KR20180005874A - Method for cutting a material - Google Patents

Abstract

The present invention relates to a raw material cutting planning method for minimizing the raw material residue amount. According to an embodiment of the present invention, the raw material cutting planning method includes: a raw material and item list input storage step; a step of generating a first item allocation combination of individual raw materials; a step of generating a second combination item allocation combination of the individual raw materials; a step of storing an item allocation combination with the best yield in a list of the item allocation combinations of the individual raw materials; and recombining a part of the combinations included in the list of the item allocation combinations of the individual raw materials when all items are allocated.

Description

[0001] METHOD FOR CUTTING A MATERIAL [0002]

The present invention relates to a raw material cutting plan method for cutting raw materials such as metal or wood such as steel, and more particularly, to a raw material cutting plan method for minimizing the remaining amount of raw materials.

In the field of construction and construction, a large amount of steel having various shapes and various lengths is used depending on members such as foundation, pillars, walls, beams, slabs and the like. The steel used in the construction site is relatively expensive and is used in large quantities. When it is processed and assembled, it is equivalent to the amount to be discarded by scrap iron. Therefore, it is desirable to minimize the steel that is discarded by efficiently cutting the steel to the length and usage It will be more important.

For example, if the length of the steel produced by the steelmaker is 10m and 20m, and the length of steel required by the construction site is 6m, 6m, 10m, 20m, Steel is treated with scrap iron and discarded. In order to minimize these losses, a cutting plan is established so as to minimize the amount of steel material by combining the lengths of steel materials required for various raw materials. However, this also requires a considerable amount of work time because it depends on the manual work of the operator. There are various combinations, and it is not so easy to calculate and extract the optimal balance among these combinations. This is a problem that occurs not only in steel but also in the case of cutting raw materials such as copper pipe, wood, etc. (hereinafter, a material having a line length is defined as 'raw material').

Korean Patent Publication No. 10-2008-0066097 Korean Patent Publication No. 10-1587974

The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an apparatus and a method for cutting a raw material that can generate and output an optimal combination of items for each raw material so as to minimize the remaining amount of raw materials Plan method,

Yet another object of the present invention is to provide a method and apparatus for generating an item allocation combination for each commodity by a plurality of methods and comparing the yield of the item allocation combination for each commodity to output an item allocation combination for each commodity having an excellent yield, And to provide a method for cutting a raw material.

According to a first aspect of the present invention, there is provided a method of cutting a raw material according to a first embodiment of the present invention,

A first step of receiving and storing a raw material list and an item list;

A second step of generating an item allocation first combination for each commodity by sequentially selecting the commodities from the commodity list and allocating the items;

A third step of generating an item allocation second combination for each material item by allocating another item after excluding any one kind of item from each of the item allocation first combination of each raw material;

A fourth step of storing the item allocation combination for each raw material with the highest yield in the first item combination and the second combination for each raw material in the item allocation combination list for each raw material;

A step of repeating the second step and the fourth step until there is no item arranged in the item list in such a manner that the raw material and item information constituting the item allocation combination for each stored raw material are excluded from the raw material list and the item list 5 steps;

The item and the items constituting the combination having the yields lower than the specified value among the item assignment combinations for each raw material stored in the item assignment combination list for each raw material are stored again in the raw materials and the item list, A sixth step of searching and reallocating from the list and storing it;

A seventh step of repeating the second and fifth steps for the raw materials and items remaining in the raw material list and the item list after the sixth step;

The n pieces of the item allocation combinations stored in the sixth and seventh steps are selected, and the yields obtained by recombining the raw materials and items constituting the selected combination are compared with the yields before the recombination, An eighth step of storing a good combination in the item-item combination combination list per raw material;

And outputting or outputting the item allocation combination list for each raw material stored in the eighth step.

Further, in the above-described raw material cutting plan method,

The first item combination is selected by sequentially selecting the shortest raw material that can allocate the longest item from the item list and sequentially assigning the long item to the sequentially selected raw material As another feature,

In the third step, after the item having the second longest length is excluded from each of the item-by-item-item first combinations, the remaining items are sequentially allocated in the order of the longest length, Other features.

