KR102030014B1 - Inspection system for lens product and method for inspecting lens product - Google Patents

Abstract

An embodiment of the present invention is an inspection system for inspecting a lens product, the light source including at least a first position light source member and a second position light source member disposed to provide light to the lens product in different directions. A first image information after the imaging of the lens product through the imager after providing light to the lens product through an image pickup part arranged to perform imaging of the lens product and a first position light source member of the light source part; A second image information generating unit configured to provide light to the lens article through a first positional light source member and a second position light source member of the light source section to generate second image information after imaging of the lens article through the imaging unit; An image information controller including an image information generation unit, and the first image information of the image information control unit A comparison image information controller for generating comparison image information with respect to a comparison result between the first image information generated by the voice and the second image information generated by the second image information generation unit, and a comparison generated by the comparison image information control unit A lens article inspection system including a determination controller for inspecting a lens article by comparing image information with reference information is disclosed.

Description

Inspection system for lens product and method for inspecting lens product}

The present invention relates to a lens product inspection system and a lens product inspection method.

Lens manufacture is a key element of optical instruments such as microscopes, magnifier telescopes, digital cameras and video cameras.

Since the shape and surface composition of the lens preparation affects the lens properties, a high precision process is performed to form the lens.

Such a lens may be manufactured by undergoing a heat compression process, and its shape may be variously determined.

On the other hand, with high precision in the technical field in which a lens product is required, the size of the final molded product of the lens is reduced, and thus the size of the lens raw material is also getting smaller.

The smaller the lens preparation, the greater the change in the characteristics of the lens preparation due to foreign matter such as particles present in the lens preparation. Therefore, at the time of final manufacture of the lens preparation, the foreign matter should be managed within the normal range. Alternatively, foreign material presence inspection may be performed after the final manufacturing.

In addition, the lens preparation may be formed on one or more coatings on the surface for a variety of precise applications, the formation of such coatings may increase the possibility of foreign matter.

However, there is a limit in increasing the inspection accuracy of such foreign matters as the size of the foreign material of the lens product and the size of the lens product is reduced or the characteristics of the lens product.

The present invention can provide a lens product inspection system and a lens product inspection method with improved inspection accuracy and improved convenience.

An embodiment of the present invention is an inspection system for inspecting a lens product, the light source including at least a first position light source member and a second position light source member disposed to provide light to the lens product in different directions. A first image information after the imaging of the lens product through the imager after providing light to the lens product through an image pickup part arranged to perform imaging of the lens product and a first position light source member of the light source part; A second image information generating unit configured to provide light to the lens article through a first positional light source member and a second position light source member of the light source section to generate second image information after imaging of the lens article through the imaging unit; An image information controller including an image information generation unit, and the first image information of the image information control unit A comparison image information controller for generating comparison image information with respect to a comparison result between the first image information generated by the voice and the second image information generated by the second image information generation unit, and a comparison generated by the comparison image information control unit A lens article inspection system including a determination controller for inspecting a lens article by comparing image information with reference information is disclosed.

In the present embodiment, the light source unit may include three or more light source members.

In the present exemplary embodiment, the lens preparation may be disposed between a position where the first position light source member is disposed and a position where the second position light source member is disposed.

In the present exemplary embodiment, the first image information may include image information after the first position light source member is operated, the second position light source member is inoperative, and the image pickup unit for the lens product is photographed. have.

In the present exemplary embodiment, the second image information may include image information after the second position light source member is operated, the first position light source member is deactivated, and the imaging unit for the lens product is photographed. have.

In the present embodiment, the image information control unit may include a shadow image information control unit that obtains change information on a shadow area when generating the first image information or the second image information.

In the present embodiment, the image information control unit may include a surface reflection information control unit that obtains surface reflection information of the lens product when generating the first image information or the second image information.

In the present exemplary embodiment, the image information controller may include a highlight region information controller for obtaining information on a highlight region when generating the first image information or the second image information.

Another embodiment of the present invention provides an inspection method for inspecting a lens article, comprising: preparing a lens article, at least a first position light source member and a second position arranged to provide light to the lens article in different directions Using a light source unit including a light source member, providing light to the lens product through the first position light source member, and then generating first image information after imaging of the lens product through the imaging unit and the second An image information control step comprising providing light to the lens article through a position light source member and generating second image information after imaging of the lens article via an imaging unit; the image information control step Generating comparison image information about a comparison result between the first image information and the second image information Disclosed is a lens article inspection method comprising a comparison image information control step and a determination control step of inspecting a lens article by comparing the comparison image information generated in the comparative image information control step with reference information.

In the present exemplary embodiment, the first image information may include image information after the first position light source member is operated, the second position light source member is inoperative, and the image pickup unit for the lens product is photographed. have.

In the present exemplary embodiment, the second image information may include image information after the second position light source member is operated, the first position light source member is deactivated, and the imaging unit for the lens product is photographed. have.

In the present embodiment, the controlling of the image information may include controlling the shadow image information to obtain change information on the shadow area when generating the first image information or the second image information.

In the present exemplary embodiment, the controlling of the image information may include controlling surface reflection information to obtain surface reflection information of the lens preparation when generating the first image information or the second image information.

In the present embodiment, the controlling of the image information may include controlling surface reflection information to obtain information on a highlight area when generating the first image information or the second image information.

Another embodiment of the present invention discloses a computer readable recording medium having recorded thereon a program for performing the above method.

Other aspects, features, and advantages other than those described above will become apparent from the following drawings, claims, and detailed description of the invention.

The lens product inspection system and the lens product inspection method according to the present invention can improve inspection accuracy and easily improve user convenience.

1 is a schematic diagram showing a lens product inspection system according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating an exemplary embodiment of a light source unit of the lens product inspection system of FIG. 1.
3 is a diagram illustrating an exemplary embodiment of the image information controller of the lens product inspection system of FIG. 1.
4 is a diagram illustrating an exemplary embodiment of a comparative image information controller of the lens product inspection system of FIG. 1.
5 is a diagram illustrating an exemplary embodiment of the determination controller of the lens product inspection system of FIG. 1.
6 is a schematic diagram illustrating a lens preparation inspection system according to another embodiment of the present invention.
7 to 17 are views for explaining an inspection method using a lens preparation system according to an embodiment of the present invention.
18 is a flowchart for sequentially explaining a method for inspecting a lens preparation according to an embodiment of the present invention.
19 is a flowchart for sequentially explaining a lens article inspection method according to another exemplary embodiment of the present invention.

As the invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. Effects and features of the present invention, and methods of achieving them will be apparent with reference to the embodiments described below in detail together with the drawings. However, the present invention is not limited to the embodiments disclosed below but may be implemented in various forms.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, and the same or corresponding components will be denoted by the same reference numerals, and redundant description thereof will be omitted. .

In the following embodiments, the terms first, second, etc. are used for the purpose of distinguishing one component from other components rather than a restrictive meaning.

In the following examples, the singular forms "a", "an" and "the" include plural forms unless the context clearly indicates otherwise.

In the following examples, the terms including or having have meant that there is a feature or component described in the specification and does not preclude the possibility of adding one or more other features or components.

In the drawings, components may be exaggerated or reduced in size for convenience of description. For example, the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of description, and thus the present invention is not necessarily limited to the illustrated.

