CN115758490A

CN115758490A - Method and device for providing package model recommendation information and electronic equipment

Info

Publication number: CN115758490A
Application number: CN202211406018.2A
Authority: CN
Inventors: 胡良; 杨经纬; 罗雪; 苏益强
Original assignee: Alibaba China Co Ltd
Current assignee: Alibaba China Co Ltd
Priority date: 2022-11-10
Filing date: 2022-11-10
Publication date: 2023-03-07

Abstract

The embodiment of the application discloses a method and a device for providing package model recommendation information and electronic equipment, wherein the method comprises the following steps: modeling a target object to be packaged and a protective film into cuboids respectively, and acquiring size information of a first cuboid corresponding to the target object and size information of a second cuboid corresponding to the protective film; determining a wrapping mode when the target object is wrapped by the protective film according to the size information of the first cuboid and the size information of the second cuboid; performing simulated wrapping on the target object according to the wrapping mode, and determining the size and/or volume of a third cuboid formed after wrapping; and recommending the type of the packing box/packing bag according to the size and/or volume of the third cuboid. Through this application embodiment, can promote the degree of accuracy of the package material model of recommending.

Description

Method and device for providing package model recommendation information and electronic equipment

Technical Field

The present application relates to the field of information processing technologies, and in particular, to a method and an apparatus for providing package model recommendation information, and an electronic device.

Background

In the fulfillment link of the commodity information service, the delivery of goods for the user is involved. Before shipping, packing of goods is involved (that is, the goods are packed by using a packing box or a packing bag, etc.), wherein for some special goods such as fragile goods, before packing or bagging, a protective film (for example, a bubble film, a heat insulation film, etc.) is further required to wrap the goods so as to play a role in buffering or protecting when collision occurs.

On the other hand, a merchant may provide a plurality of different types of packing boxes or bags for a packager to select, and in principle, the packager should select a packing box/bag with a suitable size according to the volume of the specific goods to be packaged, so as to avoid waste or more environmental pollution caused by the overlarge packing box/bag.

However, under the aforesaid condition of repacking or bagging-off after wrapping up the goods through the protecting film, because the protecting film has certain thickness for the protecting film itself has certain volume, and the protecting film needs to be packed into the case along with the goods in addition, consequently, can make the volume of the packing box of actual required be greater than the volume of goods itself. At this time, how to select a proper packing box may become more difficult, and if the packing box is too large, waste and more environmental pollution may be caused, and if the packing box is too small, goods cannot be accommodated, and at this time, a packing worker is also required to perform processes such as replacing the packing box, so that the delivery efficiency is affected.

Disclosure of Invention

The application provides a method and a device for providing package material model recommendation information and electronic equipment, and the accuracy of the recommended package material model can be improved.

The application provides the following scheme:

a method for providing package model recommendation information comprises the following steps:

modeling a target object to be packaged and a protective film into cuboids respectively, and acquiring size information of a first cuboid corresponding to the target object and size information of a second cuboid corresponding to the protective film;

determining a wrapping mode when the target object is wrapped by the protective film according to the size information of the first cuboid and the size information of the second cuboid;

performing simulated wrapping on the target object according to the wrapping mode, and determining the size and/or volume of a third cuboid formed after wrapping;

and recommending the type of the packing box/packing bag according to the size and/or volume of the third cuboid.

Wherein, the parcel mode includes:

placing the longest edge of the first cuboid and the shorter edge except the thickness edge in the second cuboid in parallel, taking two planes consisting of the shorter edges in the first cuboid as bottom surfaces and the other four surfaces as side surfaces, and folding and wrapping and fixing the redundant part of a cavity formed at the bottom surface after wrapping and fixing the second cuboid in a multi-cycle winding manner around the side surface of the first cuboid in the direction of the longest edge in the second cuboid;

the determining the size and/or volume of the third cuboid formed after the wrapping comprises:

determining the number of winding cycles of the second cuboid around the side surface when the wrapping mode is used for wrapping the first cuboid in a multi-cycle winding manner around the side surface;

and determining the size of each edge in the third cuboid formed after the third cuboid is wrapped according to the wrapping mode according to the winding number and the thickness value of the second cuboid.

Wherein, when confirming according to the parcel mode is around the side of first cuboid carries out many weeks winding formula parcel, the second cuboid can be around the winding week number of side includes:

according to a first expression that the circumference of the bottom surface changes along with the winding circumference and a second expression that the length of the protective film required to be occupied in the longest side direction of the second cuboid changes along with the change of the circumference of the bottom surface, the length of the protective film required to be occupied in the longest side direction of the second cuboid is expressed as a third expression that the winding circumference is the only independent variable;

and determining the winding cycle number under the condition that the third expression is equal to the side length of the longest edge in the second cuboid.

