KR102702901B1 - Apparatus for measuring illumination uniformity of multi-channel LED lighting device and method for measuring illumination uniformity of multi-channel LED lighting device using thereof - Google Patents

Abstract

The present invention relates to a device and method for measuring the uniformity of LED lighting. According to the present invention, in order to solve the problems of the lighting inspection devices and methods of the prior art that had limitations in that they did not present a device or method for checking whether a multi-channel LED lighting device applied as a lighting of an exterior inspection device has a defect, the device is configured to measure the uniformity of the multi-channel LED lighting by irradiating a gray target fixed to the floor with multi-channel LED lighting and photographing the gray target irradiated with light through a Scheimpflug camera, and analyzing the images photographed for each light and brightness, thereby enabling the defects of the multi-channel LED lighting to be quickly and accurately checked with a relatively simple configuration and low cost, and at the same time maintaining the consistency of the inspection results and increasing the accuracy and reliability by using lighting having a uniform brightness for the exterior inspection device that uses the same multi-channel LED lighting. The device and method for measuring the uniformity of the multi-channel LED lighting using the same are provided.

Description

{Apparatus for measuring illumination uniformity of multi-channel LED lighting device and method for measuring illumination uniformity of multi-channel LED lighting device using its}

The present invention relates to a device and method for measuring the uniformity of LED lighting, and more specifically, to a multi-channel LED lighting uniformity measuring device configured to quickly and accurately check for defects in multi-channel LED lighting used in exterior inspection equipment with a relatively simple configuration and low cost in order to solve the problems of conventional lighting inspection devices and methods that have inefficient problems in terms of time and cost due to relatively complex configurations for measuring the performance of lighting fixtures, and a multi-channel LED lighting uniformity measuring method using the same.

In addition, the present invention relates to a uniformity measuring device for multi-channel LED lighting and a uniformity measuring method for multi-channel LED lighting using the same, which is configured to measure the uniformity of multi-channel LED lighting by irradiating multi-channel LED lighting onto a gray target fixed to the floor and photographing the illuminated gray target using a Scheimpflug camera, and analyzing the images photographed for each type of lighting and brightness, thereby enabling rapid and accurate confirmation of the presence of defects in multi-channel LED lighting used for exterior inspection equipment with a relatively simple configuration and low cost.

In addition, the present invention relates to a uniformity measuring device for multi-channel LED lighting and a uniformity measuring method for multi-channel LED lighting using the same, which is configured to maintain consistency of inspection results by, in addition to inspecting whether there is a defect in lighting by measuring the lighting uniformity of a multi-channel LED as described above, using lighting having uniform brightness for an exterior inspection equipment using the same multi-channel LED lighting based on the inspection results, and thereby increase the accuracy and reliability of the exterior inspection and inspection equipment.

In general, for the external appearance inspection to determine whether a product is defective, external appearance inspection equipment that determines whether there are defects such as damage, deformation, cracks, and scratches on the product surface through images or videos captured by a camera is widely used.

These external inspection devices are composed of cameras, lenses, and lights, and because they determine whether there are any defects through images, the inspection results may vary depending on the lighting, even for the same product.

In other words, the optimal lighting required for each situation varies depending on various factors such as the type of product being inspected, the location where the inspection equipment is installed, environmental factors, and the operating characteristics of the lighting device. Accurate inspection results can be obtained only when all of these conditions are met.

Accordingly, in order to obtain more accurate inspection results, in addition to accurately understanding the performance of the lighting fixtures provided in the inspection equipment, there should be no defects or faults such as uneven illuminance. Accordingly, a technology is required to quickly and accurately measure the performance and defects of lighting devices for external inspection equipment with a simpler configuration and lower cost.

Here, as an example of a prior art related to a device and method for measuring the performance of a lighting fixture as mentioned above, there is, for example, “Method for judging the performance of a lighting fixture using measurements of illuminance and uniformity” as presented in Korean Patent Publication No. 10-1595179.

