JP5672799B2 - Extruded optical lens sheet manufacturing method and apparatus - Google Patents

Description

  The present invention relates to an optical lens sheet manufacturing method and apparatus capable of forming a pattern having a high shaping rate on a surface of a sheet-shaped resin material with high accuracy and high quality.

  Extrusion molding is a technique capable of continuously molding a long product, and is used for manufacturing various molded products such as films, sheets, and pipes.

  With the recent expansion of the display market, the demand for lens sheets for optical members has increased, and a low-cost construction method has been demanded. Therefore, low-cost and excellent extrusion technology has been attracting attention. For lens sheets for optical members, molding technology that can extrude a uniform resin material sheet, shaping technology that can faithfully reproduce the irregular shaped shaping pattern, and multi-layer technology that can provide complex functions at low cost Therefore, various attempts have been made to satisfy these techniques by extrusion techniques.

  In forming the shaping pattern on the sheet-shaped resin material in extrusion molding, a method using a pressing medium and a shaping medium, and a method of controlling the fluidity of the resin material by a heating device or a cooling device are widely used. Improvement of the sheet-shaped resin material into the mold at the time of narrow pressure and prevention of shape loss at the time of peeling greatly affect the shaping rate. In general, an optical lens sheet having a high shaping rate can be obtained by keeping the sheet-shaped resin material at a high temperature during clamping and lowering the sheet-shaped resin material at the time of peeling. The shaping rate is a rate obtained by dividing the actual depth of the pattern mold by the depth of the mold.

  Such techniques relating to the improvement of the mold of the sheet-shaped resin material and the prevention of the loss of shape are disclosed in JP-A-2003-53834 (Patent Document 1) and JP-A-2008-119950 (Patent Document 2).

JP 2003-53834 A JP 2008-119950 A

  In Patent Document 1, a heat-warming member having a low thermal conductivity is inserted between the roll core portion and the shaped roll pattern portion, and the mold insertion is improved by preventing a decrease in the temperature of the sheet-like resin material. Yes.

  However, in Patent Document 1, since the surface of the shaping roll is a metal having high thermal conductivity, when the resin material comes into contact with the transfer portion, the heat of the resin material is instantaneously deprived by the surface of the shaping roll pattern. The resin material is cured before the resin material enters the shaping roll pattern, and a sufficient shaping rate cannot be obtained. FIG. 3 (A) schematically shows a state when the resin material J is not sufficiently filled with the shaping roll pattern a.

  On the other hand, in Patent Document 2, a heating device is disposed on the upstream side in the rotation direction of the shaping roll, and a cooling device is disposed on the downstream side, and the fluidity of the resin material is controlled by the heating device and the cooling device. It is designed to improve entry and prevent out of shape.

However, in this Patent Document 2, although the mold can be improved by heating, since a heating device and a cooling device are arranged for the same roll and two temperatures are controlled for one roll, it is accurate. Temperature adjustment is difficult, in-plane temperature variation causes in-plane variation of the shaping rate, and even if cooling is performed after the temperature rise, sufficient cooling effect cannot be obtained, resulting in loss of shape. As a result, it is not possible to obtain an optical lens sheet with a high quality and high shaping rate. FIG. 3 (B), an optical lens sheet J ₁ which shapeless occurs is shown schematically.

  The present invention has been made paying attention to such points, and the object of the present invention is to form an optical lens sheet by narrowing a sheet-like resin material extruded from a die head with a pressing roll and a shaping roll. Another object of the present invention is to provide a method and an apparatus for producing an extruded optical lens sheet that can improve the molding of the sheet-shaped resin material and prevent the deformation of the sheet-shaped resin material, and obtain an optical lens sheet having a high shaping rate.

