KR102283679B1 - Led lamp measuring system for vehicle - Google Patents

Abstract

According to the present invention, the screen unit 110 including a screen 111 that is disposed opposite to the vehicle LED lamp 10 mounted on the vehicle and spaced apart by a predetermined distance, the LED light irradiated from the vehicle LED lamp 10 is incident on the surface. ); a divergence direction alignment unit 120 used to align the light divergence direction of the vehicle LED lamp 10 and the surface of the screen 111 to face each other in a vertical direction on a horizontal plane; a plurality of illuminance sensing units 130 disposed at each set point position on the surface of the screen 111 to detect an illuminance component of the LED light incident at each point position; and an arithmetic module 140 for collecting the detection data of each illuminance sensing unit 130 and calculating result data for the color distribution of the LED light emitted from the vehicle LED lamp 10; a vehicle LED lamp measurement system including a is initiated.

Description

Vehicle LED lamp measurement system {LED LAMP MEASURING SYSTEM FOR VEHICLE}

The present invention relates to a vehicle LED lamp measurement system, and more particularly, it is possible to measure the color distribution state for each angle of the vehicle LED lamp as well as the illuminance distribution of the vehicle LED lamp mounted on the vehicle, so that the performance of the vehicle LED lamp is substantially improved. It relates to a vehicle LED lamp measurement system that provides data that can be objectively evaluated.

In general, vehicle lamps mounted on vehicles provide lighting in the driving direction at night or in bad weather to enable safe operation, so performance testing during manufacturing or product development is important.

Vehicle lamps are divided into halogen and LED according to the type of light source. First, for the halogen vehicle lamp, for performance test, a detector connected with a spectrum meter is placed at a location about 25m apart to measure the candela value of halogen light from the spectrum meter and measure the illuminance. The performance test is carried out by converting the unit into Lux and checking whether it is stipulated in the International Automobile Light Distribution Regulations (or European Vehicle Light Distribution Regulations).

However, unlike halogen, LED has a problem in that it is not recognized or recognized as a different color depending on the location of an object during actual driving because the displayed color is different even if the illuminance conforms to the law.

Nevertheless, even in the case of the conventional LED, since the performance test is performed based only on the suitability of the candela value for each angle in the same way, there is a problem in that visibility during driving is lowered and a vehicle accident occurs.

Laid-Open Patent Publication No. 10-2015-0008014 (2015.01.21), headlamp evaluation method.

The present invention was created to solve the above problems, and an object of the present invention is to provide data on the color distribution for each angle as well as the illuminance distribution for each angle of the vehicle LED lamp, thereby securing the visibility and safety of the vehicle LED lamp. The goal is to provide a vehicle LED lamp measurement system that can prevent accidents in advance.

In the vehicle LED lamp measurement system according to the present invention for achieving the above object, the LED light irradiated from the vehicle LED lamp 10 is oppositely disposed to be spaced apart from the vehicle LED lamp 10 mounted on the vehicle by a certain distance on the surface. a screen unit 110 including an incident screen 111; a divergence direction alignment unit 120 used to align the light divergence direction of the vehicle LED lamp 10 and the surface of the screen 111 to face each other in a vertical direction on a horizontal plane; a plurality of illuminance sensing units 130 disposed at each set point position on the surface of the screen 111 to detect an illuminance component of the LED light incident at each point position; and an arithmetic module 140 that collects the sensing data of each illuminance sensing unit 130 and calculates result data for the color distribution of the LED light emitted from the vehicle LED lamp 10 .

Here, the illuminance sensing unit 130 includes an illuminance meter for detecting the amount of incident LED light, and a spectrum meter for generating spectral data of the incident LED light, and the operation module 140 includes the sensing data of the illuminance meter. can be used to measure the illuminance value of the LED light incident for each point position, and generate a spectrum image using the spectrum data of the spectrum meter.

In addition, the diverging direction alignment unit 120 includes a distance sensor 122 that emits a laser beam, an alignment target 123 , and a laser beam of the distance sensor 122 on the surface of the screen 111 and A first leveler 121 including a body portion 124 mounted on the screen portion 110 to be irradiated in a vertical direction, and a distance sensor 126 that emits a laser beam, an alignment target 127 and , the vehicle LED lamp 10 or the vehicle LED lamp 10 is mounted so that the laser beam of the distance sensor 126 is irradiated in a direction perpendicular to the vehicle, the lamp holder 150 or the vehicle LED lamp 10 is and a second leveler 125 including a body portion 128 mounted on a mounted vehicle, wherein the laser beam of the distance sensor 122 of the first leveler 121 is aligned with the second leveler 125 . When the citation target 127 is irradiated to the alignment position and the laser beam of the distance sensor 126 of the second leveler 125 is irradiated to the alignment position of the alignment target 123 of the first leveler 121, the screen The unit 110 and the vehicle LED lamp 10 may be arranged to face each other in front.