More specifically, the above-mentioned Korean Patent Publication No. 10-1595179 comprises: a first step of arranging illuminance meters in a 3x3 array in a hexahedral darkroom; a second step of manufacturing a light distribution file with the light distribution of a lighting fixture measured in the darkroom of the first step; a third step of storing data including the light distribution file manufactured in the second step and calculating an average illuminance and uniformity through a simulation; a fourth step of comparing the average illuminance obtained by calculating the illuminance of the lighting fixture measured using the illuminance meter of the first step with the average illuminance obtained through a simulation calculation in the third step. The present invention relates to a method for judging the performance of a lighting fixture using illuminance and uniformity measurements, which comprises comparing the actual illuminance measurement value with the simulation calculation value using a light distribution file of a lighting fixture measured in advance in a space consisting of a dark room, and judging the performance of the lighting fixture by including a fifth step of comparing the uniformity obtained by actually measuring and calculating a lighting fixture using a light meter in the first step with the uniformity obtained through simulation calculation in the third step.

As described above, various technical contents have been proposed regarding devices and methods for measuring the performance of lighting equipment such as LEDs, but the contents of the above-mentioned conventional technologies had the following problems.

That is, as mentioned above, in order to obtain accurate inspection results, it is required to accurately determine whether there are any defects or faults, such as performance or illuminance unevenness, in the lighting fixtures provided with the inspection equipment. To this end, a separate measuring device and measuring process are required, which increases the overall time and cost.

More specifically, as presented in the aforementioned Korean Patent Publication No. 10-1595179, the performance measurement devices and methods of lighting fixtures presented in the prior art have limitations in efficiency due to their relatively complex configurations and procedures.

Furthermore, recently, multi-channel LED lighting devices have been widely used as lighting for exterior inspection equipment, but in the contents of the above-mentioned prior art, there has been no device or method presented that can quickly and accurately measure the brightness and uniformity of lighting for each channel of such multi-channel LED lighting devices with a relatively simple configuration.

Therefore, in order to solve the problems of the prior art as described above, it is desirable to propose a new lighting uniformity measuring device and method configured to quickly and accurately measure the lighting uniformity of a multi-channel LED lighting device with a relatively simple configuration and low cost. However, a device or method that satisfies all of these requirements has not yet been proposed.

Korean Patent Publication No. 10-1595179 (2016.02.11.)

The present invention is intended to solve the problems of the prior art as described above, and therefore, the purpose of the present invention is to propose a multi-channel LED lighting uniformity measuring device configured to quickly and accurately check for defects in multi-channel LED lighting used in exterior inspection equipment with a relatively simple configuration and low cost, and a multi-channel LED lighting uniformity measuring method using the same, in order to solve the problems of the lighting inspection devices and methods of the prior art, which had inefficient problems in terms of time and cost due to the relatively complex configuration for measuring the performance of a lighting fixture.

In addition, another purpose of the present invention is to solve the problems of the lighting inspection devices and methods of the prior art that had limitations in that they did not present a device or method for checking for defects in multi-channel LED lighting devices applied as lighting for exterior inspection equipment, by irradiating multi-channel LED lighting on a gray target fixed to the floor, photographing the illuminated gray target through a Scheimpflug Camera, and analyzing the images photographed for each light type and brightness, thereby providing a uniformity measuring device for multi-channel LED lighting and a uniformity measuring method for multi-channel LED lighting using the same, which are configured to enable rapid and accurate checking for defects in multi-channel LED lighting used for exterior inspection equipment with a relatively simple configuration and low cost.

In addition, another purpose of the present invention is to provide a uniformity measuring device for multi-channel LED lighting and a uniformity measuring method for multi-channel LED lighting using the same, which is configured to maintain consistency of inspection results by, in addition to inspecting whether there is a defect in the lighting by measuring the lighting uniformity of the multi-channel LED as described above, using lighting having uniform brightness for an exterior inspection equipment using the same multi-channel LED lighting based on the inspection results, and thereby increase the accuracy and reliability of the exterior inspection and inspection equipment.