In the following embodiments, the x-axis, y-axis and z-axis are not limited to three axes on the Cartesian coordinate system, but may be interpreted in a broad sense including the same. For example, the x-axis, y-axis, and z-axis may be orthogonal to each other, but may refer to different directions that are not orthogonal to each other.

In the case where an embodiment may be implemented differently, a specific process order may be performed differently from the described order. For example, two processes described in succession may be performed substantially simultaneously or in the reverse order of the described order.

1 is a schematic diagram showing a lens product inspection system according to an embodiment of the present invention.

Referring to FIG. 1, the lens product inspection system 100 may include a light source unit 110, an imaging unit 120, an image information controller 140, a comparison image information controller 150, and a determination controller 170.

The lens product inspection system 100 of the present exemplary embodiment may perform the inspection on the lens product.

The lens preparation may include various lens preparations and, optionally, may be a lens preparation having a curved surface.

For example, "lens preparation" refers to something manufactured to include at least a lens functioning as a lens, an article manufactured through one or more processes, and a "lens article" may be a member used directly as a final product. It may also be the absence of an intermediate step of the final product through subsequent processes.

In addition, the lens product may include a lens product having a curved surface of an aspherical surface in which one or more coating layers are formed on one surface.

The light source unit 110 may include at least a first position light source member 111 and a second position light source member 112 disposed to provide light to the lens preparation in different directions.

As an optional embodiment, the first position light source member 111 may be disposed to face one side of the lens preparation, and the second position light source member 112 may be disposed to face one side of the opposite direction of the one side of the lens preparation. have.

In some embodiments, the lens product may be disposed between the first position light source member 111 and the second position light source member 112.

The first position light source member 111 and the second position light source member 112 of the light source unit 110 may provide various types of light.

In another alternative embodiment, the light source unit 110 may include three or four or more light source members, each of which may be arranged to provide light to the lens preparation in different directions. Can be.

The first position light source member 111 and the second position light source member 112 of the light source unit 110 may be distinct independent light source members. As another example, the first position light source member 111 and the second position light source member 112 of the light source unit 110 are the same light source member, and one light source member is disposed at the first position to be used as the first position light source member. In addition, the light source member may be sequentially moved to a second position different from the first position, and then used as the second position light source member.

The imaging unit 120 may be arranged to perform imaging of the lens preparation, and may have a camera form, for example.

In some embodiments, the imaging unit 120 may be disposed between the first position light source member 111 and the second position light source member 112 of the light source unit 110.

The imaging unit 120 may perform imaging of the lens product, and for example, operate the first position light source member 111 and deactivate the second position light source member 112, and then proceed with imaging of the lens product. have. In addition, after the first position light source member 111 is not operated and the second position light source member 112 is operated, imaging of the lens product may be performed.

The image information controller 140 may include a first image information generator 141 and a second image information generator 142.

The first image information generating unit 141 provides light to the lens product through the first position light source member 111 of the light source unit 110, and then captures the image of the lens product through the imaging unit 120. Afterwards, the first image information may be generated.

For example, the first image information generated by the first image information generator 141 may be configured to capture an image of the lens manufactured after the first position light source member 111 is operated and the second position light source member 112 is not operated. The unit 120 may include image information after the imaging is performed.

As a specific example, the first image information generated by the first image information generator 141 may be an image as captured by the imaging unit 120.

In some embodiments, the first image information generated by the first image information generator 141 may be information obtained from an image captured by the imaging unit 120, and as an example, an image captured by the imaging unit 120. The data may also be digitized data for each region of.

The second image information generation unit 142 provides light to the lens product through the second position light source member 112 of the light source unit 110, and then captures the image of the lens product through the imaging unit 120. Afterwards, second image information may be generated.

For example, the second image information generated by the second image information generator 142 may be configured to capture the lens product after operating the second position light source member 112 and deactivating the first position light source member 111. The unit 120 may include image information after the imaging is performed.

As a specific example, the second image information generated by the second image information generator 142 may be an image captured by the imaging unit 120.

In some embodiments, the second image information generated by the second image information generator 142 may be information obtained from an image captured by the imaging unit 120, and as an example, an image captured by the imaging unit 120. The data may also be digitized data for each region of.

The comparison image information controller 150 is configured to compare the first image information generated by the first image information generator 141 and the second image information generated by the second image information generator 142. Comparative image information may be generated.

In some embodiments, the comparison image information generated by the comparison image information controller 150 may include information about a difference value between the first image information and the second image information. For example, numerical data for each region of the first image information including an image of a lens product and numerical data for each region of the second image information may be compared for each region to include a difference value of the numerical value for each region.

In addition, as another example, the comparison image information generated by the comparison image information controller 150 may include various forms indicating differences between the first image information and the second image information. It may include a graph form indicating a difference for each region, and image form information indicating a difference in color.

The determination controller 170 may compare the comparison image information generated by the comparison image information controller 150 with reference information to inspect the lens product.

For example, when the difference between the reference information and the reference information is less than a predetermined condition, the lens product is determined to be normal, and when the difference between the reference information and the reference information exceeds the setting condition, the lens product is determined to be abnormal. can do.

In an alternative embodiment, the reference information may include information on the normal lens product, which may include test result data of the simulated lens product, or prepare the actual normal lens product to prepare the first image information and the second image thereof. It may include information obtained by comparing the information after generating the information.

FIG. 2 is a diagram illustrating an exemplary embodiment of a light source unit of the lens product inspection system of FIG. 1.

The light source unit 110 ′ of the present embodiment includes a first position light source member 111 ′, a second position light source member 112 ′, a third position light source member 113 ′, and a fourth position light source member 114 ′. can do.

The first position light source member 111 ′, the second position light source member 112 ′, the third position light source member 113 ′, and the fourth position light source member 114 ′ are respectively provided to the lens preparation in different directions. Can be arranged to provide light.

For example, the one-position light source member 111 'and the second-position light source member 112' are disposed with the lens product interposed therebetween, and the third-position light source member 113 'and the fourth position with the lens product interposed therebetween. The light source member 114 ′ may be disposed.

3 is a diagram illustrating an exemplary embodiment of the image information controller of the lens product inspection system of FIG. 1.

The image information controller 140 ′ of the present embodiment may include a shadow image information controller 145 ′, a surface reflection information controller 147 ′, and a highlight area information controller 149 ′.

The shadow image information controller 145 ′ may obtain change information on the shadow area when generating the first image information and the second image information.

For example, when foreign objects or particles exist on the surface or the inner surface of the lens preparation, shadow image information in the first image information and shadow information in the second image information may be obtained.

Through the shadow image information control unit 145 ', if the foreign material exists on the surface or the inner surface of the lens product having the curved surface, grasp the degree of difference between the shadow image information in the first image information and the shadow information in the second image information, Based on this, it is possible to easily grasp information on contamination of the lens preparation.

For example, the foreign material existing on the outermost surface of the lens product may have a relatively large difference between the shadow image information in the first image information and the shadow information in the second image information. It is easy to determine whether there is a foreign object.

The surface reflection information controller 147 ′ may acquire information on the surface reflection of the lens product or change information when the first image information and the second image information are generated.

For example, if foreign matter or particles are present on the surface or inner surface of the lens preparation, the surface reflection characteristics of the lens preparation are changed, and further, information on surface reflection in the first image information and surface reflection in the second image information. The surface reflection information control unit 147 'may obtain such information, respectively.