Wherein, the determining the size of each side in the third cuboid after being wrapped according to the wrapping manner according to the wrapping number and the thickness value of the second cuboid comprises:

according to the winding cycle number and the thickness value of the second cuboid, determining that the sizes of two shorter sides, corresponding to the bottom surface, in the third cuboid after the third cuboid is wrapped according to the wrapping mode are as follows: the product of the number of windings and the thickness value of the second cuboid is increased by twice on the basis of the dimensions of the corresponding side in the first cuboid.

for the size of the longest side in the third cuboid, determining the folding times when the part forming the cavity at the bottom surface is folded and wrapped according to the size relationship between the difference value between the shorter side except the thickness side in the second cuboid and the longest side in the first cuboid and the two sides of the bottom surface in the first cuboid;

and on the basis of the size of the longest edge in the first cuboid, increasing the product of the winding cycle, the thickness value of the second cuboid and the folding times to obtain the size of the longest edge in the third cuboid.

Wherein, still include:

and obtaining the volume of the third cuboid according to the size of each side in the third cuboid.

receiving identification information of a target commodity to be packaged, which is input by a user in a code scanning mode;

modeling a target commodity to be packaged and a protective film into cuboids respectively, and acquiring size information of a first cuboid corresponding to the target commodity and size information of a second cuboid corresponding to the protective film in a database query manner;

determining a wrapping mode when the target commodity is wrapped by the protective film according to the size information of the first cuboid and the size information of the second cuboid;

performing simulated wrapping on the target commodity according to the wrapping mode, and determining the size and/or volume of a third cuboid formed after wrapping;

determining the type of a preferentially recommended packing box/packing bag according to the size and/or the volume of the third cuboid;

and displaying the information of the preferentially recommended packing box/packing bag models through a target interface so that the user can select the packing box/packing bag models according to the recommended information.

An apparatus for providing package model recommendation information, comprising:

the device comprises a pre-wrapping size information acquisition unit, a pre-wrapping size information acquisition unit and a pre-wrapping size information acquisition unit, wherein the pre-wrapping size information acquisition unit is used for respectively modeling a target article to be packaged and a protective film into cuboids, and acquiring size information of a first cuboid corresponding to the target article and size information of a second cuboid corresponding to the protective film;

the packaging mode determining unit is used for determining a packaging mode when the target object is packaged by the protective film according to the size information of the first cuboid and the size information of the second cuboid;

the post-package size determining unit is used for performing simulated package on the target object according to the package mode and determining the size and/or volume of a third cuboid formed after the package;

and the packaging material model recommending unit is used for recommending the models of the packaging boxes/packaging bags according to the size and/or volume of the third cuboid.

Wherein, the parcel mode includes:

placing the longest edge of the first cuboid and the shorter edge except the thickness edge of the second cuboid in parallel, taking two planes consisting of the shorter edges in the first cuboid as bottom surfaces and the other four planes as side surfaces, and performing multi-cycle winding type wrapping and fixing on the second cuboid around the side surface of the first cuboid in the direction of the longest edge in the second cuboid, and then performing folding type wrapping and fixing on the redundant part of a cavity formed at the bottom surface;

the post-package size determining unit specifically includes:

the winding cycle number determining subunit is used for determining the number of winding cycles of the second cuboid around the side surface when the multi-cycle winding type wrapping is carried out around the side surface of the first cuboid according to the wrapping mode;

and the size determining subunit is configured to determine, according to the winding number and the thickness value of the second rectangular parallelepiped, the size of each side in the third rectangular parallelepiped formed after the third rectangular parallelepiped is wrapped in the wrapping manner.

the code scanning input unit is used for receiving the identification information of the target commodity to be packaged, which is input by a user in a code scanning mode;

the pre-wrapping size information acquisition unit is used for respectively modeling a target commodity to be packaged and a protective film into cuboids, and acquiring size information of a first cuboid corresponding to the target commodity and size information of a second cuboid corresponding to the protective film in a database query manner;

the packaging mode determining unit is used for determining a packaging mode when the target commodity is packaged by the protective film according to the size information of the first cuboid and the size information of the second cuboid;

the post-package size determining unit is used for performing simulated package on the target commodity according to the package mode and determining the size and/or volume of a third cuboid formed after the package;

the packaging material model determining unit is used for determining the preferentially recommended packaging box/packaging bag model according to the size and/or volume of the third cuboid;

and the recommendation information display unit is used for displaying the information of the preferentially recommended packing box/packing bag model through a target interface so that the user can select the packing box/packing bag model according to the recommendation information.

A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the method of any of the preceding claims.

An electronic device, comprising:

one or more processors; and

memory associated with the one or more processors for storing program instructions which, when read and executed by the one or more processors, perform the steps of the method of any of the preceding claims.

According to the specific embodiments provided herein, the present application discloses the following technical effects:

through the scheme that this application embodiment provided, to the target article that need wrap up through the protecting film before vanning or bagging-off, can model into the cuboid respectively with target article and the protecting film of treating the packing, and acquire the size information of the first cuboid that the target article correspond to and the size information of the second cuboid that the protecting film corresponds. Then, according to the size information of the first cuboid and the size information of the second cuboid, determining a wrapping mode when the target object is wrapped by the protective film, simulating and wrapping the target object according to the wrapping mode, and then determining the size and/or volume of a third cuboid formed after wrapping. Thus, the type of the packing box/packing bag can be recommended according to the size and/or the volume of the third cuboid. By the method, the packaging mode of the target object by the specific protective film is predicted before the specific packaging material model is recommended, and the size and/or volume change condition after the packaging is carried out in the packaging mode can be determined, so that the accuracy of the recommended packaging material model can be improved, and the occurrence probability that the recommended packaging material model is too large or too small is reduced.