In addition, the vehicle LED lamp 10 is mounted and the lamp holder 150 for adjusting the irradiation direction of the vehicle LED lamp 10 according to a manual or control signal; further comprising, the second leveler 125 is It may be mounted on the lamp holder 150 .

In addition, the plurality of illuminance sensing units 130, based on the light divergence center line of the LED lamp 10 for the vehicle, are located at the set point positions defined in International Automobile Light Distribution Regulations (or European Vehicle Light Distribution Regulations) Ece 112 or 123, respectively. can be placed.

In addition, the operation module 140 may calculate the LED light color value for each point position and display each LED light color value on the display.

In addition, the calculation module 140 may compare the calculated LED light color value for each point position with reference data, and display the degree of excess or lack of the light color value for each point position as a numerical value.

In addition, the screen unit 110, the support plate 112 made of a plate shape having a certain area is horizontally disposed on the ground, the horizontal support frame 113 is horizontally disposed and connected to each support plate 112, the support plate The lower end is rotatably mounted to (112) and the vertical frame 114 which is arranged upright, the upper horizontal frame 115 which is horizontally arranged and connected to the upper end of each vertical frame 114, and each vertical frame which is horizontally arranged ( It further includes a lower horizontal frame 116 connected to the lower portion of the 114, the screen 111 is mounted on the vertical frame 114, the upper horizontal frame 115 and the lower horizontal frame 116, the support plate ( 112), each of the frames 113, 114, 115, and the screen 111 may be detachably mounted to each other.

In addition, a height aligning unit 160 for aligning the height of the reference point P in the light divergence direction set on the screen 111 and the height of the vehicle LED lamp 10 to be disposed on the same horizontal line; can

In addition, the height alignment unit 160 is disposed between the vehicle LED lamp 10 and the screen 111, and irradiates a laser beam toward the screen 111 on one side of the reference point P in the light divergence direction. A first irradiation unit 161 for indicating a position is disposed, and on the other side, a laser beam is irradiated toward the vehicle LED lamp 10 so that the vehicle LED lamp 10 is aligned on the same horizontal line as the light divergence direction reference point P A second irradiation unit 162 indicating a position to become may be disposed.

On the other hand, the second irradiation unit 162 irradiates a laser beam toward the light divergence center mark 11 formed on the surface of the vehicle LED lamp 10 to irradiate the light divergence direction and the irradiated light of the vehicle LED lamp 10 . The laser beam can be directed to be aligned on the same horizontal line.

According to the vehicle LED lamp measurement system according to the present invention,

First, the screen unit 110 is provided with a screen 111 that is disposed opposite to the vehicle LED lamp 10 mounted on the vehicle and spaced apart by a certain distance so that the LED light irradiated from the vehicle LED lamp 10 is incident on the surface, The divergence direction aligning unit 120 is used to align the light emitting direction of the vehicle LED lamp 10 and the surface of the screen 111 to be perpendicular, and the plurality of illuminance sensing units 130 is the surface of the screen 111 . It is arranged at each set point position on the image to detect the spectrum of the LED light incident for each point position, and the operation module 140 collects the sensing data of each illuminance detection unit 130 and emits light from the vehicle LED lamp 10 . By calculating the result data on the color distribution of the LED light that there is.

In addition, the diverging direction alignment unit 120 includes a distance sensor 122 that emits a laser beam, an alignment target 123 , and a laser beam of the distance sensor 122 on the surface of the screen 111 and A first leveler 121 including a body portion 124 mounted on the screen portion 110 so as to be irradiated in a vertical direction;

A distance sensor 126 that emits a laser beam, an alignment target 127, and the vehicle LED lamp 10 or vehicle LED lamp ( 10) including a second leveler 125 including a body portion 128 mounted on a vehicle equipped with a lamp holder 150 or a vehicle LED lamp 10 mounted thereon, and the first leveler 121 The laser beam of the distance sensor 122 of When the alignment position of the alignment target 123 of the leveler 121 is irradiated, it can be recognized that the screen unit 110 and the vehicle LED lamp 10 are aligned to face each other in front, so the screen 111 and the vehicle The LED lamp 10 can be precisely aligned with each other.

Third, the operation module 140 can accurately recognize and classify the LED light color for each point position by calculating the LED light color value for each point position and displaying each LED light color value on the display.

Fourth, the calculation module 140 compares the calculated LED light color value for each point position with reference data, and displays the degree of excess or lack of the light color value for each point position as a numerical value to intuitively determine the degree of deviation from the appropriate level. can be recognized as

Fifth, the screen unit 110 is formed in the form of a plate having a predetermined area and is horizontally disposed on the ground. The lower end is rotatably mounted to (112) and the vertical frame 114 which is arranged upright, the upper horizontal frame 115 which is horizontally arranged and connected to the upper end of each vertical frame 114, and each vertical frame which is horizontally arranged ( It further includes a lower horizontal frame 116 connected to the lower portion of the 114, the screen 111 is mounted on the vertical frame 114, the upper horizontal frame 115 and the lower horizontal frame 116, the support plate ( 112), each frame (113, 114, 115) and the screen 111 are mutually detachably mounted, so there is no restriction on the measurement location, and storage or movement is easy.

