KR20190030274A - Manufacturing method for optical film - Google Patents

Abstract

The present invention relates to a method for manufacturing an optical film. According to an aspect of the present invention, the method for manufacturing an optical film manufactures various kinds of optical films one by one in the same manufacturing line while changing manufacturing patterns according to combinations of various kinds of raw materials 1 with different widths, and raw materials 2 and 3 which are adhered to one kind of the raw materials 1 via a predetermined adhesive. The method for manufacturing an optical film includes a selection step in which summation of raw material exchange time and adhesive exchange time is calculated according to a sequence of manufacturing each optical film wherein if a specific kind of raw materials 1 is selected, and wherein if a manufacturing sequence for each optical film is selected, a remaining amount of the raw materials 1 is minimized and the summation of the raw material exchange time and the adhesive exchange time is minimized. The present invention minimizes time and the number of times for exchanging production patterns such that movement of equipment can be minimized.

Description

Manufacturing method for optical film [0001]

The present invention relates to a method for producing an optical film.

An optical film, for example, a polarizing plate for use in various display devices, is manufactured by (1) a step of obtaining a polarizer, (2) a step of laminating a polarizer protective layer, and (3) a step of laminating a protective film or a release film . In the step of obtaining a polarizer, a polyvinyl alcohol (PVA) film is mainly dyed and stretched to obtain a polarizer. In the step of laminating the polarizer protective layer, a triacetylcellulose (TAC) film is attached to both surfaces of the polarizer through an adhesive to laminate the polarizer protective layer.

At this time, the TAC film is attached using an adhesive, and a different kind of adhesive may be used for each type of polarizer. In addition, the optical film is produced in accordance with the width and thickness of the raw material used in the stretching process. As described above, the type of the polarizer varies depending on the width / thickness of the raw material and the kind of the adhesive.

On the other hand, when producing various kinds of film in one production line, various production methods (raw material width, raw material thickness, adhesive type, etc.) are operated using various raw materials. At this time, when the production pattern such as the raw material (thickness change, width change, adhesive change, etc.) is changed, the production of the product is interrupted for a certain period of time.

An object of the present invention is to provide a production method of an optical film capable of minimizing facilities floating during production pattern exchange when producing various types of optical films in a single production line.

In order to solve the above problems, according to one aspect of the present invention, in a same production line, a plurality of kinds of raw materials 1 having various widths and raw materials 2 and 3 , The sum of the time for replacing the raw material and the time for replacing the adhesive in accordance with the production order of each optical film is calculated, And a selection step of selecting a production order for each optical film that minimizes the remaining amount of the raw material 1 and minimizes the sum of the raw material replacement time and the adhesive replacement time when the raw material 1 of the raw material 1 is selected do.

INDUSTRIAL APPLICABILITY As described above, the optical film production method according to one embodiment of the present invention has the following effects.

In a single production process, when the production pattern is changed, such as when various kinds of optical films are produced, when the width of the raw material changes, when the thickness of the raw material changes, or when the kind of the adhesive changes, And the number of times is minimized, facility flooding can be minimized.

Since the material 1 is difficult to be reused when the remaining amount is small, the loss of the raw material 1 can be reduced through optimal planning.

1 is a conceptual diagram for explaining a production method of an optical film according to an embodiment of the present invention.

Hereinafter, a method of producing an optical film according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

In addition, the same or corresponding reference numerals are given to the same or corresponding reference numerals regardless of the reference numerals, and redundant description thereof will be omitted. For convenience of explanation, the size and shape of each constituent member shown in the drawings are exaggerated or reduced .

The present invention relates to a method for producing an optical film having different production patterns including raw materials and adhesive types for each optical film. Particularly, it relates to a method in which a plurality of kinds of optical products having different production patterns including raw materials 1, 2 and 3 and an adhesive type are produced in a single production line. In this document, the optical film may be a polarizing plate, the raw material 1 may be a PVA film, and the raw materials 2 and 3 may be a TAC film. For example, the raw material 1 may have a length of about 20,000 to 70,000 m, and the raw materials 2 and 3 may each have a length of about 3,000 m. As described above, when the raw material 1 is long and the remaining amount is small, it is difficult to reuse it, so it is necessary to establish an optimal production plan.