Of course, it is not necessary for any product to achieve all of the above-described advantages at the same time for practicing the present application.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic diagram of a system architecture provided by an embodiment of the present application;

FIG. 2 is a flow chart of a first method provided by an embodiment of the present application;

FIG. 3 is a schematic diagram of the dimensions of a pre-wrapped target article and a protective film provided by an embodiment of the present application;

FIG. 4 is a schematic diagram of the dimensions of a package provided by an embodiment of the present application;

FIG. 5 is a schematic bottom view of a package provided in accordance with an embodiment of the present application;

FIG. 6 is a schematic side view of a package provided in accordance with an embodiment of the present application;

FIG. 7 is a flow chart of a second method provided by embodiments of the present application;

FIG. 8 is a schematic diagram of a first apparatus provided by an embodiment of the present application;

FIG. 9 is a schematic diagram of a second apparatus provided by an embodiment of the present application;

fig. 10 is a schematic view of an electronic device provided in an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only some embodiments of the present application, and not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application are within the scope of protection of the present application.

In the embodiment of the application, the service of recommending the types of the packing boxes or the packing bags can be provided for users such as a packager, namely, the proper types of the packing boxes/the packing bags can be determined according to the volume of the articles to be packed and the volumes of the packing boxes or the packing bags of various types, and the packing boxes/the packing bags are recommended to the users. Wherein, to the condition that need use the protective film to wrap up article before vanning or bagging-off, because protective film and article all need pack into packing box or wrapping bag, consequently, when recommending packing box or wrapping bag model, still need consider the influence of the volume that this kind of protective film account for.

In order to achieve the above object, one way may be to regard the protective film as another article, calculate the volume of the protective film, simply add the volume of the protective film and the volume of the article to obtain the total volume, and recommend the type of the packaging box or the packaging bag according to the total volume. However, since the protective film is not directly folded and filled into the packaging box or the packaging bag, the protective film is firstly wrapped outside the article and then packaged or bagged, and the change of the volume of the article after the article is wrapped is different from the change of directly filling the protective film into the packaging box or the packaging bag. Therefore, in the above-mentioned manner of regarding the protective film as another article independent from the article, a relatively large deviation of the estimation result may occur due to neglecting the actual conditions of folding, winding, etc. of the protective film.

In view of the above situation, the embodiments of the present application provide a corresponding solution. In this scheme, can at first model into the cuboid respectively with the target article and the protecting film of treating packing, then, can be according to the size information of the first cuboid that the target article corresponds to and the size information of the second cuboid that the protecting film corresponds, determine the parcel mode when using this specific protecting film parcel target article, including how specific article should place, from which face of article, which direction of protecting film begins to twine, etc.. And determining the size and/or volume of a third cuboid formed after the target object is wrapped according to the wrapping mode. Thus, the recommendation of the packing box/bag type can be made according to the size and/or volume of the third cuboid. By the method, the specific wrapping mode is considered, and the change condition of the specific size and/or volume after wrapping according to the wrapping mode is estimated, so that the accuracy of the recommended packing box/packing bag model can be improved, and the occurrence probability that the packing box/packing bag model is too large or too small is reduced.

From the perspective of system architecture, the embodiment of the application can provide a package box/package bag model recommendation system. As shown in fig. 1, in an application scenario in which a commodity is packaged, the following parts may be included: a commodity 101 and its associated bar code (or two-dimensional code, etc.) 102, a scanner 103, a packager 104, a computer 105, a bubble film 106, and a database 107. The bubble film 106 can be used for packing the article each time, the bubble film 106 can have a fixed size, or can have a plurality of different sizes, and when the article is packed specifically, a packer can select a certain specific size of the bubble film, or can cut out a required length from a rolled bubble film to form a bubble film, and the like. The recommendation system provided by the embodiment of the application mainly solves the problems that a wrapping mode when the commodity is wrapped through the bubble film is determined according to the size of the packaged commodity 101 and the size of the bubble film, and the size of the commodity changes after the commodity is wrapped according to the wrapping mode. Further, it is possible to recommend a packing case or a packing bag of a suitable type according to the changed size, volume, or the like, and inform the packer 104 which type of packing case or packing bag should be used, and it is possible to secure that the commodity 101 can be packed in the packing case or the packing bag of the type after being wrapped with the bubble film 106, and it is not too large or too small.