In order to achieve the above-mentioned object, according to the present invention, a uniformity measuring device for a multi-channel LED light is provided, characterized in that it comprises: a light installation unit for installing a multi-channel LED light as a measurement target; a light irradiation unit fixed to the light installation unit onto which light of the multi-channel LED light is irradiated; an image acquisition unit including a camera for photographing the light irradiation unit onto which light is irradiated; and a control unit for controlling the overall operation of the measuring device and performing a process of analyzing an image photographed by the image acquisition unit to determine whether the multi-channel LED light is defective.

Here, the lighting installation unit is characterized in that it includes a stand or fixing jig formed so that the size and position can be adjusted so that various multi-channel LED lighting devices can be installed and fixed.

In addition, the light irradiation unit is characterized in that it is formed in the shape of a flat rectangular or square plate having a predetermined constant area, and is configured to include a gray target that is fixedly placed on the floor surface so that the light of the multi-channel LED light fixed to the light installation unit is vertically incident.

In addition, the image acquisition unit is characterized by being configured with a camera module including a camera and a lens, and is installed to view the gray target at a predetermined angle from one side of the lighting installation unit or the light irradiation unit.

At this time, the camera is characterized in that it is configured using a Scheimpflug camera.

Furthermore, the control unit is configured to further include a lighting controller configured to remotely control the operation of the multi-channel LED lighting installed in the lighting installation unit by channel and brightness, and is characterized in that the control unit is configured to perform processing such that, while controlling the operation of the multi-channel LED lighting by channel and brightness, images for each channel and brightness are acquired for each multi-channel LED lighting and analysis for brightness and uniformity is performed.

In addition, the control unit is characterized in that it is configured to receive an image for each channel by adjusting the intensity of the lighting so that the brightness of the image becomes 100 for all LED channels of the multi-channel LED lighting, and divides the remaining area except for the outermost 100 pixels for each received image into a 10×10 array, calculates the average brightness of each equally divided area, and obtains the ratio of the highest average brightness and the lowest average brightness, thereby calculating the uniformity for each channel, and based on the calculated uniformity, processing is performed to determine whether the multi-channel LED lighting is defective according to predetermined criteria.

In addition, according to the present invention, a method for measuring the uniformity of multi-channel LED lighting is provided, comprising: an installation step in which a processing step of installing a multi-channel LED lighting to be measured in a measuring device is performed; an installation step in which a processing step of installing a multi-channel LED lighting to be measured in a measuring device is performed; a measuring step in which a processing step of capturing images of each channel of the multi-channel LED lighting to be measured is performed through the measuring device; and an analysis step in which a processing step of analyzing each image captured in the measuring step to calculate the uniformity of the multi-channel LED lighting to be measured and to determine whether or not it is defective is performed, wherein the measuring device is configured using the uniformity measuring device for multi-channel LED lighting described above.

As described above, according to the present invention, a multi-channel LED lighting uniformity measuring device and a multi-channel LED lighting uniformity measuring method using the same are provided, which enable the uniformity and presence of defects in multi-channel LED lighting used in exterior inspection equipment to be quickly and accurately checked with a relatively simple configuration and low cost by irradiating multi-channel LED lighting on a gray target fixed to the floor, photographing the illuminated gray target through a Scheimpflug Camera, and analyzing the images photographed for each type of lighting and brightness. Accordingly, the problems of conventional lighting inspection devices and methods that had limitations in that they did not present a device or method for checking for defects in multi-channel LED lighting devices applied as lighting for exterior inspection equipment can be solved.

In addition, according to the present invention, a uniformity measuring device for multi-channel LED lighting and a uniformity measuring method for multi-channel LED lighting using the same are provided, which are configured to quickly and accurately check for defects in multi-channel LED lighting used in exterior inspection equipment with a relatively simple configuration and low cost as described above, thereby solving problems of lighting inspection devices and methods of the prior art, which were inefficient in terms of time and cost due to the relative complexity of the configuration for measuring the performance of lighting equipment.

In addition, according to the present invention, a uniformity measuring device for multi-channel LED lighting and a uniformity measuring method for multi-channel LED lighting using the same are provided, which are configured to measure the lighting uniformity of multi-channel LED lighting as described above to inspect for defects in lighting, thereby enabling consistency of inspection results to be maintained by using lighting having uniform brightness for exterior inspection equipment using the same multi-channel LED lighting based on the inspection results, thereby increasing the accuracy and reliability of the exterior inspection and inspection equipment.

