KR100605146B1 - Manufacture method of infrared ray cut off filter for small size optical instrument - Google Patents

Abstract

The present invention relates to an infrared cut filter used in a small optical device, the conventional manufacturing process of the infrared cut filter requires a number of repeated work process until the infrared cut filter is made, takes a long time, cost There was a problem that a lot of consumption is reduced productivity.

Therefore, the present invention provides a surface inspection step of the original plate, a coating film inspection step of the original plate, a primary cutting process of the original plate, a secondary cutting process of the original plate, a dimension checking step of the product, a surface cleaning step of the product, In manufacturing the finished infrared cut filter through the surface inspection step of the product,

Between the first cutting process step of the disc, and the dimension check step of the product,

A plurality of discs 10 of the infrared cut filter are stacked, and a paper 20 and an adhesive means 30 for protecting the disc 10 are installed between each disc 10 to be stacked, and then the laminated disc ( A step of laminating a heating plate of the original plate such that the original plates 10 are fixed to each other by melting the adhesive means 30 by the heat of the heating plate 50 by placing the plate 10 on the heating plate 50;

Secondary cutting of a disc made of a product 60 in which the processed disc 10 is laminated at the same time by cutting simultaneously to correspond to the required dimensions and shapes of the laminated disc 10 laminated through the heating plate lamination step of the disc. Processing step;

The product 60 through the secondary cutting process of the disc is put into a trichloroethylene solution in a heated state to melt the adhesive means 30 which fixes the processed disc 10 and the product 60 And a washing step of the product to make the processed disk (10) separated from each other;

Separation step of the product is separated by the product 60 is processed into the original plate 10 and the paper 20 by the washing step of the product, and the paper 20 is removed and selected by selecting only the processed original plate 10 ;

As it is configured to be performed sequentially, the infrared cut filter can be produced in a large amount for a short time, it is possible to further improve the manufacturability and productivity.

Optics, infrared cut filter, camera, heating plate, adhesive means, trichloroethylene

Description

Manufacture method of infrared ray cut off filter for small size optical instrument             

1 is a flow chart showing a conventional infrared cut filter manufacturing process.

Figure 2 is a flow chart illustrating a manufacturing process of the infrared cut filter according to the present invention.

Figure 3 is an enlarged cross-sectional view of the main portion illustrating a state in which the original plate of the infrared cut filter is stacked in accordance with the present invention.

Figure 4a is a perspective view of the main portion illustrating a state in which the original plate laminated in accordance with the present invention processed into a square shape.

Figure 4b is a perspective view of the main portion illustrating a state in which the circle stacked in accordance with the present invention in a circular hole.

Explanation of symbols for the main parts of the drawings

10: disc 20: paper

30: bonding means 40: protective glass

50: heating plate 60: product

The present invention relates to an infrared cut filter used in a compact optical device, and more particularly, to fabricate a plurality of infrared cut filter having a certain dimension and shape by cutting the original plate for making the infrared cut filter, a large number at the same time The present invention relates to a method for manufacturing an infrared cut filter used in a small optical device that can improve the manufacturing ability of the infrared cut filter and increase productivity by configuring the cut off filter of the infrared cut filter quickly and easily.

In general, an optical instrument forms an image of an object in space by using reflection, refraction, absorption, interference, and diffraction, which are characteristics of light radiated from the sun or an electric light, or emit radiation emitted from an object. It is a device to analyze and study the properties of the object.

To broadly classify such optical devices, such as glasses, binoculars, telescopes, microscopes and the like for the purpose of enhancing the visual power of the eye; For the purpose of recording and reproducing images produced by lenses such as cameras, movies, televisions, video cameras, projectors, etc .; For optical measurement of rangefinders, transits, interferometers, altimeters, spectrometers, lens meters, etc .; Such as fiber scopes, gastroscopes, and the like can be classified into optical fiber bundles such as image propagation, information transmission, and the like. The scope and application of such optical devices are being developed in various fields.

