KR20120115812A - Apparatus for measuring the thickness of a wet film - Google Patents

Abstract

PURPOSE: A portable humidity film thickness measuring device is provided to measure the thickness of a humidity film by analyzing photographed images, thereby accurately measure the thickness regardless of a skill level of an operator. CONSTITUTION: A portable humidity film thickness measuring device comprises a frame(110), a camera(120), a light irradiator(130), an image processing module(140), and a display module(150). The frame comprises a case(111) and a plurality of legs. The plurality of legs is installed in the lower part of the case. The plurality of legs is placed on a measurement object(100), thereby spacing the case from the measurement object at a predetermined distance. The camera is fixed to the case, thereby photographing surface images of the measurement object. The light irradiator irradiates beams to an inner side of a photographing area of the camera in a lateral side of the camera. The image processing module receives the images photographed by the camera and analyzes a beam position within images, thereby calculating the thickness of a humidity film. The display module displays the thickness of the humidity film calculated by the image processing module on a screen.

Description

Portable humidity film thickness measuring device {Apparatus for measuring the thickness of a wet film}

The present invention relates to an apparatus for measuring the thickness of a humidity film, and more particularly, to a portable humidity film thickness measuring device that enables portable measurement of the thickness of a humidity film while being carried in a portable manner.

In general, the painting is used to prevent the corrosion of the object, to protect the surface or to enhance the appearance by painting or applying a paint on the surface of the object. Since the thickness of the coating film formed by such a coating also affects the dimensions of the product and various characteristics of the product, it is necessary to manage the coating film thickness during the painting work.

On the other hand, in order to perform the painting work with the correct thickness, the operator measures the thickness of the humidity film using the humidity film measuring gauge in the process of painting work, and performs the painting work based on the measured result.

The conventional humidity film measuring gauge is composed of a plurality of grooves having different depths for determining the film thickness value at the end of the thin plate member, or to read the film thickness value at both edges of the thin plate member. It consists of engraved graduations.

However, the conventional humidity film measuring gauge as described above is difficult to identify the thickness value because the paint is fixed to the groove or the scale when repeated use, this is very cumbersome because the measurement gauge must be wiped frequently, especially the measurement results according to the operator There is a problem that the coating quality is not uniform and different.

The present invention has been made in consideration of the above problems, and an object of the present invention is to provide a portable humidity film thickness measuring apparatus capable of accurately measuring the thickness of the humidity film regardless of the skill of the operator.

It is another object of the present invention to provide a portable humidity film thickness measuring apparatus in which the portion where the thickness measurement is made does not come in direct contact with the coating film, thereby increasing the convenience of maintenance.

Portable humidity film thickness measuring apparatus of the present invention to achieve the object as described above and to perform a problem for eliminating the conventional drawbacks is installed on the case, the lower end of the case and placed on the measurement object is fixed to the case from the measurement object A frame consisting of a plurality of legs spaced apart from each other; A camera fixedly mounted to the case to photograph a surface image of a measurement object; A light irradiator fixed to the case to irradiate a beam from the side of the camera to the inside of the image photographed by the camera; An image processing module receiving the image photographed by the camera and analyzing a beam position in the image to calculate a thickness of the humidity film; And a display module displaying and displaying the thickness of the humidity film calculated by the image processing module on a screen.

On the other hand, the light irradiator is composed of a semiconductor laser.

Meanwhile, the light irradiator is installed to irradiate a beam to the edge of the image across the image when the thickness of the humidity film is zero.

Meanwhile, the lower end of the leg is sharply formed to minimize the damage of the humidity film.

According to the present invention having the above characteristics, it is possible to measure the thickness of the humidity film by analyzing the captured image, so that accurate thickness measurement is possible regardless of the operator's skill, thereby improving the quality of the coating film and preventing unnecessary waste of paint. I can do it.

1 is a perspective view of a humidity film thickness measuring apparatus according to a preferred embodiment of the present invention,
2 is a structural diagram of a humidity film thickness measuring apparatus according to a preferred embodiment of the present invention;
3 is an exemplary view illustrating an image photographed by a camera;
4 is a state diagram showing a position where the laser beam is irradiated according to the thickness of the humidity film;
5 is a view for explaining the principle of calculating the thickness of the humidity film.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a perspective view of a humidity film thickness measuring apparatus according to a preferred embodiment of the present invention, Figure 2 is a structural diagram of the humidity film thickness measuring apparatus according to a preferred embodiment of the present invention, Figure 3 is an image taken by the camera Exemplary diagrams shown by way of example are shown.

The portable humidity film thickness measuring apparatus of the present invention measures the thickness of the humidity film by photographing the surface image of the measurement object 100 and analyzing the photographed image. The frame 110, the camera 120, and the light irradiator ( 130, an image processing module 140, and a display module 150.

The frame 110 includes a case 111 forming a space in which the camera 120, the light irradiator 130, the image processing module 140, and the display module 150 are installed, and a lower portion of the case 111. It is installed is composed of a plurality of legs 112 to keep the case 111 is spaced a certain distance from the measurement object (100).

On the other hand, since the bridge 112 penetrates the humidity film and reaches the surface of the measurement object 100 during the thickness measurement, the lower end portion is formed in a pointed structure toward the bottom to minimize the damage of the humidity film.

The camera 120 is installed in the case 111 to take a surface image of the measurement object 100. The camera 120 is installed perpendicular to the case 111 so that when the frame 110 is placed on the measurement object 100, the camera 120 captures an image of the vertical lower portion. Such a camera 120 may be composed of a known CCD camera.

The light irradiator 130 is fixed to the case 111 to irradiate a beam into the photographing area S of the camera 120 from the side of the camera 120. When the image of the surface of the measurement object 100 is photographed in the state in which the beam is irradiated inside the photographing area S by the light irradiator 130, the image O of the beam is included in the photographed image P. FIG. Is formed, and the thickness of the humidity film can be calculated by analyzing the position (O) of the beam.