Further, in the above-described raw material cutting plan method,

Three combinations among the item assignment combinations stored in the sixth and seventh steps are selected and the raw materials and items constituting the selected combination are respectively stored in the temporary and list of items, And arranging the items sequentially in order of length, checking whether or not the length of the last ordered raw material can be reduced, and recombining the items so that the yield is increased;

An 8-2 step of comparing the yields of the three combinations selected in the step 8-1 and the recombined yields and storing the combination having a good yield in the item assignment combination list for each material;

In step 8-2, the two combinations are selected from the item-item combination list of each raw material, the items constituting the selected combination are stored in the temporary item list, and the items stored in the temporary item list are allocated while changing the length of the raw material And comparing the yield obtained by the recombination method with the yield before recombination, and storing the combination having a good yield in the item assignment combination list for each raw material.

A method of cutting a raw material according to a second embodiment of the present invention is also a method executable in a computer system,

A first step of receiving and storing a raw material list and an item list;

A first step of accessing the raw materials and items to be combined from the raw material and item list and assigning the accessed items to the accessed raw material to generate an optimum combination of item-by-commodity item allocation with the minimum remaining amount;

Comparing the remaining remaining amount of the item allocation combination for each of the optimal raw materials with one of a plurality of preset remaining residual limit values and incorporating the optimal item allocation combination for each raw material into the item allocation combination list for each raw material, A second step of changing the kind of the raw material and repeating the steps until all the items included in the item list are allocated in such a manner as to return the first step to be performed again;

It is possible to reallocate the combination items having the greatest remaining amount among the optimal item allocation combinations for each of the raw materials incorporated in the item allocation combination list for each of the raw materials to the item allocation combinations for the different optimal materials, A third step of comparing the yield before reallocation to update the item allocation combination list of each material with good yield information;

N combinations among the item allocation combinations for each raw material constituting the item allocation combination list for each raw material are selected and the yield obtained by recombining the raw materials and items constituting the selected combination is compared with the yield for the combination before the recombination, A fourth step of updating the item assignment combination list for each material by a combination;

A fifth step of searching for and replacing the raw material which can increase the yield by reducing the length of the raw material in each of the optimal item allocation combinations for each raw material constituting the updated item allocation combination list for each raw material;

And a sixth step of outputting or outputting an updated item allocation combination list for each raw material through the fifth step.

In the fourth step of the raw material cutting plan method according to the second embodiment,

Three combinations of item allocation combinations for each raw material are selected and raw materials and items constituting the selected combination are respectively stored in the temporary raw material list and the item list and the three raw materials are sorted in order of length, (4-1) of checking whether the length of the finally sorted raw material can be reduced and recombining the raw material so as to increase the yield;

A step 4-2 of comparing the yields of the three combinations selected in the step 4-1 and the recombined yields and storing the combination having a good yield rate in the item assignment combination list for each raw material;

In step 4-2, two combinations are selected from the item-item combination combination lists stored in the raw materials, the items constituting the selected combination are stored in the temporary item list, and the items stored in the temporary item list are allocated while changing the length of the raw materials And a fourth step of comparing the yield obtained by the recombination method and the yield of the combination prior to recombination and storing the combination having a good yield in the item assignment combination list for each raw material.

Since the yield obtained by the raw material cutting plan method according to the two embodiments of the present invention shows a better yield than that of the "raw material cutting plan system" which is registered and registered by the applicant of the present application, the remaining amount of the raw materials, It is a minimized invention.

In addition, since the present invention generates the optimal item allocation combination list for each raw material in two different ways and then outputs the item allocation combination list for each raw material with a better yield, And it can be applied widely to computer systems such as a desktop PC, a mobile device, and a server computer, thereby providing an on / offline service.