In such optics, image recognition optics for the purpose of recording and reproducing images caused by the lens, such as camcorders, digital cameras, PDAs, surveillance cameras, car cameras, image cams, mobile phone cameras, etc., as mentioned above. Various types of digital imagers are used rather than analog methods. Complementary metal oxide semiconductors (CMOS), which are complementary metal oxide semiconductors, or charged coupled devices (CCDs), which are solid-state imaging devices, are used as the digital imagers.

Recently, as components related to imaging such as CMOS and CCD, which are digital imagers, are gradually miniaturized, image recognition optical devices have been miniaturized, making it easy to carry, and a small digital camera is also incorporated into a mobile phone.

On the other hand, such an imager is equipped with an infrared ray cut off filter (Infrared Ray Cut Off Filter), the infrared cut filter transmits only visible light (Visible) reaching the digital imager to convert the optical image information into an electrical signal Infrared rays are reflected or absorbed to prevent infrared rays from reaching the digital imager CCD or CMOS, and the thickness is mainly made of 0.05mm and 0.4mm or more, and the shape is installed by the digital imager. Depending on the shape of the installation part of the product to be made of round or square and other various shapes.

Looking at the manufacturing process of such an infrared cut filter as shown in FIG.

In other words, if the original plate of the infrared cut filter is processed into a predetermined shape and size to become a finished product step by step,

A surface inspection step of a disc using a 60 W incandescent lamp or a three-wavelength to determine whether the disc surface of the infrared cut filter is scratched or foreign matter is attached;

A coating film inspection step of inspecting a peeling phenomenon of the coating film while attaching and detaching the adhesive strong tape to five or more points of the disk;

Dividing the original plate with an optical glass knife in consideration of the size of the original plate, but as the number of equal parts increases, waste of materials increases, so that the first cutting processing step of the original plate is processed with a minimum amount;

A secondary cutting processing step of the disc for cutting into a plurality of products which are the previous stages of the finished product by cutting with a cutter to match the shape and dimensions to make the equalized disc;

A dimension checking step of checking the overall dimension of the product made through the second cutting process using a measuring tool such as a vernier caliper;

A surface cleaning step of the product for removing foreign matters on both sides of the product by using an optical tissue and acetone;

Inspecting the surface of the product by visual inspection using a 60 W incandescent lamp or a three-wavelength or by using a microscope according to the specification of the product;

After that, the finished infrared cut filter is made.

However, in the manufacturing process of the conventional infrared cut filter as described above, the final cut through the second cut processing step of the disc according to the desired shape and dimensions in the state that the original plate of the infrared cut filter is divided into several parts by the first cutting step of the original plate. It is made of a plurality of products, which are the previous stages, but conventionally, it is made of a product because it is made of a plurality of products having the shape and dimensions to be made by individually cutting the equally divided disks made through the first cutting process step of the original plates. Repeated work process is required until a number of times, accordingly there was a problem that the work time and cost are consumed and workability and productivity are lowered.

Therefore, an object of the present invention is to solve the problems described above, and to process a disc of the infrared cut filter to a desired dimension and shape to make a large number of products at the same time when making a product that is a preliminary step of the finished product. According to the configuration, the overall workability can be improved, and the work time can be shortened, thereby providing a manufacturing method of an infrared cut filter used for a compact optical device that can further improve productivity and economic effects.

The object of the present invention is to inspect the surface of the disc, the coating film inspection step of the disc, the primary cutting process of the disc, the secondary cutting process of the disc, confirm the dimensions of the product, and clean the surface of the product In the step and the surface inspection step of the product to produce the finished infrared cut filter,

After performing the surface inspection step of the disc, the coating film inspection step of the disc, and the first cutting processing step of the disc,

 A plurality of discs divided into equal parts are laminated to each other through the first cutting processing step of the discs, and an adhesive means made of paraffin and rosin together with paper is installed between each disc, and then the plurality of discs stacked on each other are placed on a heating plate. A heating plate laminating step in which the laminated plates are fixed to each other while the adhesive means is melted by the heat of the heating plate;