In the application scenario shown in fig. 1, in a specific implementation process, before packaging the commodity 101, the packager 104 may first scan the barcode 102 of the commodity with the scanner 103, and transmit the barcode data to the computer 105. After the bar code 102 of the commodity is scanned, the computer 105 may search the database 107 for the size data of the corresponding commodity based on the bar code information. The specific commodity can be modeled as a cuboid, and the size data can include length, width and height. In addition, the database may further include size data of the bubble film, in the embodiment of the present application, the bubble film may also be modeled as a rectangular parallelepiped, and the size data may include a length, a width, and a thickness. Then, the corresponding wrapping mode and the change situation of the size and the volume of the wrapped commodity can be determined according to the size information of the specific commodity and the bubble film. Moreover, because the recommendation of the types of the packing cases or the packing bags is required, the database can also store the size information corresponding to various optional types of the packing cases/the packing bags.

The following describes specific implementations provided in embodiments of the present application in detail.

Example one

First, an embodiment of the present application provides a method for providing package model recommendation information, and referring to fig. 2, the method may include:

s201: modeling a target object to be packaged and a protective film into cuboids respectively, and acquiring size information of a first cuboid corresponding to the target object and size information of a second cuboid corresponding to the protective film.

In the embodiment of the present application, the target object may be a commodity, an article, or other objects that need to be wrapped by the protective film and then packaged. Specifically, in order to facilitate estimation of the size and volume change of the article wrapped by the protective film, both the target article and the protective film may be modeled as a rectangular parallelepiped. For the convenience of distinction, the cuboid corresponding to the target article may be referred to as a first cuboid, and the cuboid corresponding to the protective film may be referred to as a second cuboid.

During specific implementation, when a certain target object needs to be packaged, the size of the first cuboid corresponding to the target object and the size of the second cuboid corresponding to the protective film can be obtained respectively. The size of the first cuboid and the size of the second cuboid may be provided by a user such as a packager through manual input, or, if the specific article is a commodity, an article, or the like, as shown in fig. 1, a corresponding relationship between different article identifiers and the size of the corresponding first cuboid may be stored in a database in advance, so that after the packager scans a code of the target article to be packaged, the identifier of the target article may be input to a computer, and the computer acquires the size of the first cuboid corresponding to the article through a query method into the database. Regarding the size of the second cuboid corresponding to the protective film, if the size of the protective film is fixed, or the protective film is divided into a plurality of models, and each model has a fixed size, the size information of the second cuboid corresponding to the protective film can also be stored in the database, and a user such as a packer can determine the size of the second cuboid corresponding to the currently used protective film by further querying the database in a manner such as inputting the model identification of the protective film.

The dimensions of the first rectangular solid may be expressed by length, width, and height, wherein the longest side may be a height side, and the other two sides are a width side and a length side, respectively. Regarding the dimensions of the second cuboid, for ease of understanding, it can be expressed in terms of length, height and thickness, wherein the longest side is the length side, followed by the height side, and the shortest side is the thickness side. Of course, the definition of each edge is only for convenience of description, and in practical applications, is not limited to the above manner.

S202: and determining a wrapping mode when the target object is wrapped by the protective film according to the size information of the first cuboid and the size information of the second cuboid.

After the size information corresponding to the first cuboid and the second cuboid is determined, the wrapping mode when the target object is wrapped by the protective film can be determined. Specifically, there are many packaging methods, and one of them is a more classical packaging method as shown in fig. 3. Wherein 301 is a first cuboid corresponding to goods, goods and the like, and 302 is a second cuboid corresponding to the protective film. 303 is the length x of the first cuboid, 304 is the height y of the first cuboid, and 305 is the width z of the first cuboid. 306 is the length L of the second cuboid, 307 is the height H of the second cuboid, and 308 is the thickness D of the second cuboid.

In particular, when wrapping an article with a protective film, the longest side of the first cuboid (i.e. the height side of the article shown in 304 in fig. 3) may first be placed parallel to the shorter side of the second cuboid (i.e. the height side of the protective film shown in 307 in fig. 3) except for the thickness side. At this time, two planes composed of shorter sides (i.e., the length side indicated by 303 and the width side indicated by 305 in fig. 3) in the first rectangular parallelepiped may be taken as the bottom surfaces, and the other four surfaces (two surfaces composed of the height side indicated by 304 and the length side indicated by 303 in fig. 3, and two surfaces composed of the height side indicated by 304 and the width side indicated by 305) may be taken as the side surfaces. Thereafter, the second cuboid may be wrapped around the side of the first cuboid in a multi-turn wrap in the direction of the longest side of the second cuboid (i.e., the length side shown at 306 in fig. 3), which may be secured by tape or the like when the length side of the second cuboid is used up. And finally, folding and wrapping the redundant parts of the two bottom surfaces with the cavities, and fixing the redundant parts by using an adhesive tape and the like, so that the process of wrapping the target object by using the protective film is completed.

Of course, in specific implementation, other wrapping manners may be adopted, and the corresponding calculation manners regarding the size and volume change of the wrapped article may be different in different wrapping manners.

S203: and performing simulated wrapping on the target object according to the wrapping mode, and determining the size and/or volume of a third cuboid formed after wrapping.