In order to solve the above-mentioned problems, the invention of claim 1 is directed to a transfer part in which a sheet-shaped resin material extruded from a die head of an extruder is adjacent to a forming roll having a forming pattern formed on a surface thereof and a pressing roll. The optical roll sheet is pressed between the shaping roll and the pressing roll to produce an optical lens sheet, the shaping roll having a temperature adjusting mechanism, and the transfer portion of the sheet-like resin material. Is introduced along the surface of the shaping roll, and the surface of the shaping roll pattern is provided with a resin coating with low thermal conductivity that makes it possible to prevent the fluidity of the sheet-like resin material from being lowered. the resin coating is a fluorine-based resin coating, before being transported to the peeling roller for peeling from the surface of the forming roll, said shaping of the sheet-like resin material shaped Russia The roll surface side are arranged so as to contact the opposite surface, characterized in that it is cooled by a cooling roll provided with the temperature adjustment mechanism, an optical lens sheet manufacturing method.

The invention according to claim 2 introduces a sheet-shaped resin material extruded from a die head of an extrusion molding machine into a transfer portion having a shaping pattern formed on the surface and a pressing roll adjacent to each other, and the shaping roll. In the apparatus for producing an optical lens sheet by pressing with a pressing roll, the shaping roll has a temperature adjusting mechanism, and the introduction of the sheet-shaped resin material into the transfer portion is performed by the shaping roll. The surface of the forming roll pattern is provided with a low thermal conductivity resin coating that can prevent a decrease in fluidity of the sheet-like resin material. The resin coating is a fluororesin coating. There, before being transported to the peeling roller for peeling from the surface of the forming roll, against the opposite side from said forming roll surface side of the sheet-like resin material shaped In so that, characterized in that the cooling roll is arranged provided with the temperature adjustment mechanism, an optical lens sheet manufacturing apparatus.

The invention of claim 3 introduces a sheet-shaped resin material extruded from a die head of an extrusion molding machine into a transfer portion where a shaping roll having a shaping pattern formed on the surface and a pressing roll are adjacent to each other, and the shaping roll. And a pressing roll to produce an optical lens sheet, wherein the shaping roll has a temperature adjustment mechanism, and the introduction of the sheet-shaped resin material into the transfer portion is the shaping process. It is performed along the surface of the roll, and the surface of the shaping roll pattern is provided with a ceramic coating having a low thermal conductivity that makes it possible to prevent the fluidity of the sheet-like resin material from being lowered. Cooling equipped with a temperature adjustment mechanism arranged so as to contact the surface opposite to the shaping roll surface side of the shaped sheet-shaped resin material before being conveyed to the peeling roll for peeling. Characterized in that it is cooled by Lumpur, an optical lens sheet manufacturing method.

The invention according to claim 4 introduces a sheet-shaped resin material extruded from a die head of an extrusion molding machine into a transfer portion where a shaping roll having a shaping pattern formed on the surface and a pressing roll are adjacent to each other, and the shaping roll. In the apparatus for producing an optical lens sheet by pressing with a pressing roll, the shaping roll has a temperature adjusting mechanism, and the introduction of the sheet-shaped resin material into the transfer portion is performed by the shaping roll. The surface of the shaping roll pattern is coated with a low thermal conductivity ceramic coating that can prevent the fluidity of the sheet-like resin material from being lowered, and peels off from the surface of the shaping roll. Before being conveyed to the peeling roll for the purpose, a cooling roll having a temperature adjusting mechanism is arranged so as to contact the surface opposite to the shaping roll surface side of the shaped sheet-shaped resin material. Characterized in that it is an optical lens sheet manufacturing apparatus.

The invention according to claim 5 introduces a sheet-shaped resin material extruded from a die head of an extrusion molding machine into a transfer portion where a shaping roll having a shaping pattern formed on the surface and a pressing roll are adjacent to each other, and the shaping roll. And a pressing roll to produce an optical lens sheet, wherein the shaping roll has a temperature adjustment mechanism, and the introduction of the sheet-shaped resin material into the transfer portion is the shaping process. It is performed along the surface of the roll, and the surface of the shaping roll pattern is coated with a heat insulating paint having a low thermal conductivity that makes it possible to prevent the fluidity of the sheet-like resin material from being lowered. Before being conveyed to the peeling roll for peeling, the cooling roll provided with the temperature adjustment mechanism arranged so as to contact the surface opposite to the shaping roll surface side of the shaped sheet-shaped resin material By Characterized in that it is cooled, an optical lens sheet manufacturing method.