A secondary cutting processing step of the original plate which is simultaneously cut and processed to correspond to the required size and shape of the original plate laminated by the heating plate lamination step of the original plate;

Put the processed product through the secondary cutting process of the disc into the heated trichloroethylene solution so that each processed disc forming the product is separated by melting the adhesive means by the trichloroethylene solution. Washing the product;

Separating the product by selecting and selecting only the processed disc separated by the washing step of the product;

This is achieved by sequentially performing the configuration of the final product after the dimensional confirmation step of the remaining product, the surface cleaning step of the product, and the surface inspection step of the product.

In the present invention, when the disc is processed with a plurality of infrared cut filter having a certain dimension and shape, the plurality of discs are sequentially stacked and cut and processed in a fixed state, thereby separating the stacked discs from each other in a short time. The number of infrared cut filter can be produced, and the above object can be achieved because workability and productivity can be further improved.

Hereinafter, with reference to the accompanying drawings, the technical configuration and operational effects as a preferred embodiment that can effectively achieve the features of the present invention will be described.

That is, Figure 2 is a flow chart illustrating a manufacturing process of the infrared cut filter according to the present invention, Figure 3 is an enlarged main portion illustrating a state in which the original plate of the infrared cut filter is laminated between the paper and the adhesive means in accordance with the present invention 4A is a perspective view illustrating a state in which a laminated disc according to the present invention is cut into a rectangular product, and FIG. 4B is a main part illustrating a state in which a laminated disc according to the present invention is cut into a circular product. Perspective view.

As illustrated in the present invention, the present invention provides a surface inspection step of a disc, a coating film inspection step of a disc, a primary cutting process of a disc, a secondary cutting process of a disc, a step of confirming a dimension of a product, and a surface of a product. In the manufacturing method of the infrared cut filter to be a finished product through the cleaning step and the surface inspection step of the product,

After performing the surface inspection step of the disc, the coating film inspection step of the disc, and the first cutting processing step of the disc,

By stacking the plurality of original plates 10 equally divided through the first cutting processing step of the original plates so as to overlap each other, the paper 20 and the original plates for protecting the original plates 10 between the laminated original plates 10. 10 is provided with an adhesive means 30 for fixing each other, and the lower and upper surfaces of the laminated original plate 10 and the protective glass 40 are installed by using the paper 20 and the adhesive means 30. Then, it is placed on the heating plate 50 so that each of the laminated plates 10, the paper 20, and the protective glass 40 that are laminated while the adhesive means 30 is melted by the heat of the heating plate 50 may be fixed to each other. Laminating a hot plate of one disc;

A secondary cutting processing step of the original plate 10 and paper 20 and the protective glass 40, which are laminated through the heating plate lamination step of the original plate, are cut and processed to correspond to the required dimensions and shapes;

Adhesion means for fixing the processed disk 10 by inserting the product 60, which is fixed in a state in which the laminated disk 10 is laminated in a laminated state by the secondary cutting processing step of the disk into a trichloroethylene solution Washing the product to melt the 30 so that the processed original plate 10 and the paper 20 and the protective glass 40 can be separated from each other;

Remove the paper 20 and the protective glass 40 of the processed disc 10 and the paper 20 and the protective glass 40 separated by the washing step of the product, and select only the processed disc 10 Separating the product;

After sequentially performing the step of confirming the dimensions of the remaining product, the surface cleaning step of the product, and the surface inspection step of the product is characterized in that the finished infrared cut filter can be manufactured.

The present invention in the manufacture of a plurality of infrared cut filter having a predetermined size and shape while the disc of the infrared cut filter has a plurality of steps, the disc 10 when cutting the disc 10 to a predetermined size and shape It is to be able to effectively produce a large number of infrared cut filter in a short time by configuring so that the cutting process in a state in which a plurality of discs 10 are laminated and fixed without cutting the cutting one by one.

That is, Figure 2 is a flow chart showing a step-by-step manufacturing method of the infrared cut filter according to the present invention, looking at the characteristics of the manufacturing process step by step as follows.