After the specific wrapping mode is determined, the size and/or volume of the target object wrapped according to the wrapping mode can be determined. Specifically, the article after being wrapped in this way may also be modeled as a third cuboid, for example, as shown in fig. 4, where 401 is a first cuboid corresponding to the article before being wrapped, and 402 is a corresponding third cuboid after being wrapped with the protective film. It can be seen that after the rectangular parallelepiped is wrapped by the protective film, the length, width, height and width of the rectangular parallelepiped are increased from the original x, y and z to x ', y ' and z '. The main purpose in this step S203 is to determine the values of x ', y ', z '.

Specifically, the values of x ', y ', and z ' may be calculated according to the determined parcel mode. For example, in the wrapping mode shown in fig. 3, since the protective film needs to be wrapped around the side surface of the article in a winding manner, the length and the width of the bottom surface of the article are increased by an amount related to the number of winding cycles and the thickness of the protective film. Then, when the cavity part formed at the bottom surface is folded and wrapped, the height of the article is increased, and the increased value is related to the number of winding cycles, the number of folding times, the thickness of the protective film and the like. Therefore, in a specific implementation, the number of winding cycles of the second rectangular parallelepiped around the side surface may be determined first when the wrapping manner is performed by winding around the side surface of the first rectangular parallelepiped for multiple cycles, and then the size of each side in the third rectangular parallelepiped formed after the wrapping manner is performed is determined according to the number of winding cycles and the thickness value of the second rectangular parallelepiped.

Particularly, when the second rectangular solid can be wound around the side surface of the first rectangular solid in a number of turns, various modes are possible. For example, in one mode, the length of the pellicle film to be occupied in the longest side direction of the second rectangular parallelepiped may be expressed as a third expression having the winding number as a unique independent variable, based on a first expression in which the circumference of the bottom surface varies with the winding number, and a second expression in which the length of the pellicle film to be occupied in the longest side direction of the second rectangular parallelepiped varies with the circumference of the bottom surface. Then, the number of winding cycles may be determined with the third expression equal to the side length of the longest side in the second rectangular parallelepiped.

Specifically, in order to obtain the first expression, the following derivation procedure may be used:

firstly, when the article is not wrapped by the protective film, the perimeter of the bottom surface is as follows:

L ₀ ＝2(x+z) (1)

after wrapping the article side for a first circumference along the length edge of the protective film, the bottom perimeter becomes:

L ₁ ＝2(x+z+4D)＝L ₀ +8D (2)

and use 0.5 (L) ₀ +L ₁ ) The protective film of length, i.e. in the direction of the length of the second cuboid to which the protective film corresponds, occupies 0.5 (L) ₀ +L ₁ ) Of the length of (c).

After wrapping the article sides along the length of the protective film for a second circumference, the bottom perimeter becomes:

L ₂ ＝2(x+z+8D)＝L ₁ +8D (3)

and use 0.5 (L) ₁ +L ₂ ) The protective film of the length, that is, in the length direction of the second cuboid corresponding to the protective film, occupies 0.5 (L) ₁ +L ₂ ) Of the length of (c).

By analogy, after the nth circumference of the article side surface is wound along the length edge of the protective film, the circumference of the bottom surface is changed into:

L _n ＝L _n-1 +8D＝L ₀ +8D·n (4)

and use 0.5 (L) _n-1 +L _n ) The protective film of length, i.e. in the direction of the length of the second cuboid to which the protective film corresponds, occupies 0.5 (L) _n-1 +L _n ) Length of (d).

Thus, the total used protective film length for n windings is:

because the using length of the protective film in the wrapping process should be less than the total length L of the protective film, therefore:

L ₀ n+4Dn ² ≤L (6)

when the above equation (6) is an equation and the winding is less than one week, the calculation formula of the winding number is:

thus, the bottom view of the protective film shown in fig. 5 after wrapping the article is shown, where 501 is the length x of the first rectangular solid before winding, and 502 is the width z of the first rectangular solid before winding; the length x 'of the third rectangular parallelepiped obtained after winding is indicated at 503, and the width z' of the third rectangular parallelepiped obtained after winding is indicated at 504. The length x ' and width z ' of the third cuboid after n ' turns of winding can be determined:

x′＝x+2Dn′ (8)

z′＝z+2Dn′ (9)

that is, with the above equations (8) and (9), it can be determined that the two shorter sides of the third rectangular parallelepiped formed after the wrapping in the wrapping manner, which correspond to the bottom surface, have the following dimensions according to the number of winding cycles and the thickness value of the second rectangular parallelepiped: the product of the number of windings and the thickness value of the second cuboid is increased by twice on the basis of the dimensions of the corresponding side in the first cuboid.

