KR101632683B1 - System and method for ordering of printing packing box - Google Patents
System and method for ordering of printing packing box Download PDFInfo
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- KR101632683B1 KR101632683B1 KR1020150040302A KR20150040302A KR101632683B1 KR 101632683 B1 KR101632683 B1 KR 101632683B1 KR 1020150040302 A KR1020150040302 A KR 1020150040302A KR 20150040302 A KR20150040302 A KR 20150040302A KR 101632683 B1 KR101632683 B1 KR 101632683B1
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Abstract
Description
BACKGROUND OF THE
Currently, in the printed box packaging market such as books and advertisements, the publisher creates books and advertisements (hereinafter referred to as "printed materials") and requests packaging companies to box the printed materials. Generally, the operator has a structure for determining the suitable box and quantity by measuring the size of the printed material, and boxing the printed material.
However, in the conventional printed-box packaging market, the selection of the appropriate box and the selection of the storage state are manually performed depending on the experience of the operator, which lowers the working efficiency and causes defects due to errors of the operator. Efforts are being made to
As a result of this effort, in the prior art Patent No. 10-2003-0023186, a box ordering method using an on-line where a user sets a box shape, a size pattern, a pattern, a character, and the like is produced and produced have.
However, in the case of the prior art, it is not applicable to the ready-made box, and it can be applied only to a box custom-made and customized, so that the production unit cost remarkably increases.
Since all the information about the product to be produced must be provided by the purchaser, product selection is made depending on the skill level of the purchaser, so that there is a problem that the stability against the packaging efficiency can not be secured.
SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the related art, and it is an object of the present invention to provide a method and apparatus for comparing a printed matter inputted from a purchaser with information of ready boxes provided from a supplier, And to provide a system and method for ordering a printed packaging box that can provide an optimum box among ready boxes to an orderer.
According to the present invention, there is provided a system and method for automatically selecting a box and a storage form suitable for a printed material in a system in a system, and selecting a packaging box for a printed material without depending on skill of a worker, System and method.
According to an aspect of the present invention, there is provided a printed matter packaging box ordering system, wherein a suitability for a ready-made box is calculated according to information of an input printed matter, A priority calculating unit for calculating the number of boxes and the space ratio according to the arrangement of the printed materials according to the printed matter information input from the ordering terminal and determining the priority according to the degree of suitability of the box; And a quote calculating unit for calculating quote based on the required quantity; A storage unit including a product information DB storing box information inputted from the vendor terminal to calculate an appropriate box and an estimate of the operation unit; And a delivery order creating unit for creating a work order to be transmitted to the vendor terminal according to an order command received from the ordering terminal.
At this time, the printed material information input from the orderer terminal may include at least one of the size, the quantity, and the bookbinding form of the printed matter.
Further, the priority calculation unit may calculate a standard size of the printed matter; Calculating the stored amount of the printed matter according to the arrangement form of the printed matter on the stored canned boxes; Calculating a space ratio according to each arrangement state with the calculated storage amount; It is possible to calculate the arrangement type and the quantity for the corresponding box by comparing the respective space ratios and selecting the minimum space ratio.
The standard size is a size obtained by simplifying a print form to a rectangular parallelepiped; The arrangement form of the printed matter may be any one of horizontal horizontal arrangement, horizontal arrangement, vertical arrangement and vertical arrangement.
Further, the space factor is calculated by a formula of a space factor (%) = [{x * y * z- (L * T * H) * n} / x * y * , y and z are the lengths of the target box in the width, height and height respectively; L, T, and H are the lateral length of the printed side portion, the lateral length of the front portion, and the longitudinal length of the side portion, respectively, calculated as standard sizes; n may be the maximum storage amount of the calculated printed matter.
The box information may include a box type, a box size, and a unit price.
According to another aspect of the present invention, there is provided a method for ordering a printed packaging box, the method comprising the steps of: (A) The printed information is input by the connected purchaser through the purchaser terminal; (B) comparing the inputted printed matter information with the stored box information to calculate a fitness for the ready boxes; (C) calculating an estimate for each box in which the goodness of fit is calculated; And (D) generating and providing custom-supplier-provided data including the fitness and the estimate calculated for the existing boxes.