Through the surface reflection information control unit 147 ', if foreign matter exists on the surface or the inner surface of the lens product having the curved surface, the degree of difference between the surface reflection information in the first image information and the surface reflection information in the second image information is determined. Based on this, information on contamination of the lens preparation can be easily grasped.

For example, the degree of difference between the surface reflection information in the first image information and the surface reflection information in the second image information when foreign matter exists inside the outermost surface of the lens preparation, for example, between the lens portion and the coating surface. It may be relatively large, through which it is easy to determine whether there is a foreign material in the lens product.

The highlight region information controller 149 ′ may acquire information on the highlight region or change information when the first image information and the second image information are generated.

For example, when foreign materials or particles exist on the surface or the inner surface of the lens preparation, the information on the highlight area in the first image information and the information on the highlight area in the second image information may be different. ) Can each obtain this information.

The difference between the information on the highlight area in the first image information and the information on the highlight area in the second image information when foreign matter exists on the surface or the inner surface of the lens product having the curved surface through the highlight area information control unit 149 '. By grasping the degree, it is possible to easily grasp information on the contamination of the lens product, etc. based on the degree.

For example, when there is a foreign material inside the outermost surface of the lens product, specifically, between the lens portion and the coating surface, information about the highlight area in the first image information and information about the highlight area in the second image information. The degree of difference can be relatively large, through which it is possible to easily determine whether the foreign matter in the lens product.

In FIG. 3, the image information controller 140 ′ includes the shadow image information controller 145 ′, the surface reflection information controller 147 ′, and the highlight region information controller 149 ′. The information controller 140 ′ may include one or more of the shadow image information controller 145 ′, the surface reflection information controller 147 ′, and the highlight region information controller 149 ′.

4 is a diagram illustrating an exemplary embodiment of a comparative image information controller of the lens product inspection system of FIG. 1.

The comparative image information controller 150 ′ of the present embodiment may include a comparison image information numerical controller 152 ′ or a comparison image region controller 154 ′.

The comparison image information controller 150 ′ may generate comparison image information about a comparison result between the first image information generated by the first image information generator and the second image information generated by the second image information generator. The comparison image information numerical controller 152 ′ may generate the comparison image information in a numerical form.

By using the numerical information generated by the comparative image information numerical control unit 152 ′, the determination control unit may easily compare the reference information with the reference information to quickly inspect the lens product.

The comparative image region controller 154 ′ generates numerical data and second data for each region of the first image information including an image of a lens product when generating the information on the difference between the first image information and the second image information. The numerical data of each region of the image information may be compared for each region to generate information including a difference value of the numerical value for each region.

As an optional embodiment, the comparison image area controller 154 ′ may generate information in the form of mapping to each area of the image of the lens product by using the difference value of each area.

5 is a diagram illustrating an exemplary embodiment of the determination controller of the lens product inspection system of FIG. 1.

The determination controller 170 ′ of the present embodiment may include a reference information storage unit 172 ′.

The determination controller 170 ′ may compare the comparison image information generated by the comparison image information controller with the reference information to inspect the lens product, and the reference information may be stored in the reference information storage unit 172 ′. Can be.

In addition, the reference information may be stored in the reference information storage unit 172 'and then updated, modified, or deleted.

The lens product inspection system according to the exemplary embodiment of the present invention may easily perform the inspection on the lens product formed through the lens manufacturing process.

A first image information generator of the at least a plurality of light source members of the light source unit may provide light by operating the first position light source member to generate light through the imaging unit, and then generate the first image information. The second image information generator of the image information controller generates the second image information after providing the light by using the image pickup unit, and the comparison image information controller compares the first image information with the second image information to compare the image information. The control unit may easily generate a normal inspection of the lens product by comparing the comparison image information with the reference information.

As an optional embodiment, the image information control unit acquires image information about the shadow area and uses the information on the shadow area that is different when the first position light source member or the second position light source member is used, and thus the degree of contamination or the magnitude of the contamination of the lens product. In addition, information on the location of contaminants, for example, foreign matter on the surface of the lens preparation or foreign matter inside, can be easily identified.

In addition, as an optional embodiment, the lens product is obtained by using information about the surface reflection area that is changed when the first position light source member or the second position light source member is obtained by obtaining information on the surface reflection area of the lens product through the surface reflection information controller. It is possible to easily grasp information about the degree of contamination or the size of the contamination or the location of the contamination, for example, foreign matter on the surface of the lens preparation or foreign matter inside.

Also, as an optional embodiment, the lens area may be contaminated by using the information on the highlight area that is changed when the first position light source member or the second position light source member is obtained by obtaining information on the highlight area of the lens product through the highlight area information control unit. The degree or degree of contamination or the location of the contaminants, for example, foreign matter on the surface of the lens preparation or the foreign matter inside can be easily identified.

6 is a schematic diagram illustrating a lens preparation inspection system according to another embodiment of the present invention.

Referring to FIG. 6, the lens product inspection system 200 includes a light source unit 210, an imaging unit 220, an image information control unit 240, a comparison image information control unit 250, a reference image information control unit 260, and a reference comparison image. The information control unit 256 and the determination control unit 270 are included.

For convenience of explanation, the following description will focus on differences from the above-described embodiment.

The lens product inspection system 200 of the present exemplary embodiment may inspect the lens product.

The lens preparation may include various lens preparations and, optionally, may be a lens preparation having a curved surface.

In addition, the lens product may include a lens product having a curved surface of an aspherical surface in which one or more coating layers are formed on one surface.

The light source unit 210 may include at least a first position light source member 211 and a second position light source member 212 disposed to provide light with respect to the lens preparation in different directions.

In some embodiments, the first position light source member 211 may be disposed to face one side of the lens preparation, and the second position light source member 212 may be arranged to face one side of the opposite direction of the lens preparation. have.

In some embodiments, the lens product may be disposed between the first position light source member 211 and the second position light source member 212.

The first position light source member 211 and the second position light source member 212 of the light source unit 210 may provide various types of light.

In another alternative embodiment, the light source unit 210 may include three or four or more light source members, each of which may be arranged to provide light to the lens preparation in different directions. Can be.

The first position light source member 211 and the second position light source member 212 of the light source unit 210 may each be distinct and independent light source members. As another example, the first position light source member 211 and the second position light source member 212 of the light source unit 210 are the same light source member, and one light source member is disposed at the first position to be used as the first position light source member. In addition, the light source member may be sequentially moved to a second position different from the first position, and then used as the second position light source member.

The imaging unit 220 may be arranged to perform imaging of the lens preparation, and may have a camera form, for example.

In some embodiments, the imaging unit 220 may be disposed between the first position light source member 211 and the second position light source member 212 of the light source 210.

The imaging unit 220 may perform imaging of the lens product, and for example, operate the first position light source member 211 and deactivate the second position light source member 212, and then perform imaging of the lens product. have. In addition, after the first position light source member 211 is not operated and the second position light source member 212 is operated, imaging of the lens product may be performed.

The image information controller 240 may include a first image information generator 241 and a second image information generator 242.

The first image information generation unit 241 provides light to the lens product through the first position light source member 211 of the light source unit 210, and then captures the image of the lens product through the imaging unit 220. Afterwards, the first image information may be generated.