1 is a flow chart for explaining a raw material cutting plan method according to a first embodiment of the present invention;
FIG. 2 is a flowchart for explaining a process of updating an item assignment combination list of raw materials in FIG. 1; FIG.
3 is a flowchart for explaining a raw material cutting plan method according to a second embodiment of the present invention.
4 is a yield chart of a raw material cutting plan according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout. It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. , ≪ / RTI > equivalents, and alternatives.

Among the terms used below, the list of the raw materials and the list of the items shows a list in which a plurality of types of raw materials (lengths) are listed, and a list in which items (lengths) corresponding to the requested cuts are listed. The item allocation combination for each raw material is defined as a combination of the item (s) assignable to one raw material, and the item allocation combination list for each raw material is defined as a list in which the optimized item allocation combinations for each raw material are listed do.

Further, the raw material cutting plan method according to the embodiment of the present invention is interpreted as a microcomputer capable of arithmetic processing such as a computer system, for example, a desktop PC, a server computer, a mobile device, It may be implemented as a collection of executable program code in such a computer system, and may be stored in a communication network, memory, or magnetic recording medium and installed in a computer system. It can also be produced and distributed as an app for mobile devices.

Hereinafter, a description will be given on the assumption that a set of program codes for implementing a method of cutting a raw material according to an embodiment of the present invention is installed in a memory of a computer system that is a general desktop PC and is executed by a control unit.

FIG. 1 is a flowchart for explaining a method of cutting a raw material according to a first embodiment of the present invention, and FIG. 2 is a flowchart illustrating a process of updating an item allocation combination list for each raw material in FIG. 1 will be.

Referring to FIG. 1, the control unit receives a list of a list of raw materials and item information in which raw material information is listed, and stores the list in a temporary memory (step S10). The raw material information includes at least the number of kinds (length) of the raw material, and the item information may include the length and the number of pieces to be cut. Such a list of raw materials and items can be inputted by an administrator through an input device of a computer system.

When a command for executing the Raw Material Disconnection Plan Method is input in a state that the Raw Material List and the Item List are inputted, the controller generates the first combination of item allocation for each Raw Material by sequentially selecting the Raw Material from the Raw Material List S12).

More specifically, the shortest raw material (for example, A) capable of allocating the longest item in the item list is sequentially selected from the raw material list, and the long item is sequentially assigned to the sequentially selected raw materials Item 1, item 2, item 1, item 2, item 3, item 3, item 3, item 3, The first combination of item allocation for each commodity is generated by changing the length of the commodity.

In addition, the control unit generates a second item-allocation-by-raw material item combination by excluding any one kind of item from each of the item-specific first item combination and then allocating another item (Step S14).

More specifically, after excluding the secondly allocated item (for example, a) in each of the item-specific item allocation combinations of the items, the remaining items are sequentially allocated in the order of the longest length, . For example, if item 1 is assigned to an item, then item A, item A, item A, item I, item I, item I, item I, : Creates a second combination of item allocation for each commodity, such as, me, me, me, da, ...

On the other hand, the control unit stores the combination of the item allocation for each raw material in the first item combination and the item combination for each item in the second combination (step S16). It is desirable to find an item assignment combination having the best yield by comparing the yield of the newly generated combination with the yield of the previous combination in order to increase the operation speed.

Steps S12 to S16 are repeated until there is no unassigned item in the item list. That is, the controller removes the raw material and item information constituting the item allocation combination for each raw material stored in the item allocation combination list for each raw material from the raw material list and the item list, until the item in the item list is absent (step S18) Step S16 are repeated. It is understood that this repetition is equivalent to the sequential selection of the raw materials described above.

If the steps S12 to S16 are repeated until there is no unassigned item in the item list, a plurality of combinations, that is, a combination of item-specific item assignments per raw material, will be stored in the item-assignment combination list of each raw material.

In this case, the control unit recombines a part of the combination included in the item assignment combination list for each raw material (step S20). In detail, the control unit stores the raw materials and items constituting the combination having a predetermined yield, for example, less than 90%, among the item assignment combinations for each raw material stored in the item assignment combination list for each raw material, And further allocatable items to combinations having a yield of 90% or more are searched and reassigned from the item list and stored. In this case, there may be an item that is not yet assigned to the item list.

