CN113313753A - Package size generation method, system, terminal and storage medium - Google Patents

Abstract

The invention discloses a method, a system, a terminal and a storage medium for generating a package size, wherein the method comprises the following steps: acquiring size parameters and demand information of accessories; determining the packing amount and the number of inner packing boxes of the accessories according to the demand information of the accessories; determining the size parameters of an inner packing box of the fittings according to the size parameters and the packing amount of the fittings; and determining the size parameters of the outer packing boxes and the number of the outer packing boxes according to the size parameters of the inner packing boxes and the number of the inner packing boxes of each fitting. The invention solves the problems that the existing method for determining the size of the packing box based on experience often causes low utilization rate of the packing box and high packing cost.

Description

Package size generation method, system, terminal and storage medium

Technical Field

The present invention relates to the field of logistics technology, and in particular, to a method, a system, a terminal, and a computer-readable storage medium for generating a package size.

Background

The packaging is used as the end point of the production process of the product, the most fundamental purpose is to protect and protect the product, and meanwhile, the packaging is used as the beginning part of the supply chain link of the logistics transportation and has the same great significance in the logistics transportation process.

After-sale logistics of an automobile are the conditions of warranty repair, maintenance and accident maintenance in the use process of the whole automobile, required parts are spare parts at the moment, and need to be timely delivered through logistics service, and services such as tracking feedback and the like are well made. The level of logistics packaging directly or indirectly affects warehouse management, online store distribution, freight rate, shipping and customer satisfaction, and of course, the most important and significant impact on cost profit is considerable. In the prior art, the specification of the packaging box of the fittings is selected and mainly determined by the subjective experience of staff, and once the specification is determined, the specification is fixed and cannot be adjusted. However, the method has strong dependence on the ability of staff, and the empirical method often makes the utilization rate of the packaging box not stable, thereby causing unstable packaging cost.

Disclosure of Invention

The invention mainly aims to provide a packaging size generation method, a packaging size generation system, a terminal and a computer readable storage medium, and aims to solve the problems that the existing method for determining the size of a packaging box based on experience often causes low utilization rate of the packaging box and high packaging cost.

In order to achieve the above object, the present invention provides a package size generating method, comprising the steps of:

acquiring size parameters and demand information of accessories;

determining the packing amount and the number of inner packing boxes of the accessories according to the demand information of the accessories;

determining the size parameters of an inner packing box of the fittings according to the size parameters and the packing amount of the fittings;

and determining the size parameters of the outer packing boxes and the number of the outer packing boxes according to the size parameters of the inner packing boxes and the number of the inner packing boxes of each fitting.

Optionally, the demand information includes a demand of each area; the step of determining the quantity of the fittings to be packaged and the quantity of the inner containers according to the required quantity information of the fittings comprises the following steps:

and determining the boxing amount of the accessories according to the demand of each area.

Optionally, the step of determining the inner packing box dimension parameter of the fitting according to the dimension parameter and the packing amount of the fitting comprises:

acquiring a three-dimensional model of the accessory;

simulating to generate a stacking model of the accessories according to the boxing amount, the size parameters and the three-dimensional model of the accessories;

and determining the dimension parameters of the inner packaging box of the fitting according to the dimension parameters of the stacking model of the fitting.

Optionally, the step of generating a stacking model of the parts according to the boxing amount, the dimension parameters and the three-dimensional model of the parts by simulation further comprises:

acquiring a contactable area of the fitting and a placement direction of the fitting, and using the contactable area of the fitting and the placement direction as stacking constraint conditions of the fitting;

the step of generating a stacking model of the accessories by simulation according to the boxing amount, the size parameters and the three-dimensional model of the accessories comprises the following steps:

and simulating to generate a stacking model of the accessories according to the boxing amount, the size parameters, the three-dimensional model and the stacking constraint conditions of the accessories.

Optionally, the step of determining the inner packing box dimension parameter of the fitting according to the dimension parameter and the packing amount of the fitting further comprises:

acquiring a protection scheme of the accessory;

acquiring the size parameters of the accessory after protection treatment according to the size parameters of the accessory and the protection scheme;

the step of determining the dimension parameter of the inner package of the fitting according to the dimension parameter and the package quantity of the fitting comprises the following steps:

and determining the size parameters of the inner packaging box of the fittings according to the size parameters and the packaging amount of the fittings after the protection treatment.

