaging box of the delivery object, and taking the flow direction of the packaging box as the stack-shifting packaging box and the stack-shifting flow direction of the product of the stack-shifting packaging box.

In this embodiment, when determining that the shipping instruction is for entire stack shipping, the processor acquires information of a shipped tray, and acquires information of a packaging box corresponding to the tray and a packaging box with a preset stack-shifting probability greater than zero in the packaging box according to the information. And determining the information of the stack-shifting tray according to the information of the packaging boxes, and acquiring the delivery object corresponding to the stack-shifting tray and the flow direction of the packaging boxes corresponding to the delivery object. And the flow direction of the packing box is taken as the flow direction of the packing box with the preset stack-shifting probability larger than zero and the stack-shifting flow direction of the products of the packing box during stack-shifting.

After acquiring the flow of stack movement, the processor acquires information of a delivery object of a delivered tray, determines a flow direction of a packaging box corresponding to the delivery object according to the information, takes the flow direction of the packaging box as the flow direction of a packaging box which is not stacked in the tray, and further takes the flow direction of the packaging box which is not stacked as the flow direction of a product in the packaging box.

In a specific embodiment, the correspondence between the packing box and the tray is shown in table 2, the packing box 001-.

Compared with the prior art, the flow direction tracing system for stack-alternating products has the beneficial effects that: can acquire scurrying a buttress tray that the packing box corresponds to scurrying the product flow direction of buttress according to this scurrying a buttress tray and confirming, thereby for accurate flow direction inquiry provide direction and foundation, the better product flow direction control of the user of being convenient for.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (10)

1. A stack product flow direction tracing method is characterized by comprising the following steps:

s101: acquiring the corresponding relation between a packing box and a tray, and determining a stack shifting tray corresponding to the packing box according to the corresponding relation, wherein the packing box stores products;

s102: receiving an input delivery instruction, judging whether the delivery instruction is delivery of the whole stack according to the delivery instruction, if not, executing S103, and if so, executing S104;

s103: determining the flow direction of the products of the packing box according to the delivery object;

s104: and acquiring a delivery object corresponding to the stack-shifting tray and the flow direction of a packaging box of the delivery object, and taking the flow direction of the packaging box as a stack-shifting packaging box and the stack-shifting flow direction of a product of the stack-shifting packaging box.

2. The method for tracing the flow direction of a stacked product according to claim 1, wherein said step of obtaining the correspondence between the packing boxes and the trays further comprises:

and acquiring the information of the product stored in the packing box, and corresponding the information to the tray corresponding to the packing box.

3. The method for tracing the flow direction of a stacked product according to claim 1, wherein the step of determining the stacked tray corresponding to the packing box according to the correspondence specifically comprises:

and acquiring a stack tray corresponding to the tray and presetting stack-shifting probability, and enabling the packaging box corresponding to the tray to correspond to the stack-shifting tray and the presetting stack-shifting probability.

4. A method for tracing the flow direction of a stacked product according to claim 3, wherein each of said trays corresponds to four packing boxes.

5. The flow direction tracing method for overlapped products according to claim 4, wherein the predetermined overlapping probability of two packing boxes is 5%, and the predetermined overlapping probability of the other two packing boxes is 0.

6. The flow direction tracing method for overlapped products according to claim 5, wherein the two packing boxes with a predetermined overlapping probability of 5% have different overlapping trays.

7. The method for tracing the flow direction of stacked products according to claim 1, wherein the delivery instruction includes bulk delivery and stack delivery.

8. The method for tracing the flow direction of stacked products according to claim 7, wherein the step of determining the flow direction of the products of the packing boxes according to the delivery objects specifically comprises:

and determining that the delivery instruction is bulk delivery, acquiring a delivery object of the packaging box, and taking the flow direction of the packaging box of the delivery object as the flow direction of the packaging box and the products stored in the packaging box.

9. The method for tracing the flow direction of a piled product according to claim 1, wherein the step of flowing the packing boxes to the piled packing boxes as the piled packing boxes and the flow direction of the piled products of the piled packing boxes further comprises:

and acquiring the delivery object of the tray and the flow direction of the packaging box of the delivery object, and flowing the packaging box to the flow direction of the product serving as the non-stack packaging box.

10. A flow direction tracing system for a stack-by-stack product, the system comprising a processor and a memory, the processor being connected to the memory, the memory storing a computer program, the processor executing the computer program to implement the flow direction tracing method for a stack-by-stack product according to any one of claims 1 to 9.

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