First, a disk of a certain size for making an infrared cut filter is received, and then classified and stored according to the type or thickness of the coating, and when the order is placed, the quantity of the disk required for the order is moved to the surface inspection step of the disk, In the surface inspection step of the disc, a 60W incandescent lamp or a three-wavelength, etc. is used to check the presence of scratches, contamination or foreign matter that may occur on the surface of the disc.

Then, the disc that passed the surface inspection step of the disc is subjected to a coating film inspection step of the disc to examine the state of the coating film coated on the disc surface, the coating film inspection step of the disc was attached to the disc surface with a strong adhesive tape It is to determine whether the coating film is peeled off from the original plate while removing it, and typically five or more points of the original plate are selected and inspected.

In addition, the original plate that passes the coating film inspection step of the original plate is subjected to the first cutting processing step of the original plate, which is intended to be equally divided into appropriate sizes so as to easily process the original plate. It is preferable to divide the food into a minimum number of pieces.

Here, the surface inspection step of the original plate, the coating film inspection step of the original plate, and the first cutting process of the original plate is the same as the conventional one, and the original plate undergoing the primary cutting process of the original plate is a hot plate lamination step of the original plate, It is a feature of the present invention to sequentially pass through the secondary cutting process, the washing step of the product, and the separation step of the product, and after the separation step of the product to confirm the dimensions of the product, the surface cleaning step of the product, The step of producing the finished product through the surface inspection step of the product is also the same as the conventional one.

Therefore, the heating plate lamination step of the original plate, which is a feature of the present invention, the secondary cutting process of the original plate, the washing step of the product, and the separation step of the product are described in detail as follows.

That is, the original plate 10 divided into equal sizes to be easily processed while passing through the primary cutting processing step of the original plate is moved to the heating plate lamination step of the original plate, wherein the heating plate lamination step of the original plate is divided into equal parts of the original plate 10. Stacked on top of one disk 10, the thin paper 20 is placed on the upper surface, the adhesive means 30 is applied on the paper 20, and then the other disk 10 is placed on the adhesive means 30 In addition, the upper surface of the other disc 10 is also laminated on a plurality of discs 10 by placing a thin paper 20 and then applying the adhesive means 30.

At this time, the role of the paper 20 is to protect the surface of the original plate 10 overlapping each other, the adhesive means 30 is made by mixing paraffin and rosin so that it can be melted by a constant temperature, laminated as described above Protective glass together with the paper 20 and the adhesive means 30 to protect the upper surface and the bottom surface of the laminated disk 10 on the bottom surface of the lowermost disk 10 and the upper surface of the upper disk 10. Is installed.

And the plurality of laminated plates 10 are thus placed on the heating plate 50 heated to a constant temperature, the temperature of the heating plate 50 is the adhesive means 30 was applied between each laminated plate 10 When the original plate 10 stacked on the heated heating plate 50 is placed at a temperature at which the melting temperature is melted, the adhesive means 30 applied between the original plates 10 is melted by the heat of the heating plate 50, and then the When the heating plate 50 is cooled, the molten adhesive means 30 is also hardened so that each of the stacked original plates 10 may be fixed to each other by the adhesive means 30.

Therefore, the number of the laminated disk 10 can be determined so as to correspond to the range of the temperature of the heating plate 50 is transferred to each laminated disk 10, although there is a difference depending on the thickness of the disk 10 is generally Thus, the original plate 10 can be laminated and fixed from 16 to 20 sheets.

As described above, a plurality of original plates 10 which are stacked and fixed to each other through the heating plate lamination step of the original plates are moved to the secondary cutting processing step of the original plates, and the original plates 10 of the laminated state are processed according to the ordered dimensions and shapes. In this case, since the bonding means 30 of the laminated original plate 10 is also not sufficiently solid in the state where the heating plate 50 is not sufficiently cooled, when the cutting process is performed in such a state, the laminated original plates 10 are mutually different. It may be desirable to perform cutting processing after the heating plate 50 is sufficiently cooled because an error occurs or the stacked original plates 10 may be separated from each other while flowing.