Optionally, the step of determining the inner packing box dimension parameter of the fitting according to the dimension parameter and the packing amount of the fitting comprises:

calculating the minimum packing box volume required by the accessories according to the size parameters and the packing amount of the accessories;

and selecting the standard packing box size parameter with the volume larger than or equal to the minimum packing box volume and the minimum difference value with the minimum packing box volume from a plurality of preset standard packing box size parameters as the inner packing box size of the fittings according to the minimum packing box volume required by the fittings.

Optionally, the step of determining the inner packing box dimension parameter of the fitting according to the dimension parameter and the packing amount of the fitting comprises:

determining at least one stacking scheme for the accessories based on the amount of the accessories to be packed;

determining at least one packing box candidate size parameter required by the accessories according to the size parameters of the accessories and at least one stacking scheme;

and selecting one standard packing box size parameter from a plurality of preset standard packing box size parameters as the inner packing box size of the fittings according to the candidate size parameters of the packing boxes required by the fittings.

To achieve the above object, the present invention also provides a package size generating system, including:

the acquisition module is used for acquiring the size parameters and the demand information of the accessories;

the first determining module is used for determining the packing amount and the inner packing box amount of the accessories according to the demand information of the accessories;

the second determining module is used for determining the size parameter of the inner packing box of the fittings according to the size parameter and the packing amount of the fittings;

and the third determining module is used for determining the size parameter and the number of the outer packing boxes according to the size parameter and the number of the inner packing boxes of each fitting.

To achieve the above object, the present invention further provides a terminal including a memory, a processor, and a computer program stored on the memory and executable on the processor, the computer program, when executed by the processor, implementing the steps of the package size generating method as described above.

To achieve the above object, the present invention also provides a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the package size generating method as described above.

The invention provides a method, a system, a terminal and a computer readable storage medium for generating a package size, which are characterized in that size parameters and demand information of accessories are obtained; determining the packing amount and the number of inner packing boxes of the accessories according to the demand information of the accessories; determining the size parameters of an inner packing box of the fittings according to the size parameters and the packing amount of the fittings; and determining the size parameters of the outer packing boxes and the number of the outer packing boxes according to the size parameters of the inner packing boxes and the number of the inner packing boxes of each fitting. Thereby the demand information of considering the accessory change changes, changes packing box size parameter according to demand information, can improve the utilization ratio of packing box and reduce the problem of packing cost.

Drawings

FIG. 1 is a schematic diagram of a hardware operating environment according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart of a first embodiment of a package size generating method according to the present invention;

fig. 3 is a detailed flowchart of step S30 in the second embodiment of the package size generating method according to the present invention;

fig. 4 is a detailed flowchart of step S30 in the fifth embodiment of the package size generating method according to the present invention;

fig. 5 is a detailed flowchart of step S30 in the sixth embodiment of the package size generating method according to the present invention;

fig. 6 is a functional block diagram of the package size generating system of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, fig. 1 is a schematic diagram of a hardware structure of a terminal provided in various embodiments of the present invention. The terminal comprises a communication module 01, a memory 02, a processor 03 and the like. Those skilled in the art will appreciate that the terminal shown in fig. 1 may also include more or fewer components than shown, or combine certain components, or a different arrangement of components. The processor 03 is connected to the memory 02 and the communication module 01, respectively, and the memory 02 stores a computer program, which is executed by the processor 03 at the same time.

The communication module 01 may be connected to an external device through a network. The communication module 01 may receive data sent by an external device, and may also send data, instructions, and information to the external device, where the external device may be an electronic device such as a mobile phone, a tablet computer, a notebook computer, and a desktop computer.

The memory 02 may be used to store software programs and various data. The memory 02 may mainly include a program storage area and a data storage area, wherein the program storage area may store an operating system, an application program required for at least one function (an inner package size parameter of the parts is determined according to the size parameter and the package amount of the parts), and the like; the storage data area may store data or information created according to the use of the terminal, or the like. Further, the memory 02 may include high speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other volatile solid state storage device.