FIG. 1 is a block diagram schematically showing the overall configuration of a uniformity measuring device for multi-channel LED lighting according to an embodiment of the present invention.
FIG. 2 is a conceptual diagram schematically showing the overall configuration and operation of a uniformity measuring device for multi-channel LED lighting according to the embodiment of the present invention shown in FIG. 1.
FIG. 3 is a conceptual diagram schematically illustrating the processing process of a uniformity measurement algorithm of a uniformity measurement device for multi-channel LED lighting according to an embodiment of the present invention.
FIG. 4 is a flowchart schematically showing the overall configuration of a method for measuring the uniformity of multi-channel LED lighting according to an embodiment of the present invention.

Hereinafter, with reference to the attached drawings, specific embodiments of a uniformity measuring device for multi-channel LED lighting and a uniformity measuring method for multi-channel LED lighting using the same according to the present invention will be described.

Here, it should be noted that the contents described below are only one embodiment for carrying out the present invention, and the present invention is not limited to the contents of the embodiments described below.

In addition, in the description of the embodiments of the present invention below, it should be noted that for the sake of brevity, detailed descriptions of parts that are identical or similar to the contents of prior art or that can be easily understood and implemented by those skilled in the art have been omitted.

That is, the present invention relates to a multi-channel LED lighting uniformity measuring device and a multi-channel LED lighting uniformity measuring method using the same, which are configured to quickly and accurately check for defects in multi-channel LED lighting used in exterior inspection equipment with a relatively simple configuration and low cost, in order to solve the problems of conventional lighting inspection devices and methods, which have been inefficient in terms of time and cost due to the relatively complex configuration for measuring the performance of lighting equipment, as described below.

In addition, the present invention, in order to solve the problems of the lighting inspection devices and methods of the prior art that had limitations in that a device or method for checking for defects in multi-channel LED lighting devices applied as lighting for exterior inspection equipment was not presented, as described below, the present invention relates to a uniformity measuring device for multi-channel LED lighting and a uniformity measuring method for multi-channel LED lighting using the same, which is configured to measure the uniformity of multi-channel LED lighting by irradiating multi-channel LED lighting onto a gray target fixed to the floor, photographing the gray target irradiated with light using a Scheimpflug Camera, and analyzing the images photographed for each type of light and brightness, thereby enabling the rapid and accurate confirmation of defects in multi-channel LED lighting used for exterior inspection equipment with a relatively simple configuration and low cost.

Furthermore, the present invention relates to a uniformity measuring device for multi-channel LED lighting and a uniformity measuring method for multi-channel LED lighting using the same, which is configured to maintain consistency of inspection results by, in addition to inspecting whether there is a defect in lighting by measuring the uniformity of lighting of a multi-channel LED as described below, using lighting having uniform brightness for an exterior inspection equipment using the same multi-channel LED lighting based on the inspection results, and thereby increase the accuracy and reliability of the exterior inspection and inspection equipment.

Continuing, with reference to the drawings, the specific contents of a uniformity measuring device for multi-channel LED lighting according to the present invention and a uniformity measuring method for multi-channel LED lighting using the same will be described.

More specifically, first, referring to FIG. 1, FIG. 1 is a block diagram schematically showing the overall configuration of a uniformity measuring device (10) for multi-channel LED lighting according to an embodiment of the present invention.

As shown in FIG. 1, a uniformity measuring device (10) of a multi-channel LED light according to an embodiment of the present invention can be largely divided into a lighting installation unit (11) for installing a multi-channel LED light as a measurement target, a light irradiation unit (12) fixed to the lighting installation unit (11) onto which light from the multi-channel LED light is irradiated, an image acquisition unit (13) including a camera for photographing the light irradiation unit (12) onto which light is irradiated, and a control unit (14) for analyzing an image captured by the image acquisition unit (13) to determine whether the multi-channel LED light is defective, and controlling the overall operation of each unit and the measuring device (10).