Therefore, the plurality of products 60, which are fixed in a state in which the original plates 10 processed to a predetermined size and shape through the secondary cutting process of the original plates are stacked in a stacked state, are in the form of a single mass, such a mass-shaped product. (60) is to be separated from each other through the next step of washing the product.

That is, the product 60 is put into a trichloroethylene solution, which is a compound in which three hydrogen atoms of ethylene are substituted with chlorine atoms, and the original plate 10 processed by the solution by heating the trichloroethylene solution. As the adhesive means 30 fixed in the stacked state is melted, the processed original plates 10 are separated from each other.

Therefore, when the products 60, which were in the form of agglomerates as described above, are separated from each other by the trichloroethylene solution, the product 60 is moved to a separation step of the next product. In the separation step of the product, a triclo with the adhesive means 30 in a molten state is contained. The low ethylene solution is removed, thereby separating and separating only the processed disk 10 of the paper 20 and the protective glass 40 that were installed between the processed disk 10 and the processed disk 10.

Then, the processed original plate 10 separated through the separation step of the product is a dimension checking step of checking the same shape and dimensions as in the prior art, and cleaning the surface of the product to remove stains, dust or foreign substances formed on the surface of the product After the step and the surface inspection step of the product to inspect the surface of the product using the naked eye or a microscope is made of the infrared cut filter as a finished product.

As described above, the preferred embodiment of the present invention has been described, but the present invention may use various changes, modifications, and equivalents. Therefore, the above description does not limit the scope of the invention defined by the limitations of the following claims.

As described above, according to the present invention, in manufacturing an infrared cut filter used for a small optical device, the laminated and fixed original plates are simultaneously processed according to the ordered shape and dimensions in a state where a plurality of original plates are laminated and fixed. Therefore, a large amount of infrared cut filter can be manufactured quickly and effectively, and workability and productivity can be further improved.

Claims (3)

Surface inspection of the original, coating film inspection of the original, primary cutting of the original, secondary cutting of the original, dimensional confirmation of the product, surface cleaning of the product, surface inspection of the product In the method of manufacturing an infrared cut filter to be a finished product through the steps, After performing the surface inspection step of the disc, the coating film inspection step of the disc, and the first cutting processing step of the disc, By stacking the plurality of original plates 10 equally divided through the first cutting processing step of the original plates so as to overlap each other, the paper 20 and the original plates for protecting the original plates 10 between the laminated original plates 10. 10) and then attaching the adhesive means 30 for fixing to each other and then put it on the heating plate 50, each of the original plate 10 laminated while the adhesive means 30 is melted by the heat of the heating plate 50 Laminating a hot plate of the original plate to be fixed; A second cut processing step of the original plate which is cut and processed to correspond to the required size and shape of each original plate 10 laminated through the heating plate lamination step of the original plate; The processed plate by inserting a plurality of products 60, which is fixed in a state in which the plate 10 processed by the second cutting process of the plate laminated in a trichloroethylene solution and the trichloroethylene solution ( 10) the washing step of the product to be separated from each other the processed disk 10 while melting the adhesive means 30 for fixing to each other; A separation step of the product for separating and separating the processed disc 10 separated in the trichloroethylene solution through the washing step of the product; Sequentially, then Manufacture of infrared cut filter for small optical device, characterized in that the finished infrared cut filter can be manufactured through the remaining step of checking the size of the product, cleaning the surface of the product, and inspecting the surface of the product. Way. According to claim 1, wherein in the heating plate lamination step of the disc of the paper 20 and the adhesive means 30, the paper 20 and the adhesive means ( Method for manufacturing an infrared cut filter for use in a small optical device, characterized in that the protective glass 40 is installed by using a 30). The method of manufacturing an infrared cut filter for use in a compact optical device according to claim 1 or 2, characterized in that the bonding means (30) is formed by mixing parine and rosin.

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