IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0390685
(2003-03-19)
|
등록번호 |
US-7294292
(2007-11-13)
|
우선권정보 |
JP-2002-309586(2002-10-24) |
발명자
/ 주소 |
- Akutsu,Eiichi
- Ohtsu,Shigemi
- Shimizu,Keishi
- Yatsuda,Kazutoshi
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
7 인용 특허 :
2 |
초록
▼
The present invention provides a process for producing a polymer optical waveguide, comprising the steps of: preparing a mold comprising a concave portion; bringing a substrate into contact with the mold, filling the concave portion with a core-forming curable resin; curing the core-forming curable
The present invention provides a process for producing a polymer optical waveguide, comprising the steps of: preparing a mold comprising a concave portion; bringing a substrate into contact with the mold, filling the concave portion with a core-forming curable resin; curing the core-forming curable resin in the concave portion; removing the mold from the substrate; and forming a clad layer on the substrate; wherein the mold comprises a cured resin layer and a reinforcing member, the cured resin layer has the concave portion, the reinforcing member has an introduction portion which communicates with the concave portion and an injection inlet which communicates with the introduction portion, and a discharge portion which communicates with the concave portion is provided in the reinforcing member, the cured resin layer and/or a space between the cured resin layer and the reinforcing member, and a resin injecting device which is used in the process.
대표청구항
▼
What is claimed is: 1. A process for producing a polymer optical waveguide, comprising: preparing a mold comprising a concave portion for forming a core; bringing a cladding substrate into close contact with the mold, filling the concave portion of the mold with a core-forming curable resin; curing
What is claimed is: 1. A process for producing a polymer optical waveguide, comprising: preparing a mold comprising a concave portion for forming a core; bringing a cladding substrate into close contact with the mold, filling the concave portion of the mold with a core-forming curable resin; curing the core-forming curable resin in the concave portion to form a core on the cladding substrate; removing the mold from the cladding substrate on which the core has been formed; and forming a clad layer on a core-formed surface of the cladding substrate; wherein the mold includes a cured mold-forming resin layer and a reinforcing member for reinforcing the cured mold-forming resin layer, the cured mold-forming resin layer having the concave portion, the reinforcing member comprising material different than the mold-forming resin layer and having an introduction portion which communicates with the concave portion, an injection inlet for injecting the core-forming curable resin into the mold, wherein a space exists between the cured mold-forming resin layer and the reinforcing member, and wherein the mold includes a discharge portion which communicates with the concave portion and is provided in at least one of the reinforcing member and the cured mold-forming resin layer. 2. A process for producing a polymer optical waveguide according to claim 1, wherein the core-forming curable resin is injected into the mold under pressure. 3. A process for producing a polymer optical waveguide according to claim 1, wherein the cured mold-forming resin layer of the mold comprises a cured silicone rubber oligomer. 4. A process for producing a polymer optical waveguide according to claim 1, wherein a thickness of the cured mold-forming resin layer is in a range of 10 to 30 μm. 5. A process for producing a polymer optical waveguide according to claim 1, wherein the reinforcing member comprises a metal or a ceramic. 6. A process for producing a polymer optical waveguide according to claim 1, wherein a thickness of the reinforcing member is in a range of 1 to 40 μm. 7. A process for producing a polymer optical waveguide according to claim 1, wherein the reinforcing member comprises an air outlet which communicates with the discharge portion and the pressure in the concave portion is reduced by exhausting air in the mold from the air outlet. 8. A process for producing a polymer optical waveguide according to claim 1, wherein the core-forming curable resin is a photocurable resin and the reinforcing member has an opening which corresponds to the concave portion. 9. A process for producing a polymer optical waveguide according to claim 8, wherein the opening is made of light-transmissive material or is formed by cutting off a portion of the reinforcing member. 10. A process for producing a polymer optical waveguide according to claim 1, wherein the mold is prepared by forming a mold-forming curable resin layer on a master template, putting the reinforcing member on the mold-forming curable resin layer, curing the mold-forming curable resin layer to integrate the mold-forming curable resin layer with the reinforcing member, and removing the master template. 11. A process for producing a polymer optical waveguide according to claim 1, wherein the cladding substrate is a film substrate. 12. A process for producing a polymer optical waveguide according to claim 11, wherein the film substrate comprises an alicyclic olefin resin. 13. A process for producing a polymer optical waveguide according to claim 1, wherein the cladding substrate is fixed to the reinforcing member of the mold in the step of bringing the cladding substrate into close contact with the mold. 14. A process for producing a polymer optical waveguide according to claim 13, wherein the cladding substrate is placed on a holding member in the step of bringing the cladding substrate into close contact with the mold. 15. A process for producing a polymer optical waveguide according to claim 14, wherein the holding member is fixed to the reinforcing member. 16. A process for producing a polymer optical waveguide according to claim 1, wherein the core-forming curable resin comprises one of an ultraviolet ray-curable resin and a thermosetting resin. 17. A process for producing a polymer optical waveguide according to claim 1, wherein a surface energy of the cured mold-forming resin layer of the mold is in a range of 10 to 30 dyn/cm. 18. A process for producing a polymer optical waveguide according to claim 1, wherein a Shore rubber hardness of the cured mold-forming resin layer of the mold is in a range of 15 to 80. 19. A process for producing a polymer optical waveguide according to claim 1, wherein a surface roughness of the cured mold-forming resin layer is no more than 0.5 μm. 20. A process for producing a polymer optical waveguide according to claim 1, wherein a difference between a volume of the core-forming curable resin layer before curing thereof and a volume of the core-forming curable resin after curing thereof is no more than 10% in the step of curing the core-forming curable resin. 21. A process for producing a polymer optical waveguide, comprising: preparing a mold comprising a cured mold-forming resin layer and a reinforcing member, the cured-mold forming resin layer including a concave portion configured to form a core, and the reinforcing member being comprised of a material different than the cured mold-forming resin layer and configured to reinforce the cured mold-forming resin layer; the mold further comprising an introduction portion which communicates with the concave portion, an injection inlet for injecting the core-forming curable resin into the mold and a space between the cured mold-forming resin layer and the reinforcing member, bringing a cladding substrate into close contact with the mold; filling the concave portion of the mold with a core-forming curable resin; curing the core-forming curable resin in the concave portion to form a core on the cladding substrate; removing the mold from the cladding substrate on which the core has been formed; and forming a clad layer on a core-formed surface of the cladding substrate. 22. A process for producing a polymer optical waveguide according to claim 21, wherein the core-forming curable resin is pressurized and introduced into the concave portion at the time that the concave portion is filled with the core-forming curable resin. 23. A process for producing a polymer optical waveguide according to claim 21, wherein air in the concave portion is discharged form the discharge portion to reduce the pressure in the concave portion at the time that the concave portion is filled with the core-forming curable resin.
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