More specifically, first, the above-mentioned lighting installation part (11) can be configured in the form of a stand or fixing jig, etc., which is formed so that the size and position can be adjusted so that various multi-channel LED lighting devices can be installed and fixed.

Here, the specific configuration of the above-mentioned stand or fixed jig can be appropriately configured by a person skilled in the art, and therefore, in the present invention, in order to simplify the explanation, it should be noted that a detailed description of the contents that a person skilled in the art can easily understand and implement by referring to literature of the prior art, etc., as mentioned above, has been omitted.

In addition, the above-mentioned light irradiation unit (12) may be configured to include a gray target formed in the shape of a flat rectangular or square plate having a certain area and fixedly placed on the floor so that light from an LED light fixed to the light installation unit (11) is vertically incident.

In addition, the above-mentioned image acquisition unit (13) is composed of a camera module including a camera and a lens, and can be installed to view a gray target at a specific angle from one side of the lighting installation unit (11) or the light irradiation unit (12).

Here, the above-mentioned camera may be configured using a general optical camera, but preferably, it may be configured using a Scheimpflug camera to enable more accurate measurement.

More specifically, when shooting an image with a general camera at an oblique position, it is difficult to obtain an image with uniform focus and brightness due to lens distortion, but when using a Scheimpflug camera, this problem can be compensated for, and therefore, there is an advantage in that the uniformity of brightness of lighting can be measured more precisely.

Furthermore, the above-described control unit (14) may further include a lighting controller configured to remotely control the operation of the multi-channel LED lighting to be measured, which is installed in the lighting installation unit (11), by channel and brightness, although not shown, so that the operation of the multi-channel LED lighting is controlled by each channel and brightness, while acquiring multiple images by each channel and brightness, and performing processing to analyze the brightness and uniformity.

That is, referring to FIG. 2, FIG. 2 is a conceptual diagram schematically showing the overall configuration and operation of a uniformity measuring device (10) for multi-channel LED lighting according to the embodiment of the present invention shown in FIG. 1.

As shown in FIG. 2, a uniformity measuring device (10) of a multi-channel LED light according to an embodiment of the present invention can be configured to perform a process of measuring brightness uniformity by installing a light irradiation unit (12) formed of a flat, square-shaped gray plate (Gray Targe) on the floor, installing a multi-channel LED light (21) through a light installation unit (11) in a vertical position, controlling the irradiation of light through a light controller of a control unit (14), taking images for each channel and brightness using a Scheimpflug camera of an image acquisition unit (13) installed on one side, and analyzing each image.

Continuing, referring to FIG. 3, FIG. 3 is a conceptual diagram schematically illustrating the processing of a uniformity measurement algorithm of a uniformity measurement device (10) for multi-channel LED lighting according to an embodiment of the present invention.

As described above, when acquiring images of multi-channel LED lighting, images are acquired for each channel and brightness, and the acquired images are transmitted to the control unit (14) to perform processing for calculating the brightness uniformity of the multi-channel LED lighting.

At this time, each brightness has a value of 0 to 255, image acquisition is performed for all LED channels, the intensity of the lighting is adjusted so that the brightness of the image becomes 100, and when calculating the uniformity, as shown in Fig. 3, the outermost 100 pixels are excluded and the remaining area is divided into a 10×10 array.

That is, for example, in the case of a light having 12 LED channels, a total of 12 channel-specific images with a brightness of 100 are acquired, and the acquired images are divided into 10 equal parts horizontally and vertically, excluding the outermost 100px.

Next, the uniformity is calculated for each channel by calculating the average brightness of each equally divided area and finding the ratio of the highest average brightness to the lowest average brightness. At this time, the ratio of the average brightness becomes an axis representing the uniformity and is calculated as a value between 0 and 1.

In addition, the acquired image data can be output in the form of a three-dimensional graph by displaying it on a three-dimensional surface, and the ratio of the brightest part and the darkest part is calculated, and the presence or absence of defects in the multi-channel LED lighting is judged according to predetermined criteria based on the uniformity calculated for each channel.

In addition, it can be configured to perform a correlation analysis by calculating all average brightness values for the above-mentioned calculation area for all acquired images and comparing the resulting values with other lighting based on the initial lighting.

