TH103226A - Process for bonding the film onto the curved substrate. - Google Patents

Abstract

DC60 The adhesive method onto the curved surface of the film acts as a substrate (4) which has its initial shape. Mostly in a plane To the end, the film (4) was held onto the membrane, deforming it (1) by means of coupling (2), which allowed the parts Of the film slipped in relation to the tissue When such membranes Deformed This behavior reduces various stress. Which formed in membranes by deformation This deformation was Modified for film application to be applied to lenses applied to the eye.

Claims (2)

Disclaimer (all) which will not appear on the advertisement page: Revised 2/8/61 1 9. Process as mentioned by any of the previous claims. Where the film acts (4) is applied onto the substrate (10) with the bonding agent (5) between the film acts. Said and substrate In order for the film to function and be attached to the substrate at the end of this process. -------------------------------------------------- ------------------------- ------ 30/11/2017 ------ (OCR) page 1 of the number 3 Claim page 1. The method of film bonding acts (4) with a predominantly planar shape initially onto the curved surface of the substrate (10), characterized in that Contains: the deformation process in During the film's function (4) is deformed. And while the film does this function, it is held on One surface of the membrane is deformable (1) by means of a coupling which is modified to shape the film. Acting in a manner consistent with the deformation of the membranes, the films act to remain parallel to the membranes, only the auxiliary membranes are entrapped by a mechanical method at their borders. The film acts to be held in contact with the auxiliary membrane by means of such a connection. And how to connect Further adapted to make different parts Function of film (4) able to move relative to and Parallel to the tissue (1) during the deformation process 2. The process referred to by claim 1 where the displacement of the different parts of the film acts (4) relative to the tissue (1) ) Independent during the deformation process Without working Externally in the film performs this function 3. The process referred to by claim 1 or 2, where the connected structure consists of Liquid layer with small holes or material layers of viscous-pliable adhesives (2) 4. The process referred to by claim 3, where the connected structure consists of The liquid has a boiling point of the liquid which is higher than the temperature at which the process was performed 5. The process referred to by claim 4 where the connection structure is oil. Claim 3, where the connection structure is the material level of Viscous-elastic adhesives Contains pressure-sensitive adhesive materials. 7. The process referred to by either of the preceding claims. Where the membrane (1) is larger than the film acts (4) so that the peripheral edge of the film does this function (D) is inside the periphery of the membrane (E) during the deformation process 8. The process referred to by claim 7, where the circular geometric membranes (1) have a greater diameter than the greatest dimensions of the film, act (4) 9. The process referred to by either of the above. Of the previous claim Where the membrane (1) has the compression strength of the deformation section than the mechanical strength of the film acting (4) on the deformation section 1 0. The process is referred to by the claim that 9 Where the membranes (1) combine the modus of Young The thickness is greater than the combination of Young's modus. The film thickness serves (4), page 2 of the number 3, page 1 1. Process as mentioned by any of the previous claims. The membrane leaf (1) consists of a single homogeneous layer of material selected from polycarbonate, polymer methacrylate and polyethylene terephthalate 1 2. The process referred to by any of Claims 1 through 11 in which the membranes (1) are deformed by inducing air pressure differences between the two surfaces of the membranes. One such surface face of the film-supporting membrane acts (4) 1. 3. The process referred to by any of Clause 1 to 11 in the place where the membrane is deformed. By milling the buffer sheet against the membrane on the opposite side of the film, acts 1 4. Process referred to by either of the preceding claims. In which the structure The junction consists of an intermediate film (3) which is relative fixed to a functional film (4) between the deformation processes of the various parts of the membranes and can then be moved locally. They are relative to and parallel to tissues (1). The membranes can be modified to allow separation. After the membrane deformation layer (1) is opposed to a set of parts (21) consisting of a functional film (4) and an intermediate film (3). Holds the 14th right where the intermediate film (3) is further modified. In order to be separated from the film, act (4) by stripping 1 6. Process referred to by one of the previous claims. Where the film acts (4), it consists of the base film And by allowing at least one functional layer (4a) to be supported by such base film. The base film resides on itself or in conjunction with a functional layer (4a) with at least one acting. Selected from the function of the anti-degradation, photosensitive or oxidative function, the anti-shock function. Acting on the scratch Reflection function Polarization function Color filter function Its function contains chromium. Acting in the field of static electricity, acting on the stain. Functioning is provided by a monochromatic or structured structure. Small mop spoon By a structure that makes it a series of images or is a small structure, it means Only the cellular structures. 1 7. Processes referred to by either of the preceding claims Where the film acts (4), it consists at least one cellular structure made up of cells. Parallel to each other With the surface of the film performs the aforementioned functions. 