摘要:
Provided are a method and an apparatus for continuously forming a laminated optical function element sheet which has optical function elements formed on three or more faces by laminating a first optical function element sheet which has an optical function element formed on both of the front and back faces with a second optical function element sheet which has an optical function element formed on at least one of the two faces. The method comprises a first optical function element sheet forming step of molding, forming, or printing an optical function element on both of the front and back faces of a first base film, a second optical function element sheet forming step of molding, forming or printing an optical function element on at least one of the two faces of a second base film, and a laminating and bonding step of simultaneously performing the first and second optical function element sheet forming steps to laminate and bond the formed first and second optical function element sheets and form a laminated optical function element sheet.
摘要:
Provided are a method and an apparatus for continuously forming a laminated optical function element sheet which has optical function elements formed on three or more faces by laminating a first optical function element sheet which has an optical function element formed on both of the front and back faces with a second optical function element sheet which has an optical function element formed on at least one of the two faces. The method comprises a first optical function element sheet forming step of molding, forming, or printing an optical function element on both of the front and back faces of a first base film, a second optical function element sheet forming step of molding, forming or printing an optical function element on at least one of the two faces of a second base film, and a laminating and bonding step of simultaneously performing the first and second optical function element sheet forming steps to laminate and bond the formed first and second optical function element sheets and form a laminated optical function element sheet.
摘要:
It is possible to provide a camera module manufacturing method and a camera model which can improve performance of a camera module without complicating the manufacturing method. A light shield is formed on the side surface of each lens body (11) and a lens support member (12). Thus it is possible to obtain the diaphragm function for regulating the incident light flux transmission area and the function for suppressing the intrusion of stray light without using a separate diaphragm or a light shielding member.
摘要:
There is provided a method for producing a wafer lens assembly capable of adhering a wafer lens and a spacer surely. The wafer lens assembly includes a first substrate including plural optical members formed of a curable resin on at least one surface, a second substrate joined to the first substrate, and a stop member arranged between the first and second substrates. The first and second substrates are adhered with an adhesive made of a photo-curable resin. The method includes an adhesive applying step of applying the adhesive made of a photo-curable resin on a joining area, a stop-member forming step, and a photo-curing step of irradiating and hardening the adhesive applied in the adhesive applying step with light after the stop-member forming step. The stop member is formed so as not to prevent the light irradiated in the photo-curing step from reaching the adhesive.
摘要:
There is provided a high-efficient molding method for realizing an inexpensive optical element exhibiting environmental stability of optical performance approximately equivalent to glass optical elements. Optical plate 71p which is a transparent inorganic material with stable optical property in the environment, is inserted in molding cavity CV. Then, molds 61 and 62 are closed and optical plate 71p is unitedly molded with energy curable resin to obtain molded body MP. Thereby, optical path length of the energy curable resin is shortened, and the optical property of the molded body MP is hardly affected by environmental change. A highly accurate molding transferability of the shape of optical surfaces 71j and 71k formed by injection molding, simultaneous molding of the opposing optical surfaces 71j and 71k, and securing alignment of the double-molded optical surfaces 71j and 71k are easily realized. Therefore, inexpensive optical element 71a can be molded with high efficiency.
摘要:
In repeating strokes for injecting a resin material, a piston (13) is slid to an inlet position (P2) within a cylinder (12). Accordingly, when the piston (13) is moved backward further, the resin near the piston (13) is replaced with a fresh resin supplied from a resin reservoir section (RT). Therefore, in the subsequent injection stroke, only the fresh resin can be always injected. Thus, there is no possibility that the rein stays beyond the pot-life and starts to cure or causes an increase in viscosity within the cylinder (12). Further, any foreign matter such as a semi-cured resin is not produced. Therefore, clogging of the resin passage and the flow of the foreign matter into a molding cavity can be suppressed. As a result, given molding conditions can be always ensured, and, thus, highly accurate molding products can be produced with high reproducibility.
摘要:
It is possible to provide a camera module manufacturing method and a camera model which can improve performance of a camera module without complicating the manufacturing method. A light shield is formed on the side surface of each lens body (11) and a lens support member (12). Thus it is possible to obtain the diaphragm function for regulating the incident light flux transmission area and the function for suppressing the intrusion of stray light without using a separate diaphragm or a light shielding member.
摘要:
A method of forming a transferring surface onto a producing die to produce an optical element, wherein the transferring surface transfers an optical surface onto the produced optical element, the method comprising the steps of: cutting a material so as to form the transferring surface with a curvature; wherein the material has a hardness not smaller than Rockwell hardness HRA 80 or Vickers hardness Hv 1000 and the cutting step is conducted with a critical cutting-in depth of 5 μm or less for the material.
摘要:
A machining apparatus for conducting at least one of a cutting process and a grinding process, comprises a stationary base; and a working device mounted on the stationary base and having a degree of freedom of more than two axes to conduct at least one of a cutting process and a grinding process, the working device comprising a first working bench which is formed of a ceramic material and is movable linearly with a degree of freedom of not less than one axes or more while holding a work piece or a tool.
摘要:
In the assembly of vibration body, the first width in the lateral direction (X axis direction) is greater than the second width in the longitudinal direction (Y axis direction) in the cross sectional form perpendicular to Z axis of the first portion on the tip side from the closest node position, thereby, the rigidity of a vibration body main part in the X axis direction can be enhanced, and lateral bending vibrations on fixing portion can be restrained. Consequently, an object can be processed highly accurately by the assembly of vibration body that is controlled with a high precision.