For example, the first image information generated by the first image information generator 241 may be configured to capture a lens product after operating the first position light source member 211 and deactivating the second position light source member 212. The unit 220 may include image information after the imaging is performed.

As a specific example, the first image information generated by the first image information generator 241 may be an image as captured by the imaging unit 220.

In some embodiments, the first image information generated by the first image information generator 241 may be information obtained from an image captured by the imaging unit 220, and as an example, an image captured by the imaging unit 220. The data may also be digitized data for each region of.

The second image information generating unit 242 provides light to the lens product through the second position light source member 212 of the light source unit 210, and then captures the image of the lens product through the imaging unit 220. Afterwards, second image information may be generated.

For example, the second image information generated by the second image information generator 242 may be configured to capture the lens product after operating the second position light source member 212 and deactivating the first position light source member 211. The unit 220 may include image information after the imaging is performed.

As a specific example, the second image information generated by the second image information generator 242 may be an image captured by the imaging unit 220.

In some embodiments, the second image information generated by the second image information generator 242 may be information obtained from an image captured by the imaging unit 220, and as an example, an image captured by the imaging unit 220. The data may also be digitized data for each region of.

The comparison image information controller 250 is configured to compare the first image information generated by the first image information generator 241 and the second image information generated by the second image information generator 242. Comparative image information may be generated.

In some embodiments, the comparison image information generated by the comparison image information controller 250 may include information about a difference value between the first image information and the second image information. For example, numerical data for each region of the first image information including an image of a lens product and numerical data for each region of the second image information may be compared for each region to include a difference value of the numerical value for each region.

In addition, as another example, the comparison image information generated by the comparison image information controller 250 may include various forms indicating differences between the first image information and the second image information. It may include a graph form indicating a difference for each region, and image form information indicating a difference in color.

The reference image information controller 260 may include a first reference image information generator 261 and a second reference image information generator 262.

The first reference image information generator 261 provides light to the normal lens product through the first position light source member 211 of the light source unit 210, and then through the imaging unit 220, the normal lens product lens. After imaging the article, first reference image information may be generated. Normal lens preparations may be, for example, lens preparations free of contamination or foreign material, or in which the contamination or foreign material is within the normal range.

The first reference image information generated by the first reference image information generation unit 261 is configured to capture a normal lens product after operating the first position light source member 211 and deactivating the second position light source member 212. The unit 220 may include image information after the imaging is performed.

As a specific example, the first reference image information generated by the first reference image information generator 261 may be an image captured by the imaging unit 220.

In some embodiments, the first reference image information generated by the first reference image information generator 261 may be information obtained from an image captured by the imaging unit 220. As an example, the imaging unit 220 may capture the image. The data may be digitized data for each area of an image.

The second reference image information generator 262 provides light to the normal lens product through the second position light source member 212 of the light source unit 210, and then through the imaging unit 220, the normal lens product lens. The second reference image information may be generated after the imaging of the article. Normal lens preparations may be, for example, lens preparations free of contamination or foreign material, or in which the contamination or foreign material is within the normal range.

The second reference image information generated by the second reference image information generating unit 262 is configured to capture a normal lens product after operating the second position light source member 212 and deactivating the first position light source member 211. The unit 220 may include image information after the imaging is performed.

As a specific example, the second reference image information generated by the second reference image information generator 262 may be an image as captured by the imaging unit 220.

In some embodiments, the second reference image information generated by the second reference image information generator 262 may be information obtained from an image captured by the imaging unit 220. As an example, the imaging unit 220 may capture the image. The data may be digitized data for each area of an image.

The reference comparison image information controller 256 is configured to generate the first reference image information generated by the first reference image information generator 261 and the second reference image information generated by the second reference image information generator 262. Reference comparison image information may be generated for the comparison result.

In some embodiments, the reference comparison image information generated by the reference comparison image information controller 256 may include information about a difference value between the first reference image information and the second reference image information. For example, the numerical value of each region of the first reference image information including the image of a normal lens product and the numerical data of each region of the second reference image information are compared by region to include a difference value of each region. Can be.

In addition, as another example, the reference comparison image information generated by the reference comparison image information controller 256 may include various forms indicating differences between the first reference image information and the second reference image information. It may include a graph form indicating a difference for each region of the image of the lens preparation, image shape information indicating the difference in color.

The determination controller 270 may compare the comparison image information generated by the comparison image information control unit 250 with the reference comparison image information generated by the reference comparison image information control unit 256 to inspect the lens product.

For example, when the difference between the reference image and the comparison image information is less than the set condition is determined as normal for the lens product, when the difference between the comparison image information and the reference comparison image information exceeds the set condition to the lens product It can be judged as abnormal.

Although not shown, the lens preparation system of the present embodiment may selectively apply one or more of the above-described optional embodiments of FIGS. 2, 3, 4, and 5.

The lens product inspection system according to the exemplary embodiment of the present invention may easily perform the inspection on the lens product formed through the lens manufacturing process.

A first image information generator of the at least a plurality of light source members of the light source unit may provide light by operating the first position light source member to generate light through the imaging unit, and then generate the first image information. The second image information generator of the image information controller generates the second image information after providing the light by using the image pickup unit, and the comparison image information controller compares the first image information with the second image information to compare the image information. Can be generated.

The reference image information may be formed using the reference image information controller and the reference comparison image information controller. The first reference image information may be formed through the first reference image information generator and the second reference image information generator of the reference image information controller. And after generating the second reference image information, the reference comparison image information controller compares the second reference image information to generate reference comparison image information.

The determination controller may compare the comparison image information with the reference image information to facilitate the normal inspection of the lens product, and obtain improved inspection accuracy of the lens product.

As an optional embodiment, the image information control unit acquires image information about the shadow area and uses the information on the shadow area that is different when the first position light source member or the second position light source member is used, and thus the degree of contamination or the magnitude of the contamination of the lens product. In addition, information on the location of contaminants, for example, foreign matter on the surface of the lens preparation or foreign matter inside, can be easily identified.

In addition, as an optional embodiment, the lens product is obtained by using information about the surface reflection area that is changed when the first position light source member or the second position light source member is obtained by obtaining information on the surface reflection area of the lens product through the surface reflection information controller. It is possible to easily grasp information about the degree of contamination or the size of the contamination or the location of the contamination, for example, foreign matter on the surface of the lens preparation or foreign matter inside.

Also, as an optional embodiment, the lens area may be contaminated by using the information on the highlight area that is changed when the first position light source member or the second position light source member is obtained by obtaining information on the highlight area of the lens product through the highlight area information control unit. The degree or degree of contamination or the location of the contaminants, for example, foreign matter on the surface of the lens preparation or the foreign matter inside can be easily identified.

7 to 17 are views for explaining an inspection method using a lens preparation system according to an embodiment of the present invention.

Referring to FIG. 7, a lens preparation LZU is shown. As a specific example, the lens preparation LZU may be a lens preparation that is free of contamination or foreign matter, or in which the contamination or foreign matter is within a normal range.

7 may be a cross-sectional view of the lens preparation LZU.

The lens preparation LZU may be a lens preparation formed through a lens manufacturing process, and specifically, may include a lens portion LZ and at least one coating portion CT.

The coating part CT may include one or more layers, for example, may include a plurality of layers.