The processor 03, which is a control center of the terminal, connects various parts of the entire terminal using various interfaces and lines, and performs various functions of the terminal and processes data by operating or executing software programs and/or modules stored in the memory 02 and calling data stored in the memory 02, thereby integrally monitoring the terminal. Processor 03 may include one or more processing units; preferably, the processor 03 may integrate an application processor, which mainly handles operating systems, user interfaces, application programs, etc., and a modem processor, which mainly handles wireless communications. It will be appreciated that the modem processor described above may not be integrated into the processor 03.

Although not shown in fig. 1, the terminal may further include a circuit control module, where the circuit control module is used for being connected to a mains supply to implement power control and ensure normal operation of other components.

Those skilled in the art will appreciate that the terminal structure shown in fig. 1 is not intended to be limiting and may include more or fewer components than those shown, or some components may be combined, or a different arrangement of components.

Various embodiments of the method of the present invention are presented in terms of the above-described hardware architecture.

Referring to fig. 2, in a first embodiment of the pack size generating method of the present invention, the pack size generating method includes the steps of:

step S10, acquiring the size parameters and demand information of the accessories;

in the scheme, the terminal firstly obtains the size parameters and the demand information of the accessory to be packaged. The specific process of the terminal obtaining the size parameters of the accessory may be to find a corresponding accessory model from an accessory model library according to the identifier of the accessory, obtain the size parameters of the accessory according to the accessory model, or directly find the corresponding size parameters from an accessory parameter table according to the identifier of the accessory, where the size parameters may include three parameters of the maximum width, the maximum height, and the maximum length of the accessory, and certainly, the size parameters may also include other parameters.

Step S20, determining the packing amount and the inner packing box amount of the accessories according to the demand information of the accessories;

after the terminal obtains the demand information of the accessories, the boxing amount of the accessories is determined according to the total demand amount in the demand information, wherein the boxing amount refers to the amount of the accessories placed in one packaging box. For example, the greatest common divisor of the total required quantity is calculated to serve as the packing quantity of the accessories, each divisor of the total required quantity can be sorted from large to small, the common divisor with the median ranking is used as the packing quantity of the accessories, if the total required quantity has no common divisor and is a prime number, the packing quantity of the accessories can be calculated according to a preset rule, the preset rule is that the total required quantity is divided by a certain number, the difference value between the remainder and the divisor is the minimum, the divisor is the packing quantity of the accessories, and in addition, the packing quantity corresponding to the total required quantity of the accessories can be determined to serve as the packing quantity of the accessories according to the mapping relation between the preset packing quantity and the range of the required quantity.

In one embodiment, when the demand amount information includes the demand amount for each area, step S20 includes:

in step S21, the amount of parts to be packed is determined based on the demand for each area.

Since it is considered that the required amount of the parts may be different for each area, the amount of the parts to be packed is further determined according to the required amount of each area in the required amount information, for example, the minimum value of the required amounts in each area is selected as the amount of the parts to be packed, the divisor of the required amount itself for each area may be calculated, and then the divisor with the largest number of occurrences is selected as the amount of the parts to be packed.

In step S30, the inner packing box size parameter of the fitting is determined according to the size parameter and the packing amount of the fitting.

The terminal multiplies the size parameter of the fittings by the packing amount to calculate the minimum capacity of the packing box, and then determines the inner packing box size parameter of the fittings according to the minimum capacity, wherein the inner packing box size parameter comprises the inner size parameter and the outer size parameter of the packing box, namely the capacity which can be calculated according to the inner size parameter in the inner packing box size parameter is larger than or equal to the minimum capacity.

And step S40, determining the size parameter and the number of the outer packing boxes according to the size parameter and the number of the inner packing boxes of each fitting.

And finally, determining the size parameters of the outer packaging boxes and the number of the outer packaging boxes according to the size parameters of the inner packaging boxes with different accessories and the corresponding number of the inner packaging boxes, wherein the same or different number of inner packaging boxes with different accessories can be put into the outer packaging boxes.