The control unit then repeats steps S12 to S18 for the raw materials and items remaining in the raw material list and the item list to generate a new item combination for each raw material (step S22).

Thereafter, the control unit selects n combinations among the item assignment combinations for each raw material stored in the item assignment combination list for each raw material through steps S20 and S22, and combines the raw materials and items constituting the selected combination in a yield obtained by the combination before the recombination (Step S24). In step S24, it is determined whether or not the combination of the items is good.

2, the controller selects three combinations among the item assignment combinations stored in the raw materials through steps S20 and S22 (step S24-2), and selects the raw materials and items constituting the selected combination Each item is stored in a temporary list of raw materials and items, and the three raw materials are sorted in order from short to long. Then, items are sequentially allocated from the short raw materials, and the yield is increased by checking whether the length of the last sorted raw materials can be reduced , Reducing the length of the raw material), and updates the item assignment combination list for each raw material (step S24-4).

Further, the controller selects two combinations from the list of item allocation combination items stored in step S24-4, stores the items constituting the selected combination in the temporary item list, and changes the length of the item to store the items stored in the temporary item list And the yield obtained by the recombination is compared with the yield obtained before the recombination, and a good combination is stored in the item allocation combination list for each raw material.

Then, the control unit prints out the stored item combination list for each raw material, which is stored through the above-described steps, through a printer or the like or displays the output list on the display unit.

Using the above-described raw material cutting plan method, a yield higher than that obtained by the "raw material cutting plan system" previously filed and registered by the present applicant (application No. 10-2015-0086483) can be obtained, and as a result, An effect of minimizing the remaining amount of raw materials can be obtained.

For reference, FIG. 4 illustrates a yield table by a raw material cutting plan method according to an embodiment of the present invention, wherein Best_fit and SA represent the yields obtained by the two methods disclosed in Application No. 10-2015-0086483 And the method A shows the yields obtained by the raw material cutting plan method according to the first embodiment of the present invention described above. B shows the yield obtained by the raw material cutting plan method according to the second embodiment of the present invention described below.

4, the yield obtained by the raw material cutting plan method (method A) according to the first embodiment of the present invention shows a better yield than Best_fit, or the raw material cutting plan method (B method) according to the second embodiment ) Shows better yield than Best_fit. Therefore, if both the raw material cutting plan method (A system) according to the first embodiment of the present invention and the raw material cutting plan method (B system) according to the second embodiment are executed and a combination with a good yield is selected, As a result, the present invention can be said to be an improved type of invention having a better effect than the "raw material cutting plan system " registered and registered by the present applicant.

3, the raw material cutting plan method (method B) according to the second embodiment of the present invention will be described in detail. The raw material cutting plan method according to the second embodiment of the present invention is a combination method for finding the best combination with respect to one raw material.

First, the control unit receives the list of the raw material list and the item information as described above, and stores the list in the temporary memory (step S30).

Thereafter, the control unit accesses the raw materials and items to be combined from the raw material and item list, allocates the accessed items to the accessed raw materials, and creates optimal optimal combination of item-by-commodity item allocation in step S32.

The control unit compares the generated remaining amount of the item assignment combination for each of the raw materials with any one of a plurality of preset remaining charge limit values, for example, 300, 500, 1000 and 2000. If the comparison result is smaller than the remaining limit value, (Step S34), or return to perform the step S32 again by changing the kind of the raw material (step S34). In this case, (S34), and repeats the above steps until all of the items included in the item list are allocated in a manner of comparing with one of the remaining limit values of the plurality of items.

For the reference, the remaining amount of the optimal allocation of the item assignment combination for each raw material is compared with the initial residual limit value 300. The time point when the remaining amount limit value 300 is changed to 500 is a method in which after the step S32 is repeatedly performed on all the raw materials included in the raw material list and the comparison with the remaining amount limit value 300 is completed for each combination,

As the remaining limit value is changed to a larger value, the possibility of being included in the item allocation combination list per raw material increases, and in such a case, the remaining amount of the corresponding combination is also high. That is, since the remaining amount of the raw material of the combination of the last index constituting the item allocation combination list per raw material is large, it is desirable to recombine the item allocation combination.