A method of producing an optical film according to an embodiment of the present invention is a method of producing an optical film in which a plurality of kinds of raw materials 1 having various widths and raw materials 1 and 2 of raw materials 2 and 3 And a method of sequentially producing a plurality of types of optical films while changing a production pattern according to the combination.

At this time, the optical film production method calculates the sum of the replacement time of the raw material and the replacement time of the adhesive in accordance with the production order of each optical film. When a specific kind of the raw material 1 is selected, the remaining amount of the raw material 1 is minimized, And a selection step of selecting a production order for each optical film that minimizes the sum of replacement time and adhesive replacement time.

Here, the raw material replacement time means the replacement time of the raw material 1, and the adhesive replacement time can be understood to include the replacement time of the raw materials 2 and 3.

It is preferable that the production order for each optical film is selected so that the remaining amount of the raw material 1 becomes 0 in the skipper stage and the sum of the raw material replacement time and the adhesive replacement time is minimized.

For example, in the case where A, B, C, and D products produced by different kinds of at least one of the width of the raw material 1 and the kind of the adhesive are manufactured in a single production line, B, C, and D products in order to minimize facility drift time considering the basic length and remaining amount of the raw material 1, the width / thickness replacement time of the raw material 1, and the adhesive change time do.

On the other hand, the kind of the raw material 1 varies depending on the width and / or thickness of the raw material 1, and when the at least one of the raw material width and the thickness varies, the replacement time of the raw material 1 is generated.

Further, in the selection step, a production order for each optical film in which the sum of the number of replacement of the raw material 1 and the number of replacement of the adhesive is minimized can be selected.

In addition, the production method of the optical film may further include a production step of sequentially producing the optical films according to a predetermined production order.

At this time, the production amount per optical film can be determined on the basis of the sum of the required amount of each optical film and the available production amount of the production line at the production cycle (for example, the first week) at the production stage.

On the other hand, if the total amount of the required amount of each optical film is smaller than the available production amount of the production line and the predetermined optical film is to be produced in the corresponding period (first week) and the next period (second week) 2) can be produced at the same time.

At this time, at least a part of the production amount of the next cycle (second week) can be determined to be equal to or less than the difference between the usable production amount of the production line and the required amount of each optical film.

Hereinafter, a production method of the optical film will be described in detail with reference to [Table 1] to [Table 3]. [Table 1] to [Table 3] are merely exemplary and do not limit the scope of the present invention.

Referring to Table 1, in the case of producing eight optical films from P01 to P08, P01 and P02 have the same width (W1) and thickness (30) of the raw material 1, and P03, P04, P05, P06, P07 is the same as the width (W2) and thickness (60) of the raw material 1.

The widths of the raw materials P01 and P03 are the same as the widths W3 of the raw materials. The widths of the raw materials P02, P04 and P05 are the same as the width W1 of the raw materials. At this time, W1, W2, and W3 represent different widths. NR adhesive (general adhesive) is used for P01, P02, P03, P04, P06 and P07, and UV adhesive is used for P05 and P08.

P04, P05, P06, P07, and P08 are produced according to the path 0 and are different paths, and the inter-path replacement time is 3.5 It takes time.

The basic length of the raw material 1 is 18,000 m when the width is W1 and the thickness is 30, 21,000 m when the width is W1 and 60, the width is W3, and the thickness is 60, to be.

Also, when the widths are the same, the time for replacing the raw material 1 is 4 hours and the replacement time for the adhesive (NR, UV) is 6 hours so that the thickness is different.

[Table 1]

Table 2 below shows the time required to replace the width of the raw material 1.

[Table 2]

In addition, the available output of each production line for weekly discrimination (eg, week 1, week 2, week 3, week 4) is 27,000 m for week 1 and week 3, 18,000 meters.

At this time, as described above, according to the present invention, it is possible to select the production order for each optical film for each cycle (week 1, week 2), and the result is shown in [Table 3].