On the other hand, the light irradiator 130 may increase the accuracy of the measurement by being composed of a semiconductor laser that irradiates a laser beam that proceeds immediately without spreading as compared to normal light.

The image processing module 140 is connected to the camera 120 to receive an image captured by the camera 120, and calculates a thickness of the humidity film by analyzing a beam position in the transmitted image. The image processing module 140 includes a central processing unit (CPU) for processing an image, and a memory for storing image information and information processed by the central processing unit.

The display module 150 is connected to the image processing module 140 to display the thickness value of the humidity film calculated by the image processing module 140 on the screen. The display module 150 is provided with buttons 151 for allowing a user to operate the measuring device of the present invention.

Meanwhile, a battery 160 for providing power for driving the camera 120, the light irradiator 130, the image processing module 140, and the display module 150 as described above is installed in the case 111.

The process of measuring the thickness of the humidity film using the portable humidity film thickness measuring device configured as described above will be described.

When the thickness of the humidity film formed on the object in the process of painting work is to be measured, the measuring device according to the present invention is placed on the surface of the measurement object 100 formed with the humidity film. In this case, the lower end of the leg 112 provided in the frame 110 contacts the surface of the measurement object 100 through the humidity film, thereby making the measurement device stand on the surface of the measurement object 100. On the other hand, the measuring device of the present invention is installed on the frame 110, all the elements for measuring the thickness of the humidity film is easy to carry and can be easily set on the surface of the measurement object (100).

When the measuring device is placed on the surface of the measurement object 100 as described above, the operator starts the measurement of the humidity film by operating the button 151 provided on the display module 150.

In the measurement of the humidity film as described above, a laser beam is first generated by a light irradiator (semiconductor laser), and the generated laser beam is irradiated onto the surface of the measurement object 100.

On the other hand, the position where the laser beam is irradiated into the shooting area (S) of the camera 120, when the thickness of the humidity film is 0, the light irradiator 130 so that the laser beam is irradiated to the edge (P1) of the image (P) to be photographed And camera 120 are set. Therefore, when there is a laser beam at the edge P1 of the captured image P, the thickness of the humidity film is calculated as 0, and the distance between the edge P1 of the image P and the laser beam is proportional to the thickness of the humidity film. The positional coordinates of the beams formed on the images are analyzed, the distance d between the edge P1 of the image P and the laser beam is calculated, and the thickness of the humidity film is determined using the irradiation angle of the laser beam. Will be calculated.

4 shows a state diagram showing a position where a laser beam is irradiated according to the thickness of the humidity film.

As can be seen in Figure 4, when the thickness of the humidity film is 0, the beam generated from the light irradiator 130 is irradiated to the edge of the shooting area across the shooting area of the camera 120, the edge of this shooting area That is, the edge P1 of the image P serves as a reference for calculating the moisture film thickness.

On the other hand, as the thickness of the humidity film becomes thicker, the position of the beam moves inward from the edge P1 of the image P and moves away from the P1 edge, and eventually approaches the opposite edge P2 of the image.

On the other hand, since the angle of view of the camera 120 or the angle of inclination of the light irradiator 130 is a constant constant, when the coordinate value of the beam is detected through analysis of the captured image and the distance between the edge of the image and the beam is detected, humidity The film thickness can be calculated.

5 is a view for explaining the principle of calculating the thickness of the humidity film.

The thickness of the humidity film can be calculated by the following equation. Meanwhile, the following equation is one example for calculating the humidity film thickness, and the thickness of the humidity film may be calculated by various equations without being limited to the following equation.

Here, a is an angle at which the light irradiator is installed, b is an angle of view of the camera, and d is a distance from which the beam formed in the image is separated from the edge of the image.

As an example, when the angle of view of the camera 120 is 40 ° and the angle at which the light irradiator 130 is installed is 50 °, it is assumed that the beam is 50 μm away from the edge of the image by analyzing the photographed image. The thickness of the humidity film is 105.24 µm.

As described above, the portable humidity film thickness measuring apparatus according to the present invention can easily and by taking an image in a state in which a beam is irradiated to the measuring object 100 requiring the measurement of the thickness of the humidity film, and calculating a coordinate value on the beam through analysis of the photographed image. It is possible to accurately measure the thickness of the humidity film.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

Description of the Related Art
(100): measuring object (110): frame
111: Case 112: Leg
120: camera 130: light irradiator
140: image processing module 150: display module

Claims (4)

A frame (110) installed at a lower end of the case (111) and placed on the measurement object (100), the frame (110) comprising a plurality of legs (112) spaced apart from the measurement object (100) by a predetermined distance;
A camera 120 fixedly installed at the case 111 to take a surface image of the measurement object 100;
A light irradiator 130 fixed to the case 111 to irradiate a beam into the photographing area S of the camera 120 from the side of the camera 120;
An image processing module 140 for receiving the image photographed by the camera 120 and analyzing the beam position in the image to calculate the thickness of the humidity film; And
Portable humidity film thickness measuring apparatus, characterized in that consisting of a display module 150 to display the screen to display the thickness of the humidity film calculated by the image processing module 140. The method of claim 1,
The light irradiator 130 is a portable humidity film thickness measuring apparatus, characterized in that consisting of a semiconductor laser. The method of claim 1,
The light irradiator 130 is a portable humidity film thickness measuring device, characterized in that when the thickness of the humidity film is 0, installed to irradiate a beam to the edge of the shooting area across the shooting area (S) of the camera 120. The method of claim 1,
Portable humidity film thickness measuring apparatus, characterized in that the lower end of the leg 112 is formed pointed.

Images