For this, the control unit reassigns the items of the combination having the largest remaining amount among the optimal item allocation combinations of the respective raw materials incorporated in the item allocation combination list for each of the raw materials to the item allocation combinations for the different optimal materials, Is compared with the yield before reallocation to update the item allocation combination list for each raw material with good yield information (step S36).

Thereafter, in step S38, the control unit re-updates the item assignment combination list for each raw material in the same manner as described in step S24 of the first embodiment. That is, the control unit selects n (for example, three) combinations among the item allocation combinations for each raw material constituting the item allocation combination list for each raw material, and combines the raw materials and items constituting the selected combination in a yield rate The item allocation combination list for each raw material is re-updated with a good yield in terms of yield.

Also, the control unit may select two combinations from the list of item allocation combinations for each material item to be re-updated, store the items constituting the selected combination in the temporary item list, and allocate items stored in the temporary item list while changing the length of the raw material And the yields of the combinations before recombination are compared with each other, and combinations having good yields are stored in the item allocation combination list for each material, and the combination is re-updated again.

Then, if it is checked whether or not the raw material which can increase the yield by reducing the length of the raw material is checked in the raw material list in each of the optimum item allocation combinations for each raw material constituting the re-updated item allocation combination list per raw material, And displays the output list or the output list of the item assignment combination list for each final material (S42).

The method of cutting the raw material according to the second embodiment of the present invention is also better than the Best_fit and SA methods proposed in the "raw material cutting plan system " previously filed and registered by the present applicant as shown in the table shown in Fig. And the yield is shown. Therefore, the raw material cutting plan method (method B) according to the second embodiment of the present invention is also an invention that can further reduce the remaining amount of raw materials than the above-mentioned "raw material cutting plan system ".

In addition, the method of cutting a raw material according to the third embodiment of the present invention generates both an item allocation combination list for each raw material using both the above-described first embodiment (method A) and the second embodiment (method B) It is also possible to calculate a yield for each combination list based on the result of the comparison, and then output a combination having a better yield among the yields obtained by the two methods. Since the third embodiment is a simple mixing method of the first and second embodiments, detailed description thereof will be omitted.

As described above, since the present invention has a higher yield than the "raw material cutting plan system " previously registered and registered by the applicant of the present application, it can be said that it is a useful invention that can minimize the remaining amount of raw materials cut off when cutting raw materials .

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, The scope of the true technical protection of the present invention should be determined only by the appended claims.

Claims (13)