The step (B) may include: (B1) calculating a standard size of a printed matter; (B2) calculating the storage quantity of the packaging box according to the arrangement form of the printed matter; (B3) calculating a space ratio according to each arrangement state in the calculated storage amount; (B4), calculating a minimum number of space ratios, and calculating an arrangement type and a quantity; (B5) calculating a fitness of the packaging box according to the minimum space ratio calculated in the step (B4); And (B6) repeating the steps (B1) to (B5) for the stored ready boxes.
At this time, the arrangement state may be any one of horizontal horizontal arrangement, horizontal arrangement, vertical arrangement and vertical arrangement.
The printed matter information input from the orderer terminal may include at least one of a size, a quantity, and a bookbinding form of the printed matter.
The providing of the orderer providing data in the step (D) may be arranged according to the calculation of the fitness of the box and provided to the user.
Meanwhile, the space ratio in the step (C3) may be expressed by a formula of a space ratio (%) = [{x * y * z- (L * T * H) * n} / x * y * Where x, y, z are the lengths of the sides, height, and height of the target box, respectively; L, T, and H are the lateral length of the printed side portion, the lateral length of the front portion, and the longitudinal length of the side portion, respectively, calculated as standard sizes; n is the maximum storage quantity of the printed material
The method may further include: (E) generating the work order according to the box selection input from the ordering terminal and transmitting the work order to the vendor terminal.
The box information stored in the box management server may be stored by inputting the box information through the vendor terminal connected to the box management server.
In the system and method for ordering a printed matter packaging box according to the present invention as described above, the following effects can be expected.
The present invention has the effect of providing the purchaser with an optimal box among the ready-made boxes, since information on the printed material is input from the purchaser and the required quantity and estimate are calculated for the ready-made boxes provided from the supplier.
According to the present invention, in the selection of the packaging box of the printed material, the required quantity and estimate of the ready-made boxes are calculated according to the storage form of the printed matter through the automated system, There is an effect that the efficiency can be increased.
FIG. 1 is a flowchart showing a printing automation management method according to the related art.
BACKGROUND OF THE
3 is a flowchart illustrating a method for ordering a printed matter packaging box according to the present invention.
4 is a detailed flowchart showing a method of calculating box suitability in a method for ordering a printed matter packaging box according to the present invention.
5 is an exemplary view for explaining the direction of a surface of a printed matter in a method for ordering a printed matter packaging box according to the present invention.
6 is an exemplary view showing an example of margin calculation in the method for ordering a printed matter packaging box according to the present invention.
FIG. 7 is an exemplary view showing an example of a printed material information input screen and an orderer provided data output screen in a printed material packing box ordering method according to the present invention; FIG.
Hereinafter, a system and method for ordering a printed matter packaging box according to a specific embodiment of the present invention will be described with reference to the accompanying drawings.
2 is a block diagram showing the configuration of a system for ordering a printed matter packaging box according to the present invention.
As shown in the figure, the system for ordering the printed matter packaging box according to the present invention includes the
The
The
At this time, the
The
On the other hand, the delivery
The
The job type of the deliverer is to deliver the printed material according to the contents of the work order and to package the printed material by using the box corresponding to the job order form. In the case where only the delivery of the box is desired in the work order form, It also carries out the delivery of the selected box among the boxes according to the quantity.
Hereinafter, a method for ordering a printed matter packaging box according to the present invention will be described in detail with reference to the accompanying drawings.
FIG. 3 is a flowchart illustrating a method for ordering a printed matter packaging box according to the present invention, FIG. 4 is a detailed flowchart illustrating a method of calculating box suitability in a method for ordering a printed matter packaging box according to the present invention, FIG. 6 is an exemplary view showing an example of margin calculation in the method of ordering a printed matter packaging box according to the present invention, and FIG. 7 is a view showing an example of a printout according to the present invention FIG. 8 is an exemplary diagram showing an example of a printed material information input screen and an orderer provided data output screen in a packing box ordering method; FIG.
First, as shown in FIG. 3, the method for ordering a printed matter packaging box according to the present invention starts with receiving box information held from the vendor terminal 300 (S110).
At this time, as shown in FIG. 7, the box information includes a box size, a unit price, a box unique number, a manufacturer, an area, a factory name, and an inventory quantity.
Thereafter, the
As described above, the
On the other hand, the box order process by the purchaser starts with the
Here, the printed material information includes the size, quantity, and bookbinding form of the printed material, and may further include the weight and the material of the printed matter.