The embodiment obtains the dimension parameters and the demand information of the accessories; determining the packing amount and the number of inner packing boxes of the accessories according to the demand information of the accessories; determining the size parameters of an inner packing box of the fittings according to the size parameters and the packing amount of the fittings; and determining the size parameters of the outer packing boxes and the number of the outer packing boxes according to the size parameters of the inner packing boxes and the number of the inner packing boxes of each fitting. Thereby the demand information of considering the accessory change changes, changes inner packing box size parameter according to demand information, can improve the utilization ratio of packing box and reduce the problem of packing cost.

Further, referring to fig. 3, fig. 3 is a diagram illustrating a second embodiment of the package size generating method according to the present application, wherein step S30 includes:

step S31, acquiring a three-dimensional model of the accessory;

step S32, simulating and generating a stacking model of the accessories according to the boxing amount, the size parameters and the three-dimensional model of the accessories;

step S33, determining the inner package box dimension parameters of the fitting according to the dimension parameters of the stacking model of the fitting.

In this embodiment, the terminal searches the corresponding three-dimensional model of the part from the part model library according to the identifier of the part, and then inputs the dimensional parameter, the packing amount and the three-dimensional model of the part as input parameters of stacking model simulation software into the software program, sets a stacking target in the software program, and then performs simulation to automatically generate a stacking model of the part. When the minimum volume and the stacking model as a cuboid are selected as targets in the software program, the stacking model is a cuboid and occupies the minimum space volume. Of course, other objects can also be provided in the software program, for example, only a minimum volume as an object, or other stack shapes. After obtaining the stacking model, the dimensional parameters of the stacking model are read from the stacking model, and the dimensional parameters of the inner packing box can be determined according to the stacking model parameters.

This embodiment is through according to definite vanning volume and accessory model, utilizes simulation software automatic generation stack model, then generates inner packing box size parameter according to stack model to compare artifical inner packing box size parameter of selecting, its efficiency obtains improving, and makes final inner packing box's utilization ratio higher, and whole packing cost further reduces.

Further, a third embodiment of the package size generating method of the present application is proposed according to the first and second embodiments of the package size generating method of the present application, and in this embodiment, step S32 is preceded by:

step S34, acquiring the contact area of the fittings and the placement direction of the fittings, and using the contact area and the placement direction as stacking constraint conditions of the fittings;

step S32 includes:

and S321, simulating to generate a stacking model of the accessories according to the packing amount, the size parameters, the three-dimensional model and the stacking constraint conditions of the accessories.

In this embodiment, since some of the components have requirements for the placement direction and a partial region of the surface of the components is a working region, which has requirements for the surface roughness of the region and cannot be damaged or knocked, in order to prevent these situations from occurring, these regions cannot be contacted with other objects, so before a stacking model of the components is generated by simulation of a software program, for example, the terminal will first obtain the contactable region of the components and the placement direction of the components and use them as stacking constraint conditions of the components, then input the dimensional parameters, packing amount and three-dimensional model of the components as input parameters of stacking model simulation software into the software program, set stacking targets and constraint conditions in the software program, and then perform simulation, and will automatically generate a stacking model of the components. .

But this embodiment is through the constraint condition of the contact zone with the accessory and the orientation of placing as the stack model simulation for the packing requirement that the stack model that generates can accord with the accessory more, and then the inner packing case that generates according to this stack model also can accord with the inner packing requirement of accessory.

Further, a fourth embodiment of the package size generating method of the present application is proposed according to the first embodiment of the package size generating method of the present application, and in this embodiment, step S30 is preceded by:

step S50, acquiring a protection scheme of the accessory;

step S60, obtaining the dimension parameter of the accessory after protection treatment according to the dimension parameter of the accessory and the protection scheme;

step S30 includes:

and step S35, determining the size parameter of the inner packing box of the fittings according to the size parameter and the packing amount of the fittings after the protection treatment.

In this embodiment, for some kinds of accessories, before placing in the packing box, still need to protect the packing for every accessory alone, and only the accessory that has carried out protection packing can place in the packing box. Therefore this embodiment can acquire the protection scheme of accessory earlier before confirming the inner packing box size parameter of accessory, specifically can be according to the identification information of accessory, select the protection scheme that the accessory sign corresponds from the protection scheme database of predetermineeing, this protection scheme includes the material of protection packing, the thickness of protection packing material, information such as protection packing number of piles, and after the terminal acquireed the protection scheme, can calculate the size parameter of the whole accessory of accessory after the accessory carries out protection packing processing based on the size parameter of accessory and the protection information in the protection scheme. And finally, the terminal multiplies the size parameter of the whole fittings after the protection packaging treatment by the packaging amount to calculate the minimum capacity of the packaging box, and determines the size parameter of the inner packaging box of the fittings according to the minimum capacity, wherein the size parameter of the inner packaging box comprises the inner size parameter and the outer size parameter of the packaging box, namely the capacity which can be calculated according to the inner size parameter in the size parameter of the inner packaging box is required to be larger than or equal to the minimum capacity.