A first step of receiving and storing a raw material list and an item list;
A second step of generating an item allocation first combination for each commodity by sequentially selecting the commodities from the commodity list and allocating the items;
A third step of generating an item allocation second combination for each material item by allocating another item after excluding any one kind of item from each of the item allocation first combination of each raw material;
A fourth step of storing the item allocation combination for each raw material with the highest yield in the first item combination and the second combination for each raw material in the item allocation combination list for each raw material;
A step of repeating the second step and the fourth step until there is no item arranged in the item list in such a manner that the raw material and item information constituting the item allocation combination for each stored raw material are excluded from the raw material list and the item list 5 steps;
The item and the items constituting the combination having the yields lower than the specified value among the item assignment combinations for each raw material stored in the item assignment combination list for each raw material are stored again in the raw materials and the item list, A sixth step of searching and reallocating from the list and storing it;
A seventh step of repeating the second and fifth steps for the raw materials and items remaining in the raw material list and the item list after the sixth step;
The n pieces of the item allocation combinations stored in the sixth and seventh steps are selected, and the yields obtained by recombining the raw materials and items constituting the selected combination are compared with the yields before the recombination, An eighth step of storing a good combination in the item-item combination combination list per raw material;
And outputting or outputting the list of item-by-item combination combinations stored in the eighth step. The computer-readable recording medium according to claim 1, The method according to claim 1,
The first item combination is selected by sequentially selecting the shortest raw material that can allocate the longest item from the item list and sequentially assigning the long item to the sequentially selected raw material A method of cutting a raw material that is executable in a computer system. The method according to claim 2, wherein, in the third step, the second item is allocated to each of the item-specific first assignments, Wherein the computer program is executable on a computer system. 4. The method of claim 3,
Three combinations among the item assignment combinations stored in the sixth and seventh steps are selected and the raw materials and items constituting the selected combination are respectively stored in the temporary and list of items, And arranging the items sequentially in order of length, checking whether or not the length of the last ordered raw material can be reduced, and recombining the items so that the yield is increased;
An 8-2 step of comparing the yields of the three combinations selected in the step 8-1 and the recombined yields and storing the combination having a good yield in the item assignment combination list for each material;
In step 8-2, the two combinations are selected from the item-item combination list of each raw material, the items constituting the selected combination are stored in the temporary item list, and the items stored in the temporary item list are allocated while changing the length of the raw material And a step 8-3 of storing a combination having a good yield in the item allocation combination list for each raw material by comparing the yield obtained by recombining the product with the yield before combining with the recombination. Raw material cutting plan method. The method of claim 1,
Three combinations among the item assignment combinations stored in the sixth and seventh steps are selected and the raw materials and items constituting the selected combination are respectively stored in the temporary and list of items, And arranging the items sequentially in order of length, checking whether or not the length of the last ordered raw material can be reduced, and recombining the items so that the yield is increased;
An 8-2 step of comparing the yields of the three combinations selected in the step 8-1 and the recombined yields and storing the combination having a good yield in the item assignment combination list for each material;
In step 8-2, the two combinations are selected from the item-item combination list of each raw material, the items constituting the selected combination are stored in the temporary item list, and the items stored in the temporary item list are allocated while changing the length of the raw material And a step 8-3 of storing a combination having a good yield in the item allocation combination list for each raw material by comparing the yield obtained by recombining the product with the yield before combining with the recombination. Raw material cutting plan method. A first step of receiving and storing a raw material list and an item list;
A first step of accessing the raw materials and items to be combined from the raw material and item list and assigning the accessed items to the accessed raw material to generate an optimum combination of item-by-commodity item allocation with the minimum remaining amount;
Comparing the remaining remaining amount of the item allocation combination for each of the optimal raw materials with one of a plurality of preset remaining residual limit values and incorporating the optimal item allocation combination for each raw material into the item allocation combination list for each raw material, A second step of changing the kind of the raw material and repeating the steps until all the items included in the item list are allocated in such a manner as to return the first step to be performed again;
It is possible to reallocate the combination items having the greatest remaining amount among the optimal item allocation combinations for each of the raw materials incorporated in the item allocation combination list for each of the raw materials to the item allocation combinations for the different optimal materials, A third step of comparing the yield before reallocation to update the item allocation combination list of each material with good yield information;
N combinations among the item allocation combinations for each raw material constituting the item allocation combination list for each raw material are selected and the yield obtained by recombining the raw materials and items constituting the selected combination is compared with the yield for the combination before the recombination, A fourth step of re-updating the item allocation combination list for each material by a combination;