Therefore, as described above, it is possible to determine whether there are any defects through uniformity measurement of multi-channel LED lighting, and to create an index for evaluating the lighting brightness quality of multi-channel LED lighting.

In addition, when used by an exterior inspection equipment manufacturer, defective lighting can be detected in advance at the quality inspection stage, and consistency of inspection results can be secured by using multi-channel LED lighting with the same or similar lighting brightness and uniformity for each piece of inspection equipment that uses the same lighting.

Furthermore, in the case of inspection equipment using image processing, the lighting brightness information can be used as an indicator to analyze the characteristics of surface defects such as discoloration or cracks displayed in the image.

As described above, a uniformity measuring device (10) for multi-channel LED lighting according to an embodiment of the present invention can be implemented, and further, a uniformity measuring method for multi-channel LED lighting can be easily implemented using the uniformity measuring device (10) for multi-channel LED lighting configured as described above.

More specifically, referring to FIG. 4, FIG. 4 is a flowchart schematically showing the overall configuration of a uniformity measurement method of multi-channel LED lighting according to an embodiment of the present invention.

As shown in FIG. 4, the uniformity measurement method of a multi-channel LED light according to an embodiment of the present invention can be largely divided into an installation step (S10) of installing a uniformity measurement device and a multi-channel LED light to be measured at each measurement location, a measurement step (S20) of measuring the multi-channel LED light to be measured using the measurement device, and an analysis step (S30) of analyzing the uniformity of the multi-channel LED light to be measured and determining whether it is defective based on the measurement result of the measurement step (S20).

Here, the above-mentioned measuring device can be configured using the uniformity measuring device (10) of the multi-channel LED lighting described above with reference to FIGS. 1 to 3.

That is, the above-described installation step (S10) may be configured to perform a process of fixing the multi-channel LED lighting to be measured to the light installation unit (11) of the above-described multi-channel LED lighting uniformity measuring device (10), the above-described measurement step (S20) may be configured to perform a process of capturing images for each channel through the light irradiation unit (12) and the image acquisition unit (13) of the above-described multi-channel LED lighting uniformity measuring device (10), and the above-described analysis step (S30) may be configured to perform a process of analyzing each image through the control unit (14) of the above-described multi-channel LED lighting uniformity measuring device (10) to calculate the uniformity and determine whether or not it is defective.

At this time, since the more specific processing steps of each step described above can be appropriately configured by a person skilled in the art by referring to the configuration of the uniformity measuring device (10) of the multi-channel LED lighting described above with reference to FIGS. 1 to 3, it should be noted that in the present invention, detailed descriptions of overlapping content have been omitted for the sake of simplicity.

Therefore, as described above, a uniformity measuring device for multi-channel LED lighting according to an embodiment of the present invention and a uniformity measuring method for multi-channel LED lighting using the same can be implemented, and thereby, according to the present invention, a multi-channel LED lighting is irradiated on a gray target fixed to the floor, the illuminated gray target is photographed using a Scheimpflug Camera, and the images photographed are analyzed for each light and brightness, thereby quickly and accurately checking the uniformity and whether there are any defects of multi-channel LED lighting used for exterior inspection equipment with a relatively simple configuration and low cost, and a uniformity measuring device for multi-channel LED lighting and a uniformity measuring method for multi-channel LED lighting using the same are provided, thereby solving the problems of lighting inspection devices and methods of the prior art that had limitations in that a device or method for checking whether there are any defects in multi-channel LED lighting devices applied as lighting for exterior inspection equipment was not presented.

In addition, according to the present invention, a uniformity measuring device for multi-channel LED lighting and a uniformity measuring method for multi-channel LED lighting using the same are provided, which are configured to quickly and accurately check for defects in multi-channel LED lighting used in exterior inspection equipment with a relatively simple configuration and low cost as described above, thereby solving problems of lighting inspection devices and methods of the prior art, which were inefficient in terms of time and cost due to the relative complexity of the configuration for measuring the performance of lighting equipment.