The protection packing processing factor of accessory is also considered in the inner packing box size parameter process of confirming the accessory to make the inner packing box size parameter that generates can enough accord with the assembly that needs the accessory of protection processing more, also can satisfy ultimate inner packing box's utilization ratio maximize, packing cost minimizing.

Further, referring to fig. 4, fig. 4 is a fifth embodiment of the package size generating method according to the present application, where in the present embodiment, step S30 includes:

step S36, calculating the minimum packing box volume required by the accessories according to the size parameters and the packing amount of the accessories;

and step S37, selecting the standard inner packing box size parameter with the volume larger than or equal to the minimum packing box volume and the minimum difference value with the minimum packing box volume from a plurality of preset standard inner packing box size parameters as the inner packing box size of the fittings according to the minimum packing box volume required by the fittings.

In this embodiment, the terminal stores a plurality of different standard internal packing box size parameters in advance. The terminal will first multiply the dimensional parameter by the amount of the package to calculate the minimum package volume required for the fitting, which is referred to as the capacity of the package. And finally, selecting the standard inner packing box size parameter which is larger than or equal to the minimum packing box volume required by the accessories and has the minimum difference value with the minimum packing box volume required by the accessories, and taking the selected standard inner packing box size parameter as the inner packing box size parameter of the accessories.

In the embodiment, the minimum packing box size required by the accessories is calculated firstly according to the size parameters and the packing amount of the accessories, and then the standard inner packing box size parameter with the capacity larger than the minimum packing box volume and the minimum difference value with the minimum packing box volume is selected from a plurality of different standard inner packing box size parameters to be used as the packing box size of the accessories, so that the selected standard packing box can meet the maximization of the packing utilization rate and the minimization of the packing cost.

Further, referring to fig. 5, fig. 5 is a sixth embodiment of the package size generating method according to the present application, where in the present embodiment, step S30 further includes:

step S381, determining at least one stacking scheme of the accessories according to the boxing amount of the accessories;

step S382, determining at least one packing box candidate size parameter required by the accessories according to the size parameters of the accessories and at least one stacking scheme;

step S383, selecting a standard inner packing box size parameter from a plurality of preset standard inner packing box size parameters as the inner packing box size of the fitting part according to the candidate size parameters of the packing box required by the fitting part.

In this embodiment, the terminal stores a plurality of different standard internal packing box size parameters in advance. The terminal will first determine at least one stacking scheme for the accessories to be packed into the box based on the quantity of the accessories to be packed, for example, the quantity of the accessories to be packed is 20, and the stacking scheme of the accessories includes 3 types, namely, three types, 1 × 20, 2 × 10 and 4 × 5. After the stacking scheme is determined, candidate size parameters of the packing boxes required by the accessories are calculated according to the size parameters of the accessories and the stacking scheme, for example, the stacking scheme of the fittings has three types of 1 x 20, 1 x 2 x 10 and 2 x 5, the size parameters of the fittings are 30 x 20 x 10cm in length, width and height, then the candidate size parameters of the packing box at least comprise three types, the inner size parameter of the first packing box is 30 x 20 x 200cm, the outer size parameter of the packing box is (30+ d) (20+ d) (200+ d) cm, wherein d is the thickness of the packaging box material, the internal dimension parameter of the second packaging box is 30 x 40 x 100cm, the external dimension parameter of the packaging box is (30+ d) × (40+ d) × (100+ d) cm, the internal dimension parameter of the third packaging box is 60 x 40 x 50cm, and the external dimension parameter of the packaging box is (60+ d) × (40+ d) × (50+ d) cm. After the terminal determines the candidate size parameters of the packing box, one standard size parameter meeting preset conditions is selected from a plurality of preset standard size parameters as the size of the packing box of the accessory according to the candidate size parameters of the packing box required by the accessory, the preset conditions can be that three values of length, width and height in the internal size parameters of the standard packing box are all larger than or equal to three values of length, width and height corresponding to any candidate size parameter, or the preset conditions can be that three values of length, width and height in the internal size parameters of the standard packing box are all larger than or equal to three values of length, width and height corresponding to any candidate size parameter, and the difference between the internal size parameters of the standard packing box and the candidate size parameters is minimum, or the preset conditions can be that three values of length, width and height in the internal size parameters of the standard packing box are all larger than or equal to three values of length, width and height corresponding to any candidate size parameter, and the cost of the standard value packing box is lowest.