The length and the width value of the third cuboid that obtain after having determined the winding through above-mentioned mode, and about the height value of third cuboid, also be the size on longest limit in the third cuboid, because the top and the bottom of article can vacuole formation after the winding, then fold unnecessary protective film around the cavity, reuse sticky tape etc. are fixed. In this case, the height of the third cuboid varies in relation to the number of folds of the protective film. For example, as shown in fig. 6, which is a side view of the completed foldable package, 601 is a length x of the first rectangular parallelepiped, and 602 is a height y of the first rectangular parallelepiped; 603 is the height y 'of the third cuboid formed after wrapping, and 604 is the length x' of the third cuboid formed after wrapping. As can be seen from the above-mentioned fig. 6, the number of times of folding when the portion forming the cavity at the bottom surface is folded and wrapped can be determined first according to the magnitude relationship between the difference (i.e., H-y) between the shorter side of the second rectangular parallelepiped except the thickness side (i.e., the height side H of the second rectangular parallelepiped shown at 307 in fig. 3) and the longest side of the first rectangular parallelepiped (i.e., the height side y of the first rectangular parallelepiped shown at 304 in fig. 3) and the two sides of the bottom surface of the first rectangular parallelepiped (i.e., the length side x of the first rectangular parallelepiped shown at 303 and the width side z of the first rectangular parallelepiped shown at 305 in fig. 3). Then, the size of the longest side in the third rectangular parallelepiped can be obtained by increasing the product of the number of winding cycles, the thickness value of the second rectangular parallelepiped, and the number of folding times, on the basis of the size of the longest side in the first rectangular parallelepiped.

Wherein, the difference between the shorter side of the second cuboid except the thickness side and the longest side of the first cuboid may have various magnitude relations with the two sides of the bottom surface of the first cuboid, for example:

1. if H-y is less than or equal to x and H-y is less than or equal to z, then:

y′＝y+2Dn′ (10)

2. if H-y > x, H-y ≦ z, or H-y ≦ x, H-y > z, then:

y′＝y+4Dn′ (11)

3. if H-y > x, H-y > z, then:

y′＝y+8Dn′ (11)

through the method, the length, the width and the height of the third cuboid are determined, and then the volume of the third cuboid can be obtained according to the size of each side in the third cuboid.

V′＝x′y′z′＝(x+2Dn′)y′(z+2Dn′) (12)

S204: and recommending the type of the packing box/packing bag according to the size and/or volume of the third cuboid.

After the x ', y', z 'and V' are obtained, a suitable package box or package bag type can be recommended according to the values and the sizes of various package materials (including package boxes or package bags) of different types. Specifically, when package material model recommendation is performed, the package material model can be determined according to the size of each side of the third rectangular parallelepiped, or the package material model can be determined according to the volume of the third rectangular parallelepiped, or recommendation can be performed in combination with the size and volume information of the third rectangular parallelepiped, and so on. Of course, in such articles needing to be wrapped in advance by the protective film, the packaging box is generally more suitable to be used as a wrapping material, and therefore, a packaging box type wrapping material with a suitable type can be preferentially recommended.

In a word, through the scheme that this application embodiment provided, to the target article that need wrap up through the protecting film before vanning or bagging-off, can model the target article and the protecting film of treating the packing for the cuboid respectively, and acquire the size information of the first cuboid that the target article corresponds to and the size information of the second cuboid that the protecting film corresponds. Then, according to the size information of the first cuboid and the size information of the second cuboid, determining a wrapping mode when the target object is wrapped by the protective film, performing simulated wrapping on the target object according to the wrapping mode, and determining the size and/or volume of a third cuboid formed after wrapping. Thus, the type of the packing box/packing bag can be recommended according to the size and/or the volume of the third cuboid. By the method, the wrapping mode of the target object by the specific protective film is predicted before the specific wrapping material model is recommended, and the size and/or volume change condition after wrapping in the wrapping mode can be determined, so that the accuracy of the recommended wrapping material model can be improved, and the occurrence probability that the recommended wrapping material model is too large or too small is reduced.

Example two

The foregoing embodiments describe a method for providing package model recommendation information, which can be used in various application scenarios. In the second embodiment, a method for providing package material model recommendation information is provided mainly based on the application scenario of the packager user when packaging the target product, as shown in fig. 1, and with reference to fig. 7, the method may include:

s701: receiving identification information of a target commodity to be packaged, which is input by a user in a code scanning mode;

the specific users may be various, and for example, the specific users may include a packager in a warehouse or a physical store, a cashier in a physical store such as a supermarket, or a consumer user who shops in a physical store such as a supermarket. Correspondingly, the execution main body of each step in the embodiment of the present application may include a client program facing a packager, a cashier, and a consumer user, and specifically may be run on a terminal device used by the packager, or a cash settlement terminal used by the cashier, or a self-service settlement terminal provided for the consumer user, and the like.

S702: modeling a target commodity to be packaged and a protective film into cuboids respectively, and acquiring size information of a first cuboid corresponding to the target commodity and size information of a second cuboid corresponding to the protective film in a database query manner;

s703: determining a wrapping mode when the target commodity is wrapped by the protective film according to the size information of the first cuboid and the size information of the second cuboid;

s704: performing simulated wrapping on the target commodity according to the wrapping mode, and determining the size and/or volume of a third cuboid formed after wrapping;

s705: determining the type of a preferentially recommended packing box/packing bag according to the size and/or the volume of the third cuboid;

s706: and displaying the information of the preferentially recommended packing box/packing bag models through a target interface so that the user can select the packing box/packing bag models according to the recommended information.

For the parts of the second embodiment that are not described in detail, reference may be made to the descriptions of the first embodiment and other parts of the present specification, which are not described herein again.