A fifth step of finding and changing, in the raw material list, a raw material capable of raising the yield by reducing the length of the raw material in each of the optimum item allocation combinations for each raw material constituting the reassigned item allocation combination list for each raw material;
And a sixth step of outputting or outputting the updated item allocation combination list for each raw material through the fifth step. 7. The method of claim 6,
Three combinations of item allocation combinations for each raw material are selected and raw materials and items constituting the selected combination are respectively stored in the temporary raw material list and the item list and the three raw materials are sorted in order of length, (4-1) of checking whether the length of the finally sorted raw material can be reduced and recombining the raw material so as to increase the yield;
A step 4-2 of comparing the yields of the three combinations selected in the step 4-1 and the recombined yields and storing the combination having a good yield rate in the item assignment combination list for each raw material;
In step 4-2, two combinations are selected from the item-item combination combination lists stored in the raw materials, the items constituting the selected combination are stored in the temporary item list, and the items stored in the temporary item list are allocated while changing the length of the raw materials And a fourth step of comparing the yield obtained by the recombination method with the yield before recombination, and storing the combination having a good yield in the item allocation combination list for each material item. Raw material cutting plan method. A step of receiving and storing a raw material list and an item list;
A step b) of sequentially performing the second to eighth steps of claim 1 to generate an item allocation combination list for each raw material;
A step c) of sequentially executing the second to fifth steps of claim 6 to generate another item list of the item-by-materials assignment combinations;
D) calculating a yield for an item-assigned combination list for each raw material generated in steps b) and c);
and a step (e) of outputting or outputting a list of item allocation combinations for each raw material having a high yield among the calculated yields in step (d). 9. The method of claim 8,
The first item combination is selected by sequentially selecting the shortest raw material that can allocate the longest item from the item list and sequentially assigning the long item to the sequentially selected raw material A method of cutting a raw material that is executable in a computer system. [12] The method of claim 9, wherein, in the third step, after the second longest item is removed from each of the first item combination for each raw material item, the remaining items are sequentially allocated in order of length, Wherein the computer program is executable on a computer system. 11. The method of claim 10,
Three combinations among the item assignment combinations stored in the sixth and seventh steps are selected and the raw materials and items constituting the selected combination are respectively stored in the temporary and list of items, And arranging the items sequentially in order of length, checking whether or not the length of the last ordered raw material can be reduced, and recombining the items so that the yield is increased;
An 8-2 step of comparing the yields of the three combinations selected in the step 8-1 and the recombined yields and storing the combination having a good yield in the item assignment combination list for each material;
In step 8-2, the two combinations are selected from the item-item combination list of each raw material, the items constituting the selected combination are stored in the temporary item list, and the items stored in the temporary item list are allocated while changing the length of the raw material And a step 8-3 of storing a combination having a good yield in the item allocation combination list for each raw material by comparing the yield obtained by recombining the product with the yield before combining with the recombination. Raw material cutting plan method. The method of claim 8,
Three combinations among the item assignment combinations stored in the sixth and seventh steps are selected and the raw materials and items constituting the selected combination are respectively stored in the temporary and list of items, And arranging the items sequentially in order of length, checking whether or not the length of the last ordered raw material can be reduced, and recombining the items so that the yield is increased;
An 8-2 step of comparing the yields of the three combinations selected in the step 8-1 and the recombined yields and storing the combination having a good yield in the item assignment combination list for each material;
In step 8-2, the two combinations are selected from the item-item combination list of each raw material, the items constituting the selected combination are stored in the temporary item list, and the items stored in the temporary item list are allocated while changing the length of the raw material And a step 8-3 of storing a combination having a good yield in the item allocation combination list for each raw material by comparing the yield obtained by recombining the product with the yield before combining with the recombination. Raw material cutting plan method. The method according to claim 8, wherein in the fourth step,
Three combinations of item allocation combinations for each raw material are selected and raw materials and items constituting the selected combination are respectively stored in the temporary raw material list and the item list and the three raw materials are sorted in order of length, (4-1) of checking whether the length of the finally sorted raw material can be reduced and recombining the raw material so as to increase the yield;
A step 4-2 of comparing the yields of the three combinations selected in the step 4-1 and the recombined yields and storing the combination having a good yield rate in the item assignment combination list for each raw material;
In step 4-2, two combinations are selected from the item-item combination combination lists stored in the raw materials, the items constituting the selected combination are stored in the temporary item list, and the items stored in the temporary item list are allocated while changing the length of the raw materials And a fourth step of comparing the yield obtained by the recombination method with the yield before recombination, and storing the combination having a good yield in the item allocation combination list for each material item. Raw material cutting plan method.

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