Method for producing resin sheet processed in non-linear manner
阅读说明:本技术 非直线加工的树脂片的制造方法 (Method for producing resin sheet processed in non-linear manner ) 是由 高濑裕太 伊崎章典 北村吉绍 于 2018-12-11 设计创作,主要内容包括:本发明涉及非直线加工的树脂片的制造方法,提供一种能够抑制切割面成为锥状的能够简便地制造非直线加工的树脂片的方法。本发明的非直线加工的树脂片的制造方法,包含:将树脂片重叠多个来形成工件的工序;以及以刀刃角度0°的端铣刀以非直线方式切割该工件的外周面的工序。在一个实施方式中,树脂片包含粘接剂层以及/或粘着剂层,在一个实施方式中,树脂片包含偏光件。(The invention relates to a method for manufacturing a resin sheet processed in a non-linear manner, and provides a method for simply manufacturing the resin sheet processed in the non-linear manner, wherein the cutting surface can be prevented from being tapered. The method for producing a resin sheet processed in a non-linear manner according to the present invention comprises: forming a workpiece by stacking a plurality of resin sheets; and cutting the outer peripheral surface of the workpiece in a nonlinear manner by using an end mill having a cutting edge angle of 0 °. In one embodiment, the resin sheet includes an adhesive layer and/or an adhesive layer, and in one embodiment, the resin sheet includes a polarizer.)
1. A method for producing a resin sheet processed in a non-linear manner, comprising:
forming a workpiece by stacking a plurality of resin sheets; and
And cutting the outer peripheral surface of the workpiece in a nonlinear manner by using an end mill with a cutting edge angle of 0 degrees.
2. The manufacturing method according to claim 1,
the end mill was rotated at a speed of less than 25000 rpm.
3. The manufacturing method according to claim 1 or 2,
the outer diameter of the end mill is 3mm-30 mm.
4. The manufacturing method according to any one of claims 1 to 3,
the end mill is held by the machine tool in a double-arm state.
5. The manufacturing method according to any one of claims 1 to 4,
the resin sheet includes an adhesive layer and/or an adhesive layer.
6. The manufacturing method according to claim 5,
the resin sheet includes a polarizing member.
Technical Field
The invention relates to a method for manufacturing a resin sheet processed in a non-linear way
Background
Various resin sheets corresponding to the applications are widely used. In recent years, there are cases where processing of a resin sheet into shapes other than rectangular shapes (profile processing) is desired, and there are cases where fine profile processing is desired with diversification of applications. In such fine profile machining, cutting by an end mill may be performed. However, since the end mill is generally formed in a helical blade structure, when fine irregular machining is performed using the end mill, the cutting blade formed in the helical blade structure may come into contact with the resin sheet end face so as to push up the resin sheet end face obliquely, and the end mill may be pressed into the resin sheet end face while cutting, and the cut face (irregular machined face) may be formed in a tapered shape as viewed in the transverse direction. As a result, it is difficult to accurately detect the end of the resin sheet subjected to the irregular processing, and the efficiency of inspecting the product or the like may be reduced.
Prior art documents
Patent document
Patent document 1: japanese patent laid-open No. 2016-182658
Disclosure of Invention
Technical problem to be solved by the invention
The present invention has been made to solve the above conventional problems, and a main object thereof is to provide a method for easily manufacturing a resin sheet having a non-linear processed surface, which can suppress the tapered shape of the cut surface.
Means for solving the technical problem
The method for producing a resin sheet processed in a non-linear manner according to the present invention comprises: the method includes a step of forming a workpiece by overlapping a plurality of resin sheets, and a step of cutting the outer peripheral surface of the workpiece in a non-linear manner by an end mill having a cutting edge angle of 0 °.
In 1 of these embodiments, the rotational speed of the end mill is less than 25000 rpm.
In 1 of these embodiments, the end mill has an outside diameter of 3mm to 30 mm.
In 1 of the embodiments, the end mill is held by the machine tool in a double-arm state.
In 1 embodiment of the above, the resin sheet includes an adhesive layer and/or an adhesive layer.