1 8. Process as mentioned by any of the preceding claims. Where the deformation process Such was included in the process of film formation before acting (4) was performed before film loading. Perform the said duty on a substrate (10), page 3 of a number 3, page 1 9. Processes referred to by any of the preceding claims. Where the film acts (4) is applied onto the substrate (10) with the bonding agent (5) between the film acts. Said and substrate In order for the film to act to be bonded to the substrate upon completion of this process 2 0. The process referred to by claim 19 where the bonding agent (5) is a layer of substance. (4) Opposite side of the aforementioned connection method 2 1. Process, as mentioned by one of the preceding clauses, where The substrate (10) consists of the lens used on the eye intended to be incorporated into the eyeglass frame 2 2. The process referred to by claim 21 where the film acts (4) is cut. Mostly To the measured size of the lens address of the frame before the deformation step ------------ 1. The process of bonding the film acts (4) with the initial shape as The plane is predominantly down on the curved surface of the substrate (10). It has a unique feature in that it consists of: During the film's function (4) is deformed. And while the film does this function, it is held on One of the functional surfaces of the membranes is deformable (1) by means of a coupling which is adapted to shape the film. Acting in a manner consistent with the deformation of the membranes, the films act to remain parallel to the membranes, only the auxiliary membranes are entrapped by a mechanical method at their borders. The film acts to be held in contact with the auxiliary membrane by means of such a connection. And how to connect Further adapted to make different parts Function of film (4) able to move relative to and Parallel to the membrane (1) during the deformation process 2. The process referred to by claim 1 where the movement of the film segments acts (4) relative to the tissue (1). ) Independent during the deformation process Without working Externally in the film performs this function 3. The process referred to by claim 1 or 2, where the connected structure consists of Liquid layer with small holes or material layers of viscous-pliable adhesives (2) 4. The process referred to by claim 3, where the connected structure consists of The liquid has a boiling point of the liquid which is higher than the temperature at which the process was performed 5. The process referred to by claim 4 where the connection structure is oil. Holds the 3rd right where the connection structure is the material layer of Viscous-elastic adhesives Contains pressure-sensitive adhesive materials. 7. The process referred to by either of the preceding claims. Where the membrane (1) is larger than the film acts (4) so that the peripheral edge of the film does this function (D) is inside the periphery of the membrane (E) during the deformation process 8. The process referred to by claim 7, where the circular geometric membranes (1) have a greater diameter than the greatest dimensions of the film, act (4) 9. The process referred to by either of the above. Of the previous claim Where the membrane (1) has a greater mechanical strength on the deformation section than the mechanical strength of the film acting (4) on the part of the deformation 1 0. The process is referred to by claim 9. Where membranes (1) are combined of Young modulus by thickness rather than Young modulus aggregation, with film thickness acting (4) 1 1. The process as mentioned by clause. Any of the preceding claims Where membranes (1) consist of a single homogeneous layer of material selected from polycarbonate, polymethyl methacrylate and polyethylene terephthalate 1 2. The process referred to by any of Claims 1 through 11 in which the membranes (1) are deformed by inducing air pressure differences between the two surfaces of the membranes. One of the above surfaces of the film-supporting membranes acts (4) 1 3. The process referred to by any of Clause 1 to 11 in the place where the membrane is deformed. By milling the buffer sheet against the membrane on the opposite side, the film acts 1 4. The process referred to by one of the preceding claims. In which the structure The connection consists of a methyl film (3) which is relative fixed to the acting film (4) during the deformation process, parts of the said membrane are then able to be moved locally. Relative to and parallel to the membranes (1) These membranes can be modified to allow Separated after a membrane deformation procedure (1) on one arm from a set of parts (21) consisting of a functional film (4) and a compound film (3) vice versa. Mentioned by claim 14, where the compound film (3) is further modified. In order to be separated from the film, act (4) by stripping 1 6. Process referred to by one of the previous claims. Where the film acts (4), it consists of the base film And where at least one functional layer (4a) can be selected, supported by such base membranes. The base film resides on itself or in conjunction with a functional layer (4a) with at least one acting. Selected from the function of anti-degradation, light or light oxidation, anti-shock function. Acting against scratching Antireflection function Polarizer function Color filter function Its function contains chromium. Antistatic function, statistical action, anti-stain function Functioning is provided by dotted or structured structures. Small complex By a structure that makes a point of image or is a small structure is defined as Only the cellular structures. 1 7. Processes referred to by either of the preceding claims Where the film acts (4), it consists of at least one cellular structure. Containing cells Parallel to each other With the surface of the film performs the aforementioned functions. 1 8. Process as mentioned by any of the preceding claims. Where the deformation process Such was included in the process of film forming, pre-acting (4) was performed before film loading was performed. (10) 1 9. Process referred to by any of the preceding claims. Where the film acts (4) is applied onto the substrate (10) with the constructor used to form the bond (5) between the film acts. Said and substrate In order for the film to act to be bonded to the substrate upon completion of this process 2 0. The process referred to by claim 19 where the bonding agent (5) is a layer of substance. As mentioned above, initially appearing on the side of the film do the above function. 1. Process as referred to by any of the preceding claims. Where the substrate (10) consists of the lens used on the eye intended to be incorporated into the eyeglass frame 2 2. The process described by claim 21 where the film acts (4) is largely cut. To the measured size of the address of the lens of the frame before the deformation process