At this time, the printed material size refers to the size of the printed material, and is represented by the length (L), the width (T), and the height (H) of the completed single printed material.
Of course, the criteria of the length L, width T, and height H are variously determined according to the printed book binding method, and will be described again.
The bookbinding mode refers to the type of book binding. For example, the bookbinding mode refers to the type of the book binding. For example, the bookbinding mode may be a type of book binding such as a wireless binding (general rice cake binding), a suit binding, a spring binding, a triangular spring binding, There is binding type.
After the
A method of calculating the box fitness will be described in detail with reference to FIG.
First, in order to calculate the box fitness, a standard size of the standardized printed material is calculated from the size of the printed material included in the printed material information received from the ordering terminal 100 (S231).
In this case, the standard size means that the printed matter has various bookbinding forms and is standardized into a simplified rectangular virtual form.
This is intended to provide a size and a volume of a standardized print which can be applied to the space factor calculation described later.
For convenience of explanation, as shown in Fig. 5, when the bookbinding surface of the printed matter is directed to the front, the upper portion of the printed matter is divided into a flat portion, both side portions perpendicular to the flat portion, The lateral length of the side portion of the printed matter is referred to as a length (L), the lateral length of the front portion is defined as a width (T), and the longitudinal length of the side portion is referred to as high (H).
In the case of wireless bookbinding, the length (L), width (T), and high (H) portions become standard sizes as shown in FIG. 5 .
In case of booklet binding, a semi-circular protruding part is formed on the front part, so the height should be added to the length (L).
In addition, as shown in FIG. 6, in the case of spring binding, a spring is formed on one side, so the length L and the width T need not be overlapped with the size of the book.
That is, the length L of the spring bookbinding is calculated by summing (a + b + c) the length a of the spring, the length b of the printed material and the length of the overlapping length of the printed material, ) Is calculated as t, which is the height of the printed material. In calculating the margin to be described later, the process of adding the length of 2D obtained by subtracting the height (t) of the printed material from the height of the spring is added to the sum of the widths of all the printed materials need.
On the other hand, in the case of the triangular spring binding, it is basically the same as the spring binding, but the height (t) of the printed material is set to the sum of the thickness of the triangular portion and the printed page, (A + b + c), which is obtained by subtracting the overlap length of the print from the length b of the length of the print, is set to the length of the tripod portion.
After calculating the standard size in this way, the stored amount of the printed matter is calculated while changing the arrangement state with respect to the target box (S233).
At this time, the arrangement state may include horizontal horizontal arrangement, horizontal sort arrangement, vertical arrangement arrangement and vertical arrangement arrangement.
Here, the horizontal horizontal arrangement refers to a state in which the side surface portion of the printed matter faces the bottom of the box and the plane portion of the printed matter is arranged in parallel on the long side of the box. The horizontal type arrangement means that the side portion of the printed matter faces the bottom of the box, Quot ;, and " front side portions "
The vertical horizontal arrangement refers to a state in which the front portion of the printed matter faces the bottom of the box and the plane portion of the printed matter is arranged parallel to the long side of the box. In which the side portions of the light guide plate are arranged in parallel.
However, in the case of the vertical transverse arrangement and the vertical vertical arrangement, it is possible to assume that stacking of only one stage is possible because stacking of multi-tiered prints in the vertical direction can hinder the stability of printed matter. Of course, when the intermediate member is inserted between the stages, it is also possible to stack the stages in multiple stages.
Therefore, the calculation of the printed matter storage quantity calculates the quantity of printed matter that can be stored in maximum in accordance with the respective arrangement states as described above on the inner space of the object box.
At this time, it is possible to set an essential free space (hereinafter, referred to as 'spare') on the inner side of the box.
In the case of the redundancy, it means that a predetermined clearance space is provided so that the user can grip the printed matter after box packaging. The size and position of the redundancy can be variously set according to the preference of the user.
Therefore, when the printed matter storage amount is calculated, the printed matter can not be stacked in the box, or when it can be stacked but the margin can not be secured, it can be judged by disqualification processing.
Thereafter, the space factor according to each array state is calculated (S235).
Here, the space ratio refers to the ratio of the empty space occupied by the printed matter when the printed matter is placed in the box.
Therefore, the space factor can be expressed by the following equation (1).