The invention according to claim 6 introduces the sheet-shaped resin material extruded from the die head of the extrusion molding machine into the transfer portion where the shaping roll having the shaping pattern formed on the surface and the pressing roll are adjacent to each other, and the shaping roll. In the apparatus for producing an optical lens sheet by pressing with a pressing roll, the shaping roll has a temperature adjusting mechanism, and the introduction of the sheet-shaped resin material into the transfer portion is performed by the shaping roll. The surface of the shaping roll pattern is covered with a heat insulating paint having a low thermal conductivity that can prevent a decrease in fluidity of the sheet-like resin material, and peels off from the surface of the shaping roll. Before being conveyed to the peeling roll for, the cooling roll equipped with the temperature adjustment mechanism is arrange | positioned so that the surface opposite to the said shaping roll surface side of the shaped said sheet-like resin material may be contact | connected. It characterized the door, an optical lens sheet manufacturing apparatus.

  According to the manufacturing method of the invention of claim 1, since the surface of the shaping roll pattern of the shaping roll is coated with a resin having low thermal conductivity, when the resin material comes into contact with the shaping roll pattern, Instantaneous heat transfer to the surface of the shaping roll pattern can be suppressed, the mold can be put into the shaping roll pattern before the resin material is cured, and the temperature drop due to contact, that is, the fluidity reduction can be accurately suppressed. Therefore, it is possible to achieve a high filling rate with respect to the shaping roll pattern of the resin material and obtain an optical lens sheet having a high shaping rate. Moreover, since a long-term cooling effect is obtained by the cooling roll, the fluidity of the resin can be reliably reduced before peeling. Therefore, it is possible to prevent the deformation of the mold at the time of peeling.

  According to the manufacturing method of the invention of claim 2, since the surface of the shaping roll pattern of the shaping roll is coated with a fluororesin having a low thermal conductivity, when the resin material comes into contact with the shaping roll pattern, the resin material Therefore, the instantaneous heat transfer from the surface to the shaping roll pattern surface can be suppressed, the mold can be put into the shaping roll pattern before the resin material is cured, and the temperature drop due to contact, that is, the fluidity reduction can be accurately suppressed. Therefore, it is possible to achieve a high filling rate with respect to the shaping roll pattern of the resin material and obtain an optical lens sheet having a high shaping rate. Moreover, since a long-term cooling effect is obtained by the cooling roll, the fluidity of the resin can be reliably reduced before peeling. Therefore, it is possible to prevent the deformation of the mold at the time of peeling.

  According to the manufacturing apparatus of the invention of claim 3, since the surface of the shaping roll pattern of the shaping roll is coated with a resin having low thermal conductivity, when the resin material comes into contact with the shaping roll pattern, from the resin material Instantaneous heat transfer to the surface of the shaping roll pattern can be suppressed, the mold can be put into the shaping roll pattern before the resin material is cured, and the temperature drop due to contact, that is, the fluidity reduction can be accurately suppressed. Therefore, it is possible to achieve a high filling rate with respect to the shaping roll pattern of the resin material and obtain an optical lens sheet having a high shaping rate. Moreover, since a long-term cooling effect is obtained by the cooling roll, the fluidity of the resin can be reliably reduced before peeling. Therefore, it is possible to prevent the deformation of the mold at the time of peeling.

  According to the manufacturing apparatus of the invention of claim 4, since the surface of the shaping roll pattern of the shaping roll is coated with a fluororesin having a low thermal conductivity, when the resin material comes into contact with the shaping roll pattern, the resin material Therefore, the instantaneous heat transfer from the surface to the shaping roll pattern surface can be suppressed, the mold can be put into the shaping roll pattern before the resin material is cured, and the temperature drop due to contact, that is, the fluidity reduction can be accurately suppressed. Therefore, it is possible to achieve a high filling rate with respect to the shaping roll pattern of the resin material and obtain an optical lens sheet having a high shaping rate. Moreover, since a long-term cooling effect is obtained by the cooling roll, the fluidity of the resin can be reliably reduced before peeling. Therefore, it is possible to prevent the deformation of the mold at the time of peeling.