Referring to FIG. 8, the first position light source member LM1 and the camera unit CMU are disposed.

The first position light source member LM1 may be disposed to face one side of the lens unit LZU. For example, the first position light source member LM1 is disposed to be spaced apart from the lens portion LZU and spaced apart from the lens portion LZU, and, as a specific example, faces the left side of the lens portion LZU with reference to FIG. 8. It may be arranged to.

The camera unit CMU may be disposed above the lens unit LZU. For example, the camera unit CMU may be disposed above the lens unit LZU to be spaced apart from the first position light source member LM1.

Referring to FIG. 9, the image STDI1 obtained through the camera unit CMU while the light is irradiated to the lens product LZU through the first position light source member LM1 is illustrated. As an optional embodiment, the image STDI1 may be first reference image information of the above-described embodiment.

Referring to FIG. 10, the second position light source member LM2 and the camera unit CMU are disposed.

The second position light source member LM2 may be disposed to face one side of the lens unit LZU. For example, the second position light source member LM2 may be disposed at a position different from the first position light source member LM1, and is spaced apart from the lens portion LZU and spaced apart from the lens portion LZU. As a specific example, it may be disposed to face the right side of the lens unit LZU with reference to FIG. 10.

The camera unit CMU may be disposed above the lens unit LZU. For example, the camera unit CMU may be disposed above the lens unit LZU to be spaced apart from the second position light source member LM2.

Referring to FIG. 11, the image STDI2 acquired through the camera unit CMU while the light to the lens product LZU is irradiated through the second position light source member LM2 is illustrated. In some embodiments, the image STDI1 may be second reference image information of the above-described embodiment.

The reference comparison image information described in the aforementioned embodiment may be generated using the first reference image information of FIG. 9 and the second reference image information of FIG. 11.

Referring to FIG. 12A, a lens preparation LZU is shown. As a specific example, the lens preparation LZU may have a foreign material PM1 on its outermost surface, and the foreign material PM1 may be in a fixed form or may have a fluidity.

12A may be a cross-sectional view of lens preparation LZU as an alternative embodiment.

The lens preparation LZU may be a lens preparation formed through a lens manufacturing process, and specifically, may include a lens portion LZ and at least one coating portion CT.

The coating part CT may include one or more layers, for example, may include a plurality of layers.

The foreign material PM1 may be disposed on the outer surface of the coating part CT.

In addition, as another example, as illustrated in FIG. 12B, the foreign material PM2 may exist inside the lens preparation LZU, and as a specific example, between the lens portion LZ and the coating portion CT.

The foreign material PM1 of FIG. 12A and the foreign material PM2 of FIG. 12B may have different characteristics.

For example, the foreign material PM1 of FIG. 12A may be in the form of fluidity and may have a fixed shape. The foreign material PM1 of FIG. 12A may be removed when the cleaning process is performed on the lens preparation LZU, and more specifically, when the foreign material PM1 has fluidity, it may be more easily removed.

In the foreign material PM2 of FIG. 12B, the foreign material PM2 is present inside the lens preparation LZU, specifically, between the lens part LZ and the coating part CT. When the interior, specifically, the coating CT includes a plurality of layers, the coating CT may be inserted between the layers. The foreign material PM2 of FIG. 12B may not be easily removed when the cleaning process for the lens preparation LZU is performed.

Therefore, the foreign matter or contamination test on the lens product LZU is carried out through the inspection on the lens product LZU, and the type of foreign material, for example, the foreign material PM1 or the foreign material PM2 is clearly and easily proceeded. It is possible to easily determine whether to proceed with the subsequent cleaning process or whether to proceed with the subsequent process of discarding without cleaning.

Referring to FIG. 13, the first position light source member LM1 and the camera unit CMU are disposed. For convenience of explanation, the case of the foreign material PM1 of FIG. 12A will be described as an example.

The first position light source member LM1 may be disposed to face one side of the lens unit LZU. For example, the first position light source member LM1 is disposed to be spaced apart from the lens portion LZU and spaced apart from the lens portion LZU, and, as a specific example, faces the left side of the lens portion LZU with reference to FIG. 13. It may be arranged to.

The camera unit CMU may be disposed above the lens unit LZU. For example, the camera unit CMU may be disposed above the lens unit LZU to be spaced apart from the first position light source member LM1.

As illustrated in FIG. 13, the foreign material PM1 may have a width W1.

Referring to FIG. 14, the image RDI1 obtained through the camera unit CMU while the light is irradiated to the lens product LZU through the first position light source member LM1 is illustrated. In some embodiments, the image RDI1 may be first image information of the above-described embodiment.

Referring to FIG. 14, the image RDI1 may display the first shadow image information ADPM1 due to light irradiation of the image information DPM1 for the foreign material PM1 and the first position light source member LM1 for the foreign material PM1. It may include.

Referring to FIG. 15, the second position light source member LM2 and the camera unit CMU are disposed.

The second position light source member LM2 may be disposed to face one side of the lens unit LZU. For example, the second position light source member LM2 may be disposed at a position different from the first position light source member LM1, and is spaced apart from the lens portion LZU and spaced apart from the lens portion LZU. As a specific example, it may be disposed to face the right side of the lens unit LZU with reference to FIG. 15.

The camera unit CMU may be disposed above the lens unit LZU. For example, the camera unit CMU may be disposed above the lens unit LZU to be spaced apart from the second position light source member LM2.

Referring to FIG. 16, the image RDI2 obtained through the camera unit CMU while the light to the lens product LZU is irradiated through the second position light source member LM2 is illustrated. In some embodiments, the image RDI2 may be second image information of the above-described embodiment.

Referring to FIG. 16, the image RDI2 may include the image information DPM1 of the foreign material PM1 and the second shadow image information BDPM1 resulting from light irradiation of the second position light source member LM2 with respect to the foreign material PM1. It may include.

The comparative image information described in the above-described embodiment may be generated using the first image information of FIG. 14 and the second image information of FIG. 16.

For example, the first image information generated after light irradiation of the first position light source member LM1 and the second image information generated after light irradiation of the second position light source member LM2 may be different due to the foreign material PM1. have. Specifically, the foreign material PM1 is present on the curved surface of the lens preparation LZU having a curved surface, for example, the first position light source member LM1 and the second position light source which exist on the outermost surface and irradiate light in different directions. According to the light irradiation of the member LM2, shadow image information having a different direction and a different shape or size may be generated.

The first image information including the shadow image information and the second image information may be compared to generate comparison image information including information about a difference between the shadow images. In addition, the comparison image information may be compared with the above-described reference comparison image information to identify contamination or foreign matter present in the lens product LZU.

In addition, as an optional embodiment, such information may be used to distinguish between the foreign material PM1 or the foreign material PM2, and information about the size thereof may be known.

In some embodiments, when the surface reflection information or the highlight area information is included, it is easier to distinguish the two foreign materials, namely, the foreign material PM1 or the foreign material PM2.

For example, in the case of the foreign material PM1, the information on the difference of the shadow image may be main change information. In the case of the foreign material PM2, the information on the difference of the shadow image is small, and the information on the difference or highlight area information on the surface reflection information is small. Since the difference is large, it may be easier to distinguish the foreign material PM1 or the foreign material PM2.