[Equation 1]
Space ratio (%) = [{x * y * z- (L * T * H) * n} / x * y * z * 100
In Equation (1), x, y, and z denote the lengths of the target box, L, T, and H, respectively. The lateral lengths of the side portions, the lateral lengths of the front portions, And n is a maximum storage amount of the printed matter calculated in step 233. [
That is, Equation (1) is obtained by subtracting the volume of the entire book from the volume of the whole box as a percentage.
In this manner, the spatial rate of the horizontal horizontal arrangement, the horizontal vertical arrangement, the vertical horizontal arrangement and the vertical arrangement is calculated (S237), and the arrangement in which the smallest spatial ratio is obtained is selected as the minimum spatial ratio of the corresponding box .
At this time, the loaded quantity and the array type are determined according to the array type in which the minimum space rate is calculated (S239).
Thereafter, steps 231 to 239 are performed for each of the boxes, and the minimum space ratio and the arrangement type for each box are calculated.
That is, the fitness for each ready box is evaluated to be higher as the minimum space ratio calculated in step 239 is smaller.
Then, the necessary quantity of each box is calculated, the unit price is applied, and the estimate for each box is calculated (S240).
Next, the
The orderer providing data includes box type, box size, arrangement type, total quantity, total unit price, and space factor for each box.
As shown in Fig. 7, the arrangement may be expressed in terms of the length L, width T, and height H which are set in the box.
The box type indicates the material of the box, and typically can be divided into a single-ply material and a double-ply material.
Compared to normal single-ply material, double-ply material can be specially selected for the user for overseas delivery or securing the stability of contents.
And the orderer providing data is preferably arranged in accordance with the calculation of the fitness of the box and provided to the user.
That is, it is possible to preferentially provide the user with a box shape having a high storage efficiency by arranging the box from the box having a small space factor to the top.
Then, the ordering
Thereafter, the
7, the
It will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the invention as defined in the appended claims. It is self-evident.
For example, in the above detailed description of the present invention, the operation unit and the delivery order creation unit are included in the box management server, and the ordering terminal connected to the box management server on-line transmits, via the input window provided by the box management server, An embodiment has been described in which the printed material information is inputted to the server and the box management server provides boxes of high suitability to the purchaser through the calculation according to the present invention.
However, it is also possible that the present invention provides a program for the execution of the present invention to a custom terminal, and the operation unit and the delivery order generation unit are included in the program.
That is, the orderer terminal is provided with a provided program, calculates the boxes having high suitability by using the operation unit provided on the program according to the information of the printed material inputted from the orderer, provides the calculated boxes to the orderer, It is also possible to generate a delivery order through the generation unit and transmit it to the vendor terminal.
In this case, since the box information needs to be updated in real time, it is preferable to use the box information from the box management server.
Of course, the box information may also be included in a program for execution of the present invention when the efficiency of updating is excluded.
BACKGROUND OF THE
100: customer terminal 200: box management server
210: Operation unit 212:
214: quotation calculation unit 220:
222: product information DB 230: delivery order creation section
300: Supplier terminal
Claims (14)
A priority calculating unit for calculating the number of boxes and the space ratio according to the arrangement of printed matter according to the printed matter information inputted from the ordering terminal and determining a priority according to the degree of fitness of the box; A calculation unit configured to calculate a quotation according to the estimated price;
A storage unit configured to store the box information received from the vendor terminal and the product information DB to calculate an estimate box and an estimate; And
And a delivery order creating unit operable to create a work order to be transmitted to the vendor terminal according to an order command received from the purchaser terminal,
The printed matter information input from the orderer terminal is,
A size, a quantity, or a bookbinding form of the printed matter:
The priority calculation unit may calculate,
Calculating a standard size of the printed material;
Calculating the stored amount of the printed matter according to the arrangement form of the printed matter on the stored canned boxes;
Calculating a space ratio according to each arrangement state with the calculated storage amount;
The minimum space ratio is selected by comparing the respective space ratios to calculate the arrangement type and quantity for the corresponding box,
In the standard size,
By simplifying the print form into a rectangular parallelepiped according to the bookbinding method,
(L), the width (T), and the high (H) length of the printed matter when the printed matter is a wireless bookbinding;
When the printed matter is full-length binding, is determined by the length (L) of the width of the print (T), the height (H) and the length of the projecting portion in the form of a semicircular arc on the front portion;
(H), width (T) of the print, and length of one spring (a) and length of the print (b), and c obtained by subtracting the overlap length of the print from the length of the spring (L) < / RTI > length:
The arrangement form of the printed matter may be,
Horizontal horizontal arrangement, horizontal sort arrangement, vertical arrangement arrangement and vertical arrangement arrangement:
The storage amount calculation of the priority calculation unit may include:
Wherein a margin, which is a gripping space of a user for inputting / outputting a printed matter after box packing, is given to the inner side of the box and is calculated.