In addition, according to the present invention, a uniformity measuring device for multi-channel LED lighting and a uniformity measuring method for multi-channel LED lighting using the same are provided, which are configured to measure the lighting uniformity of multi-channel LED lighting as described above to inspect for defects in lighting, thereby enabling consistency of inspection results to be maintained by using lighting having uniform brightness for exterior inspection equipment using the same multi-channel LED lighting based on the inspection results, thereby increasing the accuracy and reliability of the exterior inspection and inspection equipment.

Hereinafter, through the embodiments of the present invention as described above, the detailed contents of the uniformity measuring device for multi-channel LED lighting and the uniformity measuring method for multi-channel LED lighting using the same according to the present invention have been described. However, the present invention is not limited to the contents described in the embodiments above, and therefore, it will be obvious that the present invention can be modified, changed, combined, and replaced in various ways, etc., by a person having ordinary knowledge in the technical field to which the present invention pertains, depending on design needs and other various factors.

10. Multi-channel LED lighting uniformity measuring device
11. Lighting installation section 12. Light irradiation section
13. Image acquisition unit 14. Control unit
21. Multi-channel LED lighting

Claims (8)

In a uniformity measuring device for multi-channel LED lighting,
A lighting installation unit for installing multi-channel LED lighting to be measured;
A light irradiation unit on which light from the multi-channel LED light fixed to the above lighting installation unit is irradiated;
An image acquisition unit including a camera for photographing the light-irradiated portion on which light has been irradiated; and
It is configured to include a control unit that controls the overall operation of the above measuring device and performs processing to analyze the image captured by the image acquisition unit to determine whether the multi-channel LED lighting is defective.
The above control unit,
The lighting controller is further configured to remotely control the operation of the multi-channel LED lighting installed in the lighting installation section by channel and brightness, and the operation of the multi-channel LED lighting is controlled by each channel and brightness, and processing is performed to acquire images by each channel and brightness for the multi-channel LED lighting and analyze the brightness and uniformity.
The above control unit,
For all LED channels of the above multi-channel LED lighting, the intensity of the lighting is adjusted so that the brightness of the image becomes 100, and the image for each channel is received.
For each received image, the outermost 100 pixels are excluded and the remaining area is divided into a 10×10 array.
Uniformity is calculated for each channel by calculating the average brightness of each divided area and finding the ratio of the highest average brightness to the lowest average brightness.
A uniformity measuring device for multi-channel LED lighting, characterized in that it is configured to perform processing for determining whether the multi-channel LED lighting is defective according to predetermined criteria based on each uniformity produced.
In paragraph 1,
The above lighting installation part,
A uniformity measuring device for multi-channel LED lighting, characterized in that it comprises a fixing jig formed so that the size and position can be adjusted so that various multi-channel LED lighting devices can be mounted and fixed.
In paragraph 1,
The above light irradiation unit,
A uniformity measuring device for multi-channel LED lighting, characterized in that it comprises a gray target formed in the shape of a flat rectangular or square plate having a predetermined area and fixedly placed on the floor surface so that the light of the multi-channel LED lighting fixed to the lighting installation unit is vertically incident.
In the third paragraph,
The above video acquisition unit,
A multi-channel LED lighting uniformity measuring device comprising a camera module including a camera and a lens, and characterized in that the camera module is installed to view the gray target at a predetermined angle from one side of the lighting installation unit or the light irradiation unit.
In paragraph 4,
A multi-channel LED lighting uniformity measuring device characterized in that the above camera is configured using a Scheimpflug camera.
delete delete In the uniformity measurement method of multi-channel LED lighting,
An installation step in which processing is performed to install a multi-channel LED light to be measured on a measuring device;
A measuring step in which processing is performed to capture images of each channel of the multi-channel LED lighting to be measured through the measuring device; and
It is configured to include an analysis step in which each image captured in the above measurement step is analyzed to calculate the uniformity of the multi-channel LED lighting to be measured and to determine whether there is a defect.
The above measuring device,
A method for measuring the uniformity of multi-channel LED lighting, characterized in that it is configured using a uniformity measuring device for multi-channel LED lighting as described in any one of claims 1 to 5.