It should be noted that, in the embodiments of the present application, the user data may be used, and in practical applications, the user-specific personal data may be used in the schemes described herein within the scope permitted by applicable laws and regulations under the condition of meeting the requirements of applicable laws and regulations in the country (for example, clear agreement of the user, actual notification to the user, and the like).

Corresponding to the first embodiment, an embodiment of the present application further provides an apparatus for providing package model recommendation information, and referring to fig. 8, the apparatus may include:

a pre-wrapping size information obtaining unit 801, configured to model a target article to be packaged and a protective film into cuboids respectively, and obtain size information of a first cuboid corresponding to the target article and size information of a second cuboid corresponding to the protective film;

a wrapping mode determining unit 802, configured to determine, according to the size information of the first cuboid and the size information of the second cuboid, a wrapping mode when the target object is wrapped by the protective film;

a post-package size determining unit 803, configured to perform simulated package on the target object according to the package manner, and determine a size and/or a volume of a third cuboid formed after the package;

and the packing material model recommending unit 804 is used for recommending the type of the packing box/packing bag according to the size and/or volume of the third cuboid.

Wherein, the parcel mode includes:

at this time, the post-package size determining unit specifically includes:

the winding cycle determining subunit is used for determining the winding cycle of the second cuboid around the side surface when the wrapping mode is used for wrapping the side surface of the first cuboid in a multi-cycle winding manner;

Specifically, the winding cycle number determining subunit may be specifically configured to:

expressing the length of the protective film required to be occupied in the longest side direction of the second cuboid as a third expression taking the winding circumference as a unique independent variable according to a first expression that the circumference of the bottom surface is changed along with the winding circumference and a second expression that the length of the protective film required to be occupied in the longest side direction of the second cuboid is changed along with the change of the circumference of the bottom surface;

determining the number of winding cycles with the third expression equal to the side length of the longest side in the second cuboid.

The size determination subunit may specifically be configured to:

according to the winding cycle and the thickness value of the second cuboid, determining that the sizes of two shorter sides corresponding to the bottom surface in the third cuboid after the third cuboid is wrapped according to the wrapping mode are as follows: the product of the number of windings and the thickness value of the second cuboid is increased by twice on the basis of the dimensions of the corresponding side in the first cuboid.

Additionally, the size determination subunit may be further operable to:

for the size of the longest edge in the third cuboid, determining the folding times when the part forming the cavity at the bottom surface is folded and wrapped according to the size relationship between the difference value between the shorter edge except the thickness edge in the second cuboid and the longest edge in the first cuboid and the two edges of the bottom surface in the first cuboid;

Furthermore, the post-package size determination unit may be further specifically configured to:

Corresponding to the second embodiment, an embodiment of the present application further provides an apparatus for providing package model recommendation information, and referring to fig. 9, the apparatus may include:

a code scanning input unit 901, configured to receive identification information of a target product to be packaged, which is input by a user in a code scanning manner;

a pre-wrapping size information obtaining unit 902, configured to model a target commodity to be packaged and a protective film into cuboids respectively, and obtain size information of a first cuboid corresponding to the target commodity and size information of a second cuboid corresponding to the protective film by querying a database;

a wrapping mode determining unit 903, configured to determine, according to the size information of the first cuboid and the size information of the second cuboid, a wrapping mode when the target commodity is wrapped by the protective film;

a post-package size determining unit 904, configured to perform simulated package on the target product according to the package manner, and determine a size and/or a volume of a third cuboid formed after the package;

the packaging material model determining unit 905 is used for determining the preferentially recommended type of the packaging box/packaging bag according to the size and/or volume of the third cuboid;

and a recommended information display unit 906, configured to display, through a target interface, the information about the preferentially recommended packing box/packaging bag model, so that the user selects a packing box/packaging bag model according to the recommended information.

In addition, the present application also provides a computer readable storage medium, on which a computer program is stored, which when executed by a processor implements the steps of the method described in any of the preceding method embodiments.

And an electronic device comprising:

one or more processors; and

a memory associated with the one or more processors for storing program instructions that, when read and executed by the one or more processors, perform the steps of the method of any of the preceding method embodiments.

Fig. 10 illustrates an architecture of an electronic device, which may specifically include a processor 1010, a video display adapter 1011, a disk drive 1012, an input/output interface 1013, a network interface 1014, and a memory 1020. The processor 1010, the video display adapter 1011, the disk drive 1012, the input/output interface 1013, and the network interface 1014, and the memory 1020 may be communicatively connected by a communication bus 1030.

The processor 1010 may be implemented by a general-purpose CPU (Central Processing Unit), a microprocessor, an Application Specific Integrated Circuit (ASIC), or one or more Integrated circuits, and is configured to execute a relevant program to implement the technical solution provided by the present Application.

The Memory 1020 may be implemented in the form of a ROM (Read Only Memory), a RAM (Random Access Memory), a static Memory device, a dynamic Memory device, or the like. The memory 1020 may store an operating system 1021 for controlling the operation of the electronic device 1000, a Basic Input Output System (BIOS) for controlling low-level operations of the electronic device 1000. In addition, a web browser 1023, a data storage management system 1024, a package model recommendation processing system 1025, and the like can also be stored. The packaging material model recommendation processing system 1025 can be an application program that implements the operations of the foregoing steps in this embodiment of the present application. In summary, when the technical solution provided in the present application is implemented by software or firmware, the relevant program codes are stored in the memory 1020 and called for execution by the processor 1010.