  According to the manufacturing method of the invention of claim 5, since the surface of the shaping roll pattern of the shaping roll is coated with ceramic having low thermal conductivity, when the resin material comes into contact with the shaping roll pattern, Instantaneous heat transfer to the surface of the shaping roll pattern can be suppressed, the mold can be put into the shaping roll pattern before the resin material is cured, and the temperature drop due to contact, that is, the fluidity reduction can be accurately suppressed. Therefore, it is possible to achieve a high filling rate with respect to the shaping roll pattern of the resin material and obtain an optical lens sheet having a high shaping rate. Moreover, since a long-term cooling effect is obtained by the cooling roll, the fluidity of the resin can be reliably reduced before peeling. Therefore, it is possible to prevent the deformation of the mold at the time of peeling.

  According to the manufacturing apparatus of the invention of claim 6, since the shaping roll pattern surface of the shaping roll is coated with ceramics having low thermal conductivity, when the resin material comes into contact with the shaping roll pattern, Instantaneous heat transfer to the surface of the shaping roll pattern can be suppressed, the mold can be put into the shaping roll pattern before the resin material is cured, and the temperature drop due to contact, that is, the fluidity reduction can be accurately suppressed. Therefore, it is possible to achieve a high filling rate with respect to the shaping roll pattern of the resin material and obtain an optical lens sheet having a high shaping rate. Moreover, since a long-term cooling effect is obtained by the cooling roll, the fluidity of the resin can be reliably reduced before peeling. Therefore, it is possible to prevent the deformation of the mold at the time of peeling.

  According to the manufacturing method of the invention of claim 7, since the surface of the shaping roll pattern of the shaping roll is coated with the heat insulating paint having low thermal conductivity, the resin material is in contact with the shaping roll pattern. Therefore, the instantaneous heat transfer from the surface to the shaping roll pattern surface can be suppressed, the mold can be put into the shaping roll pattern before the resin material is cured, and the temperature drop due to contact, that is, the fluidity reduction can be accurately suppressed. Therefore, it is possible to achieve a high filling rate with respect to the shaping roll pattern of the resin material and obtain an optical lens sheet having a high shaping rate. Moreover, since a long-term cooling effect is obtained by the cooling roll, the fluidity of the resin can be reliably reduced before peeling. Therefore, it is possible to prevent the deformation of the mold at the time of peeling.

  According to the manufacturing apparatus of the invention of claim 8, since the surface of the shaping roll pattern of the shaping roll is coated with the heat insulating paint having low thermal conductivity, the resin material is in contact with the shaping roll pattern. Therefore, the instantaneous heat transfer from the surface to the shaping roll pattern surface can be suppressed, the mold can be put into the shaping roll pattern before the resin material is cured, and the temperature drop due to contact, that is, the fluidity reduction can be accurately suppressed. Therefore, it is possible to achieve a high filling rate with respect to the shaping roll pattern of the resin material and obtain an optical lens sheet having a high shaping rate. Moreover, since a long-term cooling effect is obtained by the cooling roll, the fluidity of the resin can be reliably reduced before peeling. Therefore, it is possible to prevent the deformation of the mold at the time of peeling.

The schematic diagram of the optical lens sheet manufacturing apparatus which concerns on one Embodiment of this invention. (A) is a schematic diagram when the resin material mold is good, (B) is a schematic diagram when the pattern sheet mold is not collapsed. (A) is a schematic diagram when the resin material is poorly molded, and (B) is a schematic diagram when the pattern is out of shape.

  Hereinafter, an optical lens sheet manufacturing apparatus according to an embodiment of the present invention will be described.

  FIG. 1 is a conceptual diagram showing a configuration of an optical lens sheet manufacturing apparatus. This manufacturing apparatus includes a shaping roll 1 and a pressing roll 2, and a fine uneven-shaped shaping roll pattern a is formed on the surface of the shaping roll 1 as a transfer mold. The forming roll pattern a on the surface of the forming roll 1 is subjected to a surface treatment K for imparting low thermal conductivity. For example, a resin coating including a fluororesin, a ceramic coating, a coating with a heat insulating paint, etc. is there. Note that fluororesin and ceramic are preferable as the material for the surface treatment K because they have good peeling properties after the resin material J is shaped.