Normal or abnormality of the lens preparation LZU may be easily determined through the presence or absence of the foreign materials PM1 and PM2 and the distinction of the foreign material PM1 or the foreign material PM2. The efficiency of the process can be improved by easily selecting whether to proceed with the recovery process of the normal lens product (LZU) through the subsequent cleaning process for the abnormal lens product (LZU) or to discard the product without a subsequent process such as the cleaning process. .

As an alternative embodiment, two or more light source members, for example, a first position light source member LM1, a second position light source member LM2, and a third position with the lens preparation LZU interposed therebetween as shown in FIG. 17. It may also include the light source member LM3 and the fourth position light source member LM4.

18 is a flowchart for sequentially explaining a method for inspecting a lens preparation according to an embodiment of the present invention.

Referring to FIG. 18, the lens article inspection method may include a lens article preparation step (S05), an image information control step (S40), a comparative image information control step (S50), and a determination control step (S70).

In the lens product inspection method of the present embodiment, the lens product inspection may be performed.

In the lens preparation preparation step (S05), various lens preparations may be prepared, and the lens preparation of various shapes or structures may be prepared through the lens manufacturing process. As an alternative embodiment, a lens preparation having a curved surface may be prepared.

In addition, the lens product may include a lens product having a curved surface of an aspherical surface in which one or more coating layers are formed on one surface.

The image information control step S40 may include a first image information generation step and a second image information generation step.

The generating of the first image information may provide light to the lens article through a first position light source member, and then generate first image information after imaging of the lens article through the imaging unit.

For example, the first image information generated in the first image information generating step may be image information after the first position light source member is operated and the second position light source member is not operated, and then the imaging is performed through the imaging unit for the lens product. It may include.

As a specific example, the first image information generated in the first image information generating step may be an image as it is captured by the imaging unit.

In some embodiments, the first image information generated in the first image information generating step may be information obtained from an image captured by the image capturing unit, or may be numerical data information for each region of the image captured by the image capturing unit. .

In the generating of the second image information, light may be provided to the lens article through a second position light source member, and then second image information may be generated after imaging of the lens article through the imaging unit.

For example, the second image information generated in the second image information generating step may be image information after the second position light source member is operated and the first position light source member is not operated, and then the imaging is performed through the imaging unit for the lens product. It may include.

As a specific example, the second image information generated in the second image information generating step may be an image as it is captured by the imaging unit.

In some embodiments, the second image information generated in the second image information generating step may be information obtained from an image captured by the image capturing unit, or specifically, may be numerical data information for each region of the image captured by the image capturing unit. .

Comparative image information control step (S50) is a comparison of the first image information generated in the first image information generation step of the image information control step (S40) and the second image information generated in the second image information generation step Comparative image information about the result may be generated.

In some embodiments, the comparison image information generated by the comparison image information control step S50 may include information about a difference value between the first image information and the second image information. For example, numerical data for each region of the first image information including an image of a lens product and numerical data for each region of the second image information may be compared for each region to include a difference value of the numerical value for each region.

In addition, as another example, the comparison image information generated in the comparison image information control step S50 may include various forms indicating a difference between the first image information and the second image information as a result of comparison, and the image of the lens preparation. A graph form indicating a difference for each region of the may include image form information indicating a difference in color.

In the determination control step S70, the comparison image information generated in the comparison image information control step S50 may be compared with reference information to inspect the lens product.

For example, when the difference between the reference information and the reference information is less than a predetermined condition, the lens product is determined to be normal, and when the difference between the reference information and the reference information exceeds the setting condition, the lens product is determined to be abnormal. can do.

In an alternative embodiment, the reference information may include information on the normal lens product, which may include test result data of the simulated lens product, or prepare the actual normal lens product to prepare the first image information and the second image thereof. It may include information obtained by comparing the information after generating the information.

According to the embodiment, after the light is irradiated using the first position light source member, the second position light source member, the third position light source member, and the fourth position light source member, the first image information, the second image information, and the third image are respectively provided. Generating information and fourth image information.

In addition, comparative image information regarding a difference between the first image information, the second image information, the third image information, and the fourth image information may be generated.

Although not illustrated as another optional embodiment, the image information control step S40 of the present embodiment may include a shadow image information control step, a surface reflection information control step, and a highlight area information control step.

In the controlling of the shadow image information, change information on the shadow area may be obtained when the first image information and the second image information are generated.

For example, when foreign objects or particles exist on the surface or the inner surface of the lens preparation, shadow image information in the first image information and shadow information in the second image information may be obtained.

When the foreign object exists on the surface or the inner surface of the lens product having a curved surface through the shadow image information control step, the degree of difference between the shadow image information in the first image information and the shadow information in the second image information is determined, and based on this, Information on contamination of the lens product can be easily grasped.

For example, the foreign material existing on the outermost surface of the lens product may have a relatively large difference between the shadow image information in the first image information and the shadow information in the second image information. It is easy to determine whether there is a foreign object.

In the surface reflection information control step, when generating the above-described first image information and second image information, information on the surface reflection of the lens product or change information may be obtained.

For example, if foreign matter or particles are present on the surface or inner surface of the lens preparation, the surface reflection characteristics of the lens preparation are different, and further, information on surface reflection in the first image information and information on surface reflection in the second image information. The surface reflection information control step may acquire each of these pieces of information.

When the foreign material exists on the surface or the inner surface of the lens product having a curved surface through the surface reflection information control step, to determine the degree of difference between the surface reflection information in the first image information and the surface reflection information in the second image information, and based on this This makes it possible to easily grasp information on contamination of the lens preparation.

For example, the degree of difference between the surface reflection information in the first image information and the surface reflection information in the second image information when foreign matter exists inside the outermost surface of the lens preparation, for example, between the lens portion and the coating surface. It may be relatively large, through which it is easy to determine whether there is a foreign material in the lens product.

In the highlight area information control step, when generating the first image information and the second image information described above, information about the highlight area or change information may be obtained.

For example, when foreign materials or particles exist on the surface or the inner surface of the lens preparation, the information about the highlight area in the first image information and the information about the highlight area in the second image information may be different. Information can be obtained respectively.

When the foreign material exists on the surface or the inner surface of the lens product having a curved surface through the highlight area information control step, grasp the degree of difference between the information on the highlight area in the first image information and the information on the highlight area in the second image information. Based on this, information on contamination of the lens preparation can be easily grasped.

For example, when foreign matter exists inside the outermost surface of the lens preparation, for example, between the lens portion and the coating surface, information on the highlight area in the first image information and information on the highlight area in the second image information. The degree of difference can be relatively large, through which it is possible to easily determine whether the foreign matter in the lens product.

In some embodiments, the image information control step S40 may include at least one of a shadow image information control step, a surface reflection information control step, and a highlight area information control step.

As another optional embodiment, the comparison image information control step S50 of the present embodiment may include a comparison image information numerical control step or a comparison image area control step.

In the controlling of the comparison image information, the comparison image information of the comparison result of the first image information and the second image information may be generated, and the comparison image information numerical control step may generate the comparison image information in numerical form. .

Comparative Image Information Using the numerical information generated in the numerical control step, it is possible to easily compare the reference information with the reference information in the judgment control step to quickly inspect the lens product.