In 1 of the embodiments, the resin sheet includes a polarizing member.
Effects of the invention
According to the present invention, in the method for producing a resin sheet including forming a workpiece by stacking a plurality of resin sheets and cutting the outer peripheral surface of the workpiece in a non-linear manner, the tapered shape of the cut surface is suppressed by using an end mill having a cutting edge angle of 0 °. The effect of the present invention is particularly remarkable in fine nonlinear machining (profile machining) using a small-diameter end mill.
Drawings
Fig. 1A is a schematic plan view showing an example of the shape of a resin sheet obtained by the manufacturing method of the present invention and subjected to non-linear processing.
Fig. 1B is a schematic plan view showing another example of the shape of the resin sheet obtained by the manufacturing method of the present invention and subjected to non-linear processing.
Fig. 2 is a schematic perspective view for explaining the end mill machining in the manufacturing method of the present invention.
Fig. 3 (a) is a schematic cross-sectional view viewed from the axial direction for explaining the structure of an end mill used in the manufacturing method of the present invention; fig. 3 (b) is a schematic perspective view of the end mill of fig. 3 (a).
Fig. 4 (a) to 4 (e) are schematic plan views illustrating a series of procedures of end mill machining in the manufacturing method of the present invention.
Fig. 5 (a) is a schematic view illustrating a cantilever state of an end mill used in the manufacturing method of the present invention; fig. 5 (b) is a schematic diagram illustrating a state of both arms.
Fig. 6 is an electron micrograph showing a tapered state when the cutting edge angle of the end mill is changed, in which example 2 and comparative example 1, and example 3 and comparative example 2 are compared with each other.
Fig. 7 is an electron micrograph showing a tapered state when the cutting edge angle of the end mill is changed, in which example 6 and comparative example 3, and example 7 and comparative example 4 are compared with each other.
Fig. 8 is an electron micrograph showing a comparison between example 2 and example 5 for the state of unevenness in the case where the rotation speed of the end mill was changed.
Fig. 9 is an electron micrograph showing a comparison between example 6 and example 7 for the state of unevenness in the case where the rotation speed of the end mill was changed.
Fig. 10 is an electron micrograph showing a comparison between example 3 and example 4, in the case where the end mill is formed into a double-arm and cantilever rough state.
Detailed Description
Hereinafter, specific embodiments of the present invention will be described with reference to the drawings, but the present invention is not limited to these embodiments. In addition, the drawings are schematically shown for easy viewing, and the proportions, angles, and the like of the length, width, thickness, and the like in the drawings are different from those in reality.
The method for producing a resin sheet of the present invention comprises: the method includes a step of forming a workpiece by stacking a plurality of resin sheets, and a step of cutting the outer peripheral surface of the workpiece in a nonlinear manner by an end mill having a cutting edge angle of 0 °. The effect of the present invention is remarkable in nonlinear machining of a resin sheet, and is particularly remarkable in fine nonlinear machining using a small-diameter end mill.
A. Resin sheet
The resin sheet may be any appropriate resin sheet that can be used for applications where non-linear processing is deemed necessary. The resin sheet may be a film composed of a single layer or a laminate. Specific examples of the resin sheet include optical films. Specific examples of the optical film include a polarizer, a retardation film, a polarizing plate (typically, a laminate of a polarizer and a protective film), a conductive film for a touch screen, a surface treatment film, and a laminate obtained by appropriately laminating these materials according to the purpose (for example, a circularly polarizing plate for antireflection and a polarizing plate with a conductive layer for a touch screen). In 1 embodiment, the resin sheet includes an adhesive layer and/or an adhesive layer. According to the embodiment of the present invention, even in the case of the resin sheet including the adhesive layer and/or the adhesive layer, fine nonlinear processing using a small-diameter end mill can be performed.