The production method of the optical film is such that when a plurality of kinds of optical films are sequentially produced while changing the production pattern according to the combination of the raw materials 1, 2 and 3 and the adhesive type in the same production line, the raw material replacement time And a replacement time of the adhesive.

However, when a specific kind of raw material 1 is selected, a selection step for selecting the production order for each optical film that minimizes the remaining amount of the raw material 1 and minimizes the sum of the raw material replacement time and the adhesive replacement time is selected.

[Table 3]

In Table 3, when both the width and thickness of the raw material are changed, the total replacement time is calculated as the sum of the width replacement time and the thickness replacement time.

Alternatively, when there are two or more types of replacement items (for example, path replacement or adhesive type replacement), only the replacement time of the item having a large replacement time (replacement of the adhesive type) can be calculated as the total replacement time.

In addition, it is also calculated that the replacement time occurs even when the parking is changed (for example, from 1 to 2) in Table 3. However, when the parking is changed (for example, 2), it can be calculated that the replacement time is zero.

On the other hand, in the production stage, it is possible to determine the production amount per optical film based on the sum of the required amount of each optical film and the available production amount of the production line for the period (for example, the first week).

If the sum of the required amount of each optical film for the period (first week) is smaller than the available production amount of the production line, and the predetermined optical film is used for the period (for example, the first week) and the next period (for example, ), At least some of the output of the next cycle (week 2 to week 4) may be produced together in the cycle.

At this time, at least a part of the production amount of the next cycle (second week) can be determined to be equal to or less than the difference between the usable production amount of the production line and the required amount of each optical film.

In the first week, P08 products should be produced with the highest priority. At this time, P08 products can be produced so that the raw material 1 (15,000m) is exhausted. Since the amount of available volume left in the first night is 12,000m, production of products P02 to P04 can be considered. In this way, the product production order can be arranged, and the product production order can be selected such that the sum of the replacement time such as width, thickness, adhesive, route, etc. of the raw material 1 is minimized.

On the other hand, for the P02 product, the second parking requirement is 4,587, and the fourth parking requirement is 8,000. At this time, the P02 product can produce the required amount of the second parking and the required amount of the fourth parking in the first week.

The foregoing description of the preferred embodiments of the present invention has been presented for purposes of illustration and various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention, And additions should be considered as falling within the scope of the following claims.

Claims (8)

In the same production line, a plurality of types of optical films are stacked while changing the production pattern according to the combination of the raw materials 1 and the raw materials 1 having various widths and the raw materials 2 and 3 respectively attached to the raw materials 1 through a predetermined adhesive In a production method of an optical film sequentially produced,
The sum of the replacement time of the raw material and the replacement time of the adhesive according to the production order of each optical film is calculated,
And a selection step of selecting a production order for each optical film that minimizes the remaining amount of the raw material 1 and minimizes the sum of the raw material replacement time and the adhesive replacement time when a specific kind of raw material 1 is selected . The method according to claim 1,
A production method of an optical film in which, in a skipper stage, the remaining amount of the raw material 1 becomes 0, and the production order for each optical film is selected to minimize the sum of the raw material replacement time and the adhesive replacement time. The method according to claim 1,
The kinds of raw materials are different according to the thickness and width of the raw materials,
Wherein at least one of the thickness and the width of the raw material is changed, the raw material replacement time is generated. The method according to claim 1,
Wherein a production order for each optical film is selected in a selection step in which the sum of the number of replacement of the raw material and the number of replacement of the adhesive is minimized. The method according to claim 1,
Further comprising a production step of sequentially producing the optical films according to the selected production order. 6. The method of claim 5,
Wherein the production amount of each optical film is determined based on the total amount of the required amount of each cycle optical film and the available production amount of the production line in the production step. The method according to claim 6,
When the total amount of the required amount of each cycle optical film is smaller than the available production amount of the production line and the predetermined optical film is to be produced in each of the cycle and the next cycle, Production method. 8. The method of claim 7,
Wherein at least a part of the production amount of the next cycle is determined to be equal to or less than the difference between the usable production amount of the production line and the required amount of each optical film.

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