The controlling of the comparative image region may include performing numerical data of each region of the first image information including an image of a lens product and generating second image information when generating information on a difference value between the first image information and the second image information. The numerical data of each region may be compared for each region to generate information including a difference value of the numerical value for each region.

In an alternative embodiment, the comparative image region control step may generate information in the form of mapping to each region of the image of the lens preparation using the difference value of the numerical value for each region.

19 is a flowchart for sequentially explaining a lens article inspection method according to another exemplary embodiment of the present invention.

Referring to FIG. 19, the lens article inspection method includes a lens article preparation step (S205), an image information control step (S240), a comparison image information control step (S250), a reference image information control step (S260), and a reference comparison image information control step. (S255) and the decision control step (S270).

In the lens product inspection method of the present embodiment, the lens product inspection may be performed.

In the lens preparation preparation step (S205), various lens preparations may be prepared, and the lens preparation of various shapes or structures may be prepared through the lens manufacturing process. As an alternative embodiment, a lens preparation having a curved surface may be prepared.

In addition, the lens product may include a lens product having a curved surface of an aspherical surface in which one or more coating layers are formed on one surface.

The image information control step S240 may include a first image information generation step and a second image information generation step.

The generating of the first image information may provide light to the lens article through a first position light source member, and then generate first image information after imaging of the lens article through the imaging unit.

For example, the first image information generated in the first image information generating step may be image information after the first position light source member is operated and the second position light source member is not operated, and then the imaging is performed through the imaging unit for the lens product. It may include.

As a specific example, the first image information generated in the first image information generating step may be an image as it is captured by the imaging unit.

In some embodiments, the first image information generated in the first image information generating step may be information obtained from an image captured by the image capturing unit, or may be numerical data information for each region of the image captured by the image capturing unit. .

In the generating of the second image information, light may be provided to the lens article through a second position light source member, and then second image information may be generated after imaging of the lens article through the imaging unit.

For example, the second image information generated in the second image information generating step may be image information after the second position light source member is operated and the first position light source member is not operated, and then the imaging is performed through the imaging unit for the lens product. It may include.

As a specific example, the second image information generated in the second image information generating step may be an image as it is captured by the imaging unit.

In some embodiments, the second image information generated in the second image information generating step may be information obtained from an image captured by the image capturing unit, or specifically, may be numerical data information for each region of the image captured by the image capturing unit. .

Comparative image information control step (S250) is a comparison of the first image information generated in the first image information generation step of the image information control step (S240) and the second image information generated in the second image information generation step Comparative image information about the result may be generated.

In some embodiments, the comparison image information generated by the comparison image information control step S250 may include information about a difference value between the first image information and the second image information. For example, numerical data for each region of the first image information including an image of a lens product and numerical data for each region of the second image information may be compared for each region to include a difference value of the numerical value for each region.

In addition, as another example, the comparison image information generated in the comparison image information control step S250 may include various forms indicating differences between the first image information and the second image information. A graph form indicating a difference for each region of the may include image form information indicating a difference in color.

The reference image information control step (S260) may include generating first reference image information and generating second reference image information.

In the generating of the first reference image information, light may be provided to the normal lens product through the first position light source member 211, and then after the imaging, the first reference image information may be generated through the imaging unit. have. Normal lens preparations may be, for example, lens preparations free of contamination or foreign material, or in which the contamination or foreign material is within the normal range.

The first reference image information generated in the step of generating the first reference image information includes the image information after the image capturing unit for the normal lens product is photographed after the first position light source member is operated and the second position light source member is not operated. It may include.

As a specific example, the first reference image information generated in the first reference image information generating step may be an image as it is captured by the imaging unit.

In some embodiments, the first reference image information generated in the first reference image information generating step may be information obtained from an image captured by the image capturing unit. Specifically, the first reference image information may be numerical data information for each region of the image captured by the image capturing unit. It may be.

In the generating of the second reference image information, light may be provided to the normal lens product through the second position light source member, and then second image information may be generated after the imaging of the normal lens product through the imaging unit. Normal lens preparations may be, for example, lens preparations free of contamination or foreign material, or in which the contamination or foreign material is within the normal range.

The second reference image information generated in the second reference image information generating step includes the image information after the image capturing unit for the normal lens product is photographed after operating the second position light source member and deactivating the first position light source member. It may include.

As a specific example, the second reference image information generated in the second reference image information generating step may be an image as it is captured by the imaging unit.

In some embodiments, the second reference image information generated in the second reference image information generating step may be information obtained from an image captured by the image capturing unit. Specifically, the second reference image information may be numerical data information for each region of the image captured by the image capturing unit. It may be.

The reference comparison image information control step S255 may include the first reference image information generated in the first reference image information generation step of the reference image information control step S260 and the second reference image information generation step. Reference comparison image information about the comparison result of the two reference image information may be generated.

In some embodiments, the reference comparison image information generated in the step of controlling the reference comparison image information (S255) may include information about a difference value between the first reference image information and the second reference image information. For example, the numerical value of each region of the first reference image information including the image of a normal lens product and the numerical data of each region of the second reference image information are compared by region to include a difference value of each region. Can be.

In addition, as another example, the reference comparison image information generated in the reference comparison image information control step S255 may include various forms indicating differences between the first reference image information and the second reference image information. It may include a graph form indicating the difference of each region of the image of the normal lens preparation, image image information indicating the difference in color.

In the determination control step S270, the comparison image information generated in the comparison image information control step S250 may be compared with the reference information generated in the reference comparison image information control step 255 to inspect the lens product.

For example, when the difference between the reference information and the reference information is less than a predetermined condition, the lens product is determined to be normal, and when the difference between the reference information and the reference information exceeds the setting condition, the lens product is determined to be abnormal. can do.

In an alternative embodiment, the reference information may include information on the normal lens product, which may include test result data of the simulated lens product, or prepare the actual normal lens product to prepare the first image information and the second image thereof. It may include information obtained by comparing the information after generating the information.

Although not shown, the present embodiment irradiates light using the first position light source member, the second position light source member, the third position light source member, and the fourth position light source member, and then, respectively, the first image information and the second image information. The method may include generating third image information and fourth image information.

In addition, comparative image information regarding a difference between the first image information, the second image information, the third image information, and the fourth image information may be generated.

Although not illustrated as another optional embodiment, the image information control step S240 of the present embodiment includes a shadow image information control step, a surface reflection information control step, and a highlight area information control step as described in step S40 of the above-described embodiment. can do. Since the details are the same, they are omitted.

As another optional embodiment, the comparison image information control step S250 of the present embodiment may include the comparison image information numerical control step or the comparison image area control step as described in step S50 of the above-described embodiment. Since the details are the same, they are omitted.

Lens article inspection method according to an embodiment of the present invention can easily proceed the inspection for the lens article formed through the lens manufacturing process.

Among the at least a plurality of light source members of the light source unit, a first position light source member is operated to provide light to generate first image information after imaging through the image pickup unit, and a second position light source member of the light source unit is operated to provide light through the image pickup unit. After imaging, the second image information is generated, and the first image information and the second image information are compared to generate comparison image information, and the determination controller compares the comparison image information with the reference information to facilitate normal inspection of the lens product. You can proceed.

Also, as an optional embodiment, reference image information may be formed in the reference comparison image information control step when generating reference information. After generating the first reference image information and the second reference image information, the reference image information may be compared in the reference comparison image information control step. Reference comparison image information may be generated.