  The shaping roll 1 and the pressing roll 2 are arranged adjacent to each other, and a transfer portion P is formed between the adjacent ones. The shaping roll 1 rotates counterclockwise in the figure, and the pressing roll 2 rotates clockwise. The shaping roll 1 is provided with a temperature adjustment mechanism 6.

  The die head 3 of the extrusion molding machine is disposed above the adjacent portion of the shaping roll 1 and the pressure roll 2, that is, the transfer portion P, and the resin material J heated and melted from the die head 3 is extruded toward the transfer portion P. The The shaping roll 1 is a roll having an effective width longer than the width of the resin material J extruded from the die head 3.

  A peeling roll 4 is disposed adjacent to the shaping roll 1 at a position almost opposite to the pressing roll 2 with respect to the shaping roll 1. The peeling roll 4 rotates in the opposite direction to the shaping roll 1.

  Next, the operation of this optical lens sheet manufacturing apparatus will be described.

  Under the state where the shaping roll 1, the pressing roll 2, the peeling roll 4 and the cooling roll 5 rotate, the resin material J heated and melted from the die head 3 of the extrusion molding machine is extruded into a sheet shape toward the transfer portion P. Is done. The extruded resin material J flows between the shaping roll 1 and the pressing roll 2 and along the surface of the shaping roll 1, and at a predetermined pressure between the shaping roll 1 and the pressing roll 2. It passes through the transfer portion P while being sandwiched, and the shaping roll pattern a on the surface of the shaping roll 1 is transferred to the surface of the sheet-like resin material J during this passage.

The resin material J to which the shaping roll pattern a is transferred is conveyed to the arrangement side of the cooling roll 5 provided with the temperature adjusting mechanism 6 while being held on the surface of the shaping roll 1, and is cooled by contact with the cooling roll 5. Is done. And in the portion in contact with the peeling roller 4 are sequentially peeled from the surface of the forming roll 1 is fed to the next step as an optical lens sheet J _1.

  When the resin material J is extruded from the die head 3 and contacts the shaping roll pattern a, the surface of the shaping roll pattern a is subjected to surface treatment K for imparting low thermal conductivity. Suppresses the instantaneous heat transfer to the surface of the roll pattern a, and before the resin material J is cured, the resin material J reaches the back of the pattern.Therefore, the temperature drop due to contact with the shaped roll pattern a, that is, the fluidity The decrease can be accurately suppressed. As a result, it is possible to achieve a high filling mold for the shaping roll pattern a.

1 ... Shaping roll
2 ... Pressing roll
3 ... Die head
4 ... Peeling roll
5 ... Cooling roll
6 ... Temperature adjustment mechanism
a… Shaping roll pattern
b ... Shaping pattern
J: Resin material
J ₁ ... Optical lens sheet
K… Surface treatment (fluorine resin coating, ceramic coating, heat insulating paint)
P ... Transcription part

Claims (6)