In the embodiment, the stacking scheme is determined based on the packaging amount, the candidate size parameters are determined based on the stacking scheme, and then one qualified size parameter is selected from the standard inner packaging box size parameters according to the candidate size parameters to serve as the final inner packaging box size parameter, so that the selected standard packaging box can meet the requirements of maximizing the packaging utilization rate and minimizing the packaging cost.

Referring to fig. 6, the present invention also provides a package size generating system including:

the acquisition module 10 is used for acquiring the size parameters and the demand information of the accessories;

a first determining module 20, configured to determine the packing amount and the inner packing box number of the accessories according to the demand information of the accessories;

a second determining module 30 for determining the dimension parameter of the inner package of the fitting according to the dimension parameter and the package amount of the fitting;

a third determining module 40 for determining the outer package size parameter and the number of outer packages based on the inner package size parameter and the number of inner packages for each fitting.

Further, the demand information includes the demand of each area;

the first determining module 20 is further configured to determine a boxing amount of the accessories according to the demand of each area.

Further, the second determining module 30 includes:

a first acquisition unit 31 for acquiring a three-dimensional model of the accessory;

the simulation unit 32 is used for simulating and generating a stacking model of the accessories according to the boxing amount, the size parameters and the three-dimensional model of the accessories;

a first determining unit 33 for determining the dimension parameters of the inner package of the fitting part according to the dimension parameters of the stacking model of the fitting part.

Further, the second determining module 30 further includes:

a second acquiring unit 34 for acquiring a contactable area of the component and a placement direction of the component, and as a stacking constraint condition of the component;

and the simulation unit 32 is further used for simulating and generating a stacking model of the accessories according to the boxing amount, the size parameters, the three-dimensional model and the stacking constraint conditions of the accessories.

Further, the package size generating system further includes:

a second obtaining module 50, configured to obtain a protection scheme of the accessory;

a third obtaining module 60, configured to obtain the size parameter of the accessory after the protection processing according to the size parameter of the accessory and the protection scheme;

the second determining module 30 is further configured to determine the inner packing box dimension parameter of the fitting according to the dimension parameter and the packing amount of the fitting after the protection processing.

Further, the second determining module 30 further includes:

the calculating unit 35 is used for calculating the minimum packing box volume required by the accessories according to the size parameters and the packing amount of the accessories;

a first selecting unit 36, configured to select, as the inner package size of the accessories, a standard package size parameter having a volume greater than or equal to the minimum package volume and having a smallest difference from the minimum package volume from a plurality of preset standard package size parameters according to the minimum package volume required by the accessories.

Further, the second determining module 30 further includes:

a second determination unit 37 for determining at least one stacking scenario of the parts according to the amount of the parts packed;

a third determining unit 38, configured to determine at least one candidate size parameter of the packing boxes required by the components according to the size parameters of the components and the at least one stacking scheme;

and a second selecting unit 39, configured to select one standard packing box size parameter from a plurality of preset standard packing box size parameters as the inner packing box size of the accessories according to the candidate size parameters of the packing box required by the accessories.

The invention also proposes a computer-readable storage medium on which a computer program is stored. The computer-readable storage medium may be the Memory 02 in the terminal of fig. 1, and may also be at least one of a ROM (Read-Only Memory)/RAM (Random Access Memory), a magnetic disk, and an optical disk, and the computer-readable storage medium includes several pieces of information for enabling the terminal to perform the method according to the embodiments of the present invention.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A package size generating method, characterized by comprising the steps of:

acquiring size parameters and demand information of accessories;

determining the packing amount and the number of inner packing boxes of the accessories according to the demand information of the accessories;

determining the size parameters of an inner packing box of the fittings according to the size parameters and the packing amount of the fittings;

and determining the size parameters of the outer packing boxes and the number of the outer packing boxes according to the size parameters of the inner packing boxes and the number of the inner packing boxes of each fitting.