The input/output interface 1013 is used for connecting an input/output module to realize information input and output. The i/o module may be configured as a component in a device (not shown) or may be external to the device to provide a corresponding function. Wherein the input devices may include a keyboard, mouse, touch screen, microphone, various sensors, etc., and the output devices may include a display, speaker, vibrator, indicator light, etc.

The network interface 1014 is used for connecting a communication module (not shown in the figure) to realize the communication interaction between the device and other devices. The communication module can realize communication in a wired mode (such as USB, network cable and the like) and also can realize communication in a wireless mode (such as mobile network, WIFI, bluetooth and the like).

Bus 1030 includes a path that transfers information between various components of the device, such as processor 1010, video display adapter 1011, disk drive 1012, input/output interface 1013, network interface 1014, and memory 1020.

It should be noted that although the above-mentioned devices only show the processor 1010, the video display adapter 1011, the disk drive 1012, the input/output interface 1013, the network interface 1014, the memory 1020, the bus 1030 and the like, in a specific implementation, the device may also include other components necessary for normal operation. Furthermore, it will be understood by those skilled in the art that the apparatus described above may also include only the components necessary to implement the solution of the present application, and not necessarily all of the components shown in the figures.

From the above description of the embodiments, it is clear to those skilled in the art that the present application can be implemented by software plus necessary general hardware platform. Based on such understanding, the technical solutions of the present application or portions thereof that contribute to the prior art may be embodied in the form of a software product, which may be stored in a storage medium, such as a ROM/RAM, a magnetic disk, an optical disk, or the like, and includes several instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute the method according to the embodiments or some portions of the embodiments of the present application.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, the system or system embodiments are substantially similar to the method embodiments and therefore are described in a relatively simple manner, and reference may be made to some of the descriptions of the method embodiments for related points. The above-described system and system embodiments are merely illustrative, and the units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

The method, the device and the electronic device for providing package model recommendation information provided by the application are introduced in detail, specific examples are applied in the description to explain the principle and the implementation mode of the application, and the description of the embodiments is only used for helping to understand the method and the core idea of the application; meanwhile, for a person skilled in the art, according to the idea of the present application, the specific embodiments and the application range may be changed. In view of the above, the description should not be taken as limiting the application.

Claims

1. A method for providing package model recommendation information is characterized by comprising the following steps:

2. The method of claim 1,

the wrapping mode comprises the following steps:

and determining the size of each edge in the third cuboid formed after the third cuboid is wrapped according to the wrapping mode according to the number of the winding cycles and the thickness value of the second cuboid.

3. The method of claim 2,

when confirming according to the parcel mode when carrying out many weeks winding formula parcel around the side of first cuboid, the second cuboid can be around the winding number of weeks of side includes:

4. The method of claim 2,

determining the size of each edge in the third rectangular parallelepiped formed after the third rectangular parallelepiped is wrapped according to the wrapping manner according to the number of winding cycles and the thickness value of the second rectangular parallelepiped, and the determining includes:

according to the winding cycle and the thickness value of the second cuboid, determining that the sizes of two shorter sides corresponding to the bottom surface in the third cuboid after the third cuboid is wrapped according to the wrapping mode are as follows: on the basis of the dimensions of the corresponding sides in the first cuboid, twice the product of the winding number and the thickness value of the second cuboid is increased.

5. The method of claim 2,

the determining, according to the winding cycle and the thickness value of the second rectangular parallelepiped, the size of each edge in the third rectangular parallelepiped formed after the third rectangular parallelepiped is wrapped according to the wrapping method includes:

6. The method of claim 2, further comprising:

and obtaining the volume of the third cuboid according to the size of each edge in the third cuboid.

7. A method for providing package model recommendation information is characterized by comprising the following steps:

determining a preferentially recommended packing box/packing bag model according to the size and/or volume of the third cuboid;

8. An apparatus for providing package model recommendation information, comprising:

and the packing material model recommending unit is used for recommending the type of the packing box/packing bag according to the size and/or volume of the third cuboid.

9. An apparatus for providing package type recommendation information, comprising:

the wrapping mode determining unit is used for determining a wrapping mode when the target commodity is wrapped by the protective film according to the size information of the first cuboid and the size information of the second cuboid;

the packaging material model determining unit is used for determining the preferentially recommended type of the packaging box/packaging bag according to the size and/or volume of the third cuboid;

and the recommended information display unit is used for displaying the information of the preferentially recommended packing box/packing bag models through a target interface so that the user can select the packing box/packing bag models according to the recommended information.

10. A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the method according to any one of claims 1 to 7.

11. An electronic device, comprising:

one or more processors; and

a memory associated with the one or more processors for storing program instructions that, when read and executed by the one or more processors, perform the steps of the method of any of claims 1 to 7.