In an embodiment, the degree of contamination or the degree of contamination of the lens product may be obtained by obtaining image information on the shadow area in the image information control step and using the information on the shadow area that is changed when the first position light source member or the second position light source member is used. Information on the size and location of the contaminants, for example, foreign matter on the surface of the lens preparation or foreign matter inside, can be easily identified.

Also, as an optional embodiment, the lens may be obtained by using information about the surface reflection area that is changed when the first position light source member or the second position light source member is obtained by obtaining information on the surface reflection area of the lens product through the surface reflection information control step. Information on the degree of contamination of the product or the size of the contamination or the location of the contamination, for example, a foreign material on the surface of the lens product or an internal foreign material, can be easily identified.

Also, as an optional embodiment, the information on the highlight area of the lens product may be obtained by obtaining information on the highlight area of the lens product through the control of the highlight area information and using information about the highlight area that is changed when the first position light source member or the second position light source member is used. Information on the degree of contamination or the size of the contamination or the location of the contamination, such as foreign matter on the surface or inside of the lens preparation, can be easily identified.

As described above, the present invention has been described with reference to the embodiments illustrated in the drawings, which are merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible. . Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

An embodiment may be represented in terms of functional block configurations and various processing steps. Such functional blocks may be implemented in various numbers of hardware or / and software configurations that perform particular functions. For example, an embodiment may include an integrated circuit configuration such as memory, processing, logic, look-up table, etc. that may execute various functions by the control of one or more microprocessors or other control devices. You can employ them.

Similar to the components in the present invention may be implemented in software programming or software elements, embodiments include C, C ++, including various algorithms implemented in combinations of data structures, processes, routines or other programming constructs. It may be implemented in a programming or scripting language such as Java, an assembler, or the like. The functional aspects may be implemented with an algorithm running on one or more processors. In addition, the embodiment may employ the prior art for electronic configuration, signal processing, and / or data processing. Terms such as "mechanism", "element", "means", "configuration" can be used widely and are not limited to mechanical and physical configurations. The term may include the meaning of a series of routines of software in conjunction with a processor or the like.

Specific implementations described in the embodiments are examples, and do not limit the scope of the embodiments in any way. For brevity of description, descriptions of conventional electronic configurations, control methods, software, and other functional aspects of the methods may be omitted. In addition, the connection or connection members of the lines between the components shown in the drawings are illustrative of the functional connection and / or physical or circuit connections as an example, in the actual device replaceable or additional various functional connections, physical It may be represented as a connection, or circuit connections. In addition, unless specifically mentioned, such as "essential", "important" may not be a necessary component for the application of the present invention.

In the specification of the embodiments (particularly in the claims), the use of the term " above " and similar indicating terms can be used in the singular and plural. In addition, when the range is described in the examples, the invention includes the invention in which the individual values belonging to the range are applied (unless stated to the contrary), and the description is the same as describing each individual value constituting the range. . Finally, if there is no explicit order or contradiction with respect to the steps constituting the method according to the embodiment, the steps may be performed in a suitable order. The embodiments are not necessarily limited according to the description order of the steps. The use of all examples or exemplary terms (eg, etc.) in the embodiments is merely for describing the embodiments in detail, and the scope of the embodiments is limited by the above examples or exemplary terms unless the scope of the claims is defined. It is not. Also, one of ordinary skill in the art appreciates that various modifications, combinations and changes can be made in accordance with design conditions and factors within the scope of the appended claims or their equivalents.

100, 200: lens product inspection system
110, 210: light source unit
120, 220: imaging unit
140. 240: image information control unit
150. 250: comparative image information control unit
170, 270: judgment control unit

Claims (15)

An inspection system for inspecting lens products,
A light source unit including at least a first position light source member and a second position light source member disposed to provide light with respect to the lens preparation in different directions;
An imaging unit arranged to perform imaging of the lens preparation;
A first image information generating unit and second light source unit generating first image information after imaging of the lens product through the imaging unit after providing light to the lens product through the first position light source member of the light source unit An image information control unit including a second image information generation unit configured to provide light to the lens article through a position light source member and to generate second image information after imaging of the lens article through the imaging unit;
A comparison image information controller configured to generate comparison image information on a comparison result between the first image information generated by the first image information generator of the image information controller and the second image information generated by the second image information generator; ; And
A determination controller configured to inspect the lens product by comparing the comparison image information generated by the comparison image information controller with reference information,
The imaging section is disposed between the first position light source member and the second position light source member,
The first position light source member is disposed to face one side of the lens preparation, the second position light source member is disposed to face one side of the opposite direction of the one side of the lens preparation,
The first image information includes image information after the first position light source member is operated and the second position light source member is inoperative, and the image capturing unit for the lens product is photographed.
And the second image information includes image information after the second position light source member is operated and the first position light source member is inoperative and the image pickup unit for the lens article performs imaging. According to claim 1,
And the light source unit comprises at least three light source members. According to claim 1,
And the comparison image information includes information representing a difference between the first image information and the second image information. According to claim 1,
Wherein the lens article comprises a lens portion and one or more coatings formed on the lens portion. According to claim 1,
And the first position light source member and the second position light source member comprise a same kind of light source. According to claim 1,
The video information control unit,
And a shadow image information control unit which obtains change information about a shadow area when generating the first image information or the second image information. According to claim 1,
The video information control unit,
And a surface reflection information controller configured to obtain surface reflection information of the lens product when the first image information or the second image information is generated. According to claim 1,
The video information control unit,
And a surface reflection information controller configured to obtain information on a highlight area when generating the first image information or the second image information. An inspection method for inspecting a lens product,
Preparing a lens product;
Light is directed to the lens article through the first position light source member using a light source portion comprising at least a first position light source member and a second position light source member disposed to provide light to the lens article in different directions. After providing the first image information of the lens product through the imaging unit and providing light to the lens product through the second position light source member, and then imaging the lens product through the imaging unit. An image information control step of generating second image information;
A comparison image information control step of generating comparison image information on a comparison result of the first image information and the second image information generated in the image information control step; And
And a determination control step of inspecting a lens product by comparing the comparison image information generated in the comparison image information control step with reference information.
The imaging section is disposed between the first position light source member and the second position light source member,
The first position light source member is disposed to face one side of the lens preparation, the second position light source member is disposed to face one side of the opposite direction of the one side of the lens preparation,
The first image information includes image information after the first position light source member is operated and the second position light source member is inoperative, and the image capturing unit for the lens product is photographed.
And the second image information includes image information after the second position light source member is operated and the first position light source member is inoperative and the imaging unit for the lens article performs imaging. The method of claim 9,
And the first position light source member and the second position light source member comprise the same kind of light source. The method of claim 9,
And the comparison image information includes information indicating a difference between the first image information and the second image information. The method of claim 9,
The image information control step,
And a shadow image information control step of obtaining change information on a shadow area when generating the first image information or the second image information. The method of claim 9,
The image information control step,
And a surface reflection information control step of acquiring surface reflection information of the lens preparation when generating the first image information or the second image information. The method of claim 9,
The image information control step,
And controlling surface reflection information to obtain information on a highlight area when generating the first image information or the second image information. A computer-readable recording medium having recorded thereon a program for performing the method of claim 9.

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