2. The package size generating method according to claim 1, wherein the demand information includes a demand for each area; the step of determining the quantity of the fittings to be packaged and the quantity of the inner containers according to the required quantity information of the fittings comprises the following steps:

and determining the boxing amount of the accessories according to the demand of each area.

3. The package size generating method according to claim 1 or 2, wherein the step of determining the inner package size parameter of the component part based on the size parameter of the component part and the amount of the package comprises:

acquiring a three-dimensional model of the accessory;

simulating to generate a stacking model of the accessories according to the boxing amount, the size parameters and the three-dimensional model of the accessories;

and determining the dimension parameters of the inner packaging box of the fitting according to the dimension parameters of the stacking model of the fitting.

4. The package size generating method according to claim 3, wherein the step of generating a stacking model of the parts based on the packing amount of the parts, the dimensional parameters, and the three-dimensional model is preceded by the step of:

acquiring a contactable area of the fitting and a placement direction of the fitting, and using the contactable area of the fitting and the placement direction as stacking constraint conditions of the fitting;

the step of generating a stacking model of the accessories by simulation according to the boxing amount, the size parameters and the three-dimensional model of the accessories comprises the following steps:

and simulating to generate a stacking model of the accessories according to the boxing amount, the size parameters, the three-dimensional model and the stacking constraint conditions of the accessories.

5. The package size generating method according to claim 1 or 2, wherein the step of determining the inner package size parameter of the component part based on the size parameter of the component part and the amount of the package further comprises:

acquiring a protection scheme of the accessory;

acquiring the size parameters of the accessory after protection treatment according to the size parameters of the accessory and the protection scheme;

the step of determining the dimension parameter of the inner package of the fitting according to the dimension parameter and the package quantity of the fitting comprises the following steps:

and determining the size parameters of the inner packaging box of the fittings according to the size parameters and the packaging amount of the fittings after the protection treatment.

6. The package size generating method according to claim 1 or 2, wherein the step of determining the inner package size parameter of the component part based on the size parameter of the component part and the amount of the package comprises:

calculating the minimum packing box volume required by the accessories according to the size parameters and the packing amount of the accessories;

and selecting the standard packing box size parameter with the volume larger than or equal to the minimum packing box volume and the minimum difference value with the minimum packing box volume from a plurality of preset standard packing box size parameters as the inner packing box size of the fittings according to the minimum packing box volume required by the fittings.

7. The package size generating method according to claim 1 or 2, wherein the step of determining the inner package size parameter of the component part based on the size parameter of the component part and the amount of the package comprises:

determining at least one stacking scheme for the accessories based on the amount of the accessories to be packed;

determining at least one packing box candidate size parameter required by the accessories according to the size parameters of the accessories and at least one stacking scheme;

and selecting one standard packing box size parameter from a plurality of preset standard packing box size parameters as the inner packing box size of the fittings according to the candidate size parameters of the packing boxes required by the fittings.

8. A package size generating system, characterized in that the package size generating system comprises:

the acquisition module is used for acquiring the size parameters and the demand information of the accessories;

the first determining module is used for determining the packing amount and the inner packing box amount of the accessories according to the demand information of the accessories;

the second determining module is used for determining the size parameter of the inner packing box of the fittings according to the size parameter and the packing amount of the fittings;

and the third determining module is used for determining the size parameter and the number of the outer packing boxes according to the size parameter and the number of the inner packing boxes of each fitting.

9. A terminal, characterized in that the terminal comprises a memory, a processor and a computer program stored on the memory and executable on the processor, the computer program, when executed by the processor, implementing the steps of the package size generation method according to any one of claims 1 to 7.

10. A computer-readable storage medium, characterized in that a computer program is stored thereon, which computer program, when being executed by a processor, realizes the steps of the package size generating method according to any one of claims 1 to 7.

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