Hereinafter, a method for manufacturing a polarizing plate using an adhesive layer as an example of a resin sheet will be described. Specifically, each step in the method for manufacturing the adhesive layer-attached polarizing plate having a planar shape shown in fig. 1A will be described. The planar shape of the adhesive layer-attached polarizing plate is not limited to the planar shape shown in fig. 1A, and it is obvious to those skilled in the art. For example, an adhesive layer-attached polarizing plate having a planar shape as shown in fig. 1B can also be manufactured. The present invention can be applied to any appropriate resin sheet other than the polarizing plate to which the adhesive layer is attached, and it is obvious to those skilled in the art. That is, the present invention is applicable to the production of any appropriate resin sheet having any appropriate shape.
B. Formation of a workpiece
Fig. 2 is a schematic perspective view for explaining the cutting process, and the
C. End mill machining
Next, the
As the
The number of cutting edges of the end mill may be any number according to the purpose. The number of cutting edges may be 1, 2 as illustrated in the figure, 3, 4, or 5 or more. Preferably, the number of blades is 2. With such a configuration, the rigidity of the blade can be ensured, and the notch (pocket) can be ensured, so that the chips can be discharged well.
The outer diameter of the end mill is preferably 3mm to 30mm, more preferably 4mm to 10 mm. According to the embodiment of the present invention, in the fine non-linear machining (profile machining) using such a small-diameter end mill, the tapered cutting surface can be suppressed. The problem of the taper of the cut surface is a newly found problem in fine non-linear machining (irregular machining). This can be presumed to be: in the case of an end mill using a helical cutting edge, the offset caused by the oblique pushing of the helical cutting edge is a main factor and may be caused by the rigidity of the small-diameter end mill. The present inventors have repeatedly tried to solve the above-described problems, and as a result, have found that the problems can be solved by setting the cutting edge angle of the end mill to 0 ° as described above. In the present specification, the term "outer diameter of the end mill" refers to a value obtained by multiplying a distance from the rotation axis to 1 cutting edge tip by 2.
The end mill machining (non-linear machining) of the
The conditions for the end mill processing can be set appropriately according to the type of the resin sheet, the desired shape, and the like. For example, the rotation speed (rotation number) of the end mill is preferably less than 25000rpm, more preferably 22000rpm or less, and still more preferably 20000rpm or less. The lower limit of the rotation speed of the end mill may be, for example, 10000 rpm. If the rotation speed of the end mill is within such a range, it is possible to suppress not only the tapered shape of the cut surface but also unevenness of the cut surface (fine unevenness or unevenness of the cut surface). Such an effect is remarkable in fine nonlinear machining (profile machining) using a small-diameter end mill. Therefore, the product of the outer circumference length (product of outer diameter and circumferential ratio π: mm) of the end mill and the number of revolutions (rpm) is preferably less than 785000, more preferably 628000 or less, and even more preferably 314000 or less. The lower limit of this product may be, for example, 94200. Further, for example, the feed rate of the end mill is preferably 500 mm/min to 10000 mm/min, more preferably 500 mm/min to 2500 mm/min, and still more preferably 800 mm/min to 1500 mm/min. The number of cuts at the cutting site of the end mill may be 1 cut, 2 cuts, 3 cuts or more.
The end mill may be held in a cantilever state on the machine tool (substantially the holding portion 50 of the machine tool) as shown in fig. 5 a, or may be held in a double-arm state on the machine tool (substantially the holding portions 50, 50 of the machine tool) as shown in fig. 5 b. The end mill is preferably held in a double-arm state by the machine tool, as shown in fig. 5 (b). By holding the cutting surface in a double-arm state, not only the cutting surface can be suppressed from being tapered, but also roughness of the cutting surface (irregularities when the cutting surface is viewed from a lateral direction) can be suppressed. Further, the stress applied to the cutting edge of the end mill during cutting can be reduced by holding the end mill in a double-arm state. As a result, the durability of the end mill can be improved, and the stability and reliability of the end mill can be improved.
The above procedure can obtain the adhesive layer-attached polarizing plate processed in a non-linear manner.
As an example, although the method of manufacturing the adhesive layer-attached polarizing plate having a planar shape as shown in fig. 1A has been described, the present invention is applicable to the manufacture of any appropriate resin sheet having any appropriate shape as described above. For example, in the method for manufacturing the adhesive layer-attached polarizing plate having a planar shape as shown in fig. 1B, the
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