The space-
(%) = [{X * y * z- (L * T * H) * n} / x * y * z] * 100,
Where x, y, and z are the lengths of the sides, height, and height of the target box; L, T, and H are the lateral length of the printed side portion, the lateral length of the front portion, and the longitudinal length of the side portion, respectively, calculated as standard sizes; and n is a maximum storage amount of the calculated printed matter.
The box information includes:
A box type, a box size, and a unit price.
(A) an orderer connected to a box management server storing box information inputs printout information through an ordering terminal;
(B) comparing the inputted printed matter information with the stored box information to calculate a fitness for the ready boxes;
(C) calculating an estimate for each box in which the goodness of fit is calculated; And
(D) generating and providing the supplier-provided data, including said goodness-of-fit and the estimate calculated for the initial boxes,
The step (B)
(B1) calculating a standard size of a printed matter;
(B2) calculating the storage quantity of the packaging box according to the arrangement form of the printed matter;
(B3) calculating a space ratio according to each arrangement state in the calculated storage amount;
(B4), calculating a minimum number of space ratios, and calculating an arrangement type and a quantity;
(B5) calculating a fitness of the packaging box according to the minimum space ratio calculated in the step (B4); And
(B6) Performing the steps (B1) to (B5) repeatedly on the stored ready boxes:
In the arrangement state,
Horizontal transverse arrangement, horizontal transverse arrangement, vertical transverse arrangement and vertical bell arrangement:
The printed matter information input from the orderer terminal is,
A size, a quantity, or a bookbinding form of the printed matter:
The providing of the orderer providing data in the step (D)
Lt; RTI ID = 0.0 > fit < / RTI >
The standard size of the step (B1)
By simplifying the print form into a rectangular parallelepiped according to the bookbinding method,
(L), the width (T), and the high (H) length of the printed matter when the printed matter is a wireless bookbinding;
When the printed matter is full-length binding, is determined by the length (L) of the width of the print (T), the height (H) and the length of the projecting portion in the form of a semicircular arc on the front portion;
(H), width (T) of the print, and length of one spring (a) and length of the print (b), and c obtained by subtracting the overlap length of the print from the length of the spring (L) < / RTI > length:
The storage quantity calculation of the (B2)
Wherein a margin for a user's gripping space for inputting / outputting a printed product after packaging the box is calculated on the inner side of the box.
The space factor of the (C3)
(%) = [{X * y * z- (L * T * H) * n} / x * y * z] * 100,
Where x, y, and z are the lengths of the sides, height, and height of the target box; L, T, and H are the lateral length of the printed side portion, the lateral length of the front portion, and the longitudinal length of the side portion, respectively, calculated as standard sizes; and n is a maximum storage amount of the calculated printed matter.
(E) generating a work order according to a box selection input from the ordering terminal and transmitting the work order to the vendor terminal.
Wherein the box information stored in the box management server comprises:
Wherein the order information is stored by inputting box information through a vendor terminal connected to the box management server.
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JP2006185207A (en) * | 2004-12-28 | 2006-07-13 | Boxboost:Kk | Method for ordering corrugated fiberboard box |
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2015
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Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
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KR20000059030A (en) * | 2000-07-10 | 2000-10-05 | 김성윤 | gradualization and standardization of corrugate board box |
KR20030023186A (en) | 2001-09-12 | 2003-03-19 | 엘지엔시스(주) | Apparatus for locking cassette in automatic teller machine |
JP2003175918A (en) * | 2001-12-13 | 2003-06-24 | Toppan Printing Co Ltd | System, method and program for selecting packing configuration |
JP2006185207A (en) * | 2004-12-28 | 2006-07-13 | Boxboost:Kk | Method for ordering corrugated fiberboard box |
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