A sheet-shaped resin material extruded from a die head of an extrusion molding machine is introduced into a transfer portion where a shaping roll having a shaping pattern formed on the surface and a pressing roll are adjacent to each other, and sandwiched between the shaping roll and the pressing roll. In this method, the shaping roll has a temperature adjustment mechanism, and the introduction of the sheet-shaped resin material into the transfer portion is along the surface of the shaping roll. The surface of the shaping roll pattern is provided with a low thermal conductivity resin coating that can prevent a decrease in fluidity of the sheet-like resin material, and the resin coating is a fluororesin coating, Before being conveyed to the peeling roll for peeling from the surface of the roll, it is arranged so as to contact the surface opposite to the shaping roll surface side of the shaped sheet-shaped resin material. , Characterized in that it is cooled by a cooling roll provided with the temperature adjustment mechanism, an optical lens sheet manufacturing method. A sheet-shaped resin material extruded from a die head of an extrusion molding machine is introduced into a transfer portion where a shaping roll having a shaping pattern formed on the surface and a pressing roll are adjacent to each other, and sandwiched between the shaping roll and the pressing roll. In the apparatus for manufacturing an optical lens sheet, the shaping roll has a temperature adjustment mechanism, and the introduction of the sheet-shaped resin material into the transfer portion is performed along the surface of the shaping roll. In addition, the surface of the shaping roll pattern is provided with a resin coating having a low thermal conductivity that makes it possible to prevent a decrease in fluidity of the sheet-like resin material, and the resin coating is a fluororesin coating, Before being conveyed to the peeling roll for peeling from the surface, the temperature is adjusted so as to contact the surface opposite to the shaping roll surface side of the shaped sheet-shaped resin material. Wherein the cooling roll provided with the mechanism is disposed, an optical lens sheet manufacturing apparatus. A sheet-shaped resin material extruded from a die head of an extrusion molding machine is introduced into a transfer portion where a shaping roll having a shaping pattern formed on the surface and a pressing roll are adjacent to each other, and sandwiched between the shaping roll and the pressing roll. In this method, the shaping roll has a temperature adjustment mechanism, and the introduction of the sheet-shaped resin material into the transfer portion is along the surface of the shaping roll. The surface of the shaping roll pattern is coated with a low thermal conductivity ceramic coating that can prevent a decrease in fluidity of the sheet-like resin material, and the peeling roll for peeling from the surface of the shaping roll. Before being conveyed, the sheet-shaped resin material is cooled by a cooling roll having a temperature adjusting mechanism disposed so as to be in contact with the surface opposite to the surface of the shaping roll. Characterized in that it is, an optical lens sheet manufacturing method. A sheet-shaped resin material extruded from a die head of an extrusion molding machine is introduced into a transfer portion where a shaping roll having a shaping pattern formed on the surface and a pressing roll are adjacent to each other, and sandwiched between the shaping roll and the pressing roll. In the apparatus for manufacturing an optical lens sheet, the shaping roll has a temperature adjustment mechanism, and the introduction of the sheet-shaped resin material into the transfer portion is performed along the surface of the shaping roll. The surface of the shaping roll pattern is coated with a low thermal conductivity ceramic coating that can prevent the fluidity of the sheet-like resin material from being lowered, and is conveyed to the peeling roll for peeling from the surface of the shaping roll. A cooling roll having a temperature adjusting mechanism is disposed so as to contact the surface opposite to the shaping roll surface side of the shaped sheet-shaped resin material. The symptom, the optical lens sheet manufacturing apparatus. A sheet-shaped resin material extruded from a die head of an extrusion molding machine is introduced into a transfer portion where a shaping roll having a shaping pattern formed on the surface and a pressing roll are adjacent to each other, and sandwiched between the shaping roll and the pressing roll. In this method, the shaping roll has a temperature adjustment mechanism, and the introduction of the sheet-shaped resin material into the transfer portion is along the surface of the shaping roll. The surface of the shaping roll pattern is coated with a heat insulating paint having a low thermal conductivity that can prevent the fluidity of the sheet-like resin material from being lowered, and to the peeling roll for peeling from the surface of the shaping roll. Before being conveyed, the sheet-shaped resin material that has been shaped is cooled by a cooling roll having a temperature adjustment mechanism that is disposed so as to contact the surface opposite to the surface of the shaping roll. The symptom, the optical lens sheet manufacturing method. A sheet-shaped resin material extruded from a die head of an extrusion molding machine is introduced into a transfer portion where a shaping roll having a shaping pattern formed on the surface and a pressing roll are adjacent to each other, and sandwiched between the shaping roll and the pressing roll. In the apparatus for manufacturing an optical lens sheet, the shaping roll has a temperature adjustment mechanism, and the introduction of the sheet-shaped resin material into the transfer portion is performed along the surface of the shaping roll. The surface of the shaping roll pattern is coated with a low thermal conductivity heat-insulating paint that can prevent the fluidity of the sheet-like resin material from being lowered, and is conveyed to the peeling roll for peeling from the surface of the shaping roll. A cooling roll having a temperature adjustment mechanism is disposed so as to contact the surface opposite to the shaping roll surface side of the shaped sheet-shaped resin material, Manabu lens sheet manufacturing apparatus.

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