1 is a schematic diagram showing the configuration of a vehicle LED lamp measurement system according to a preferred embodiment of the present invention;
2 is a perspective view showing the configuration of an alignment unit according to a preferred embodiment of the present invention;
3 is a perspective view for explaining the operating principle for aligning through the first leveler and the second leveler according to a preferred embodiment of the present invention;
4 to 9 are perspective views showing an installation process of a screen unit according to a preferred embodiment of the present invention;
10 is a perspective view illustrating a state in which the screen unit is separated and loaded according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings. Prior to this, the terms or words used in the present specification and claims should not be construed as being limited to their ordinary or dictionary meanings, and the inventor should properly understand the concept of the term in order to best describe his invention. Based on the principle that can be defined, it should be interpreted as meaning and concept consistent with the technical idea of the present invention.

Therefore, the configuration shown in the embodiments and drawings described in the present specification is only the most preferred embodiment of the present invention and does not represent all of the technical spirit of the present invention, so at the time of the present application, various It should be understood that there may be equivalents and variations.

The vehicle LED lamp measurement system according to a preferred embodiment of the present invention can provide data on the color distribution for each angle as well as the illuminance distribution for each angle of the vehicle LED lamp, thereby securing the visibility of the vehicle LED lamp and preventing safety accidents in advance. As shown in FIG. 1 , the measurement system includes a screen unit 110 , a diverging direction alignment unit 120 , a plurality of illuminance sensing units 130 , and an operation module 140 .

First, the screen unit 110 is disposed opposite to the vehicle LED lamp 10 mounted on the vehicle and spaced apart by a predetermined distance, and includes a screen 111 on which the LED light irradiated from the vehicle LED lamp 10 is incident on the surface. . Here, the predetermined distance may be, for example, a measurement distance prescribed by law, such as 25 m, but is not limited thereto, and may be determined as a separation distance necessary for measuring the illuminance, spectrum, and light color distribution of the vehicle LED lamp 10 . In addition, the vehicle LED lamp 10 is mounted on a vehicle, such as a fog lamp, a turn indicator lamp, a tail lamp, a reverse lamp, including a head lamp, and may include various lamps using an LED as a light source.

The divergence direction alignment unit 120 is a means used to align the light divergence direction of the vehicle LED lamp 10 and the surface of the screen 111 to be perpendicular, and as shown in FIGS. 2 and 3 , the laser beam The diverging distance sensor 122, the alignment target 123, and the laser beam of the distance sensor 122 are mounted on the screen unit 110 so that the laser beam is irradiated in a direction perpendicular to the surface of the screen 111. A first leveler 121 including a body portion 124, a distance sensor 126 emitting a laser beam, an alignment target 127, and a laser beam of the distance sensor 126 is perpendicular to the vehicle. A product comprising a body portion 128 mounted on a vehicle in which the vehicle LED lamp 10 or vehicle LED lamp 10 is mounted or the vehicle LED lamp 10 is mounted so as to be irradiated in the direction. 2 levelers 125 are included.

In addition, the laser beam of the distance sensor 122 of the first leveler 121 is irradiated to the alignment position of the alignment target 127 of the second leveler 125, and the distance sensor of the second leveler 125 ( When the laser beam of 126) is irradiated to the alignment position of the alignment target 123 of the first leveler 121, it is recognized that the screen unit 110 and the vehicle LED lamp 10 are aligned to face each other in front. Therefore, it is possible to precisely align the screen 111 and the vehicle LED lamp 10 with each other.

The plurality of illuminance sensing units 130 are disposed at respective set point positions on the surface of the screen 111 to detect illuminance components such as illuminance and spectrum of the LED light incident at each point position. Here, the plurality of illuminance sensing units 130 may be respectively disposed on the screen 111 at set point positions stipulated in International Vehicle Light Distribution Regulations (or European Vehicle Light Distribution Regulations) Ece 112 or 123 .

The calculation module 140 collects the sensing data of each illuminance sensing unit 130 and calculates result data for the color distribution of the LED light emitted from the vehicle LED lamp 10 .

Here, the calculation module can perform data calculation processing like a PC or a notebook computer, and data processing means having various input and output methods can be used, and the calculated result data is displayed on the screen or printed out through a connected printer (not shown). can be output as

In addition, the illuminance sensing unit 130 may include an illuminance meter for detecting the amount of the incident LED light, and a spectrum meter for generating spectrum data of the incident LED light. In addition, the operation module 140 may measure the illuminance value of the LED light incident at each point position using the sensing data of the illuminance meter, and may generate a spectrum image using the spectrum data of the spectrum meter.

In addition, the operation module 140 can accurately recognize and distinguish the color of the LED light for each point position by calculating the LED light color value for each point position and displaying each LED light color value on the display.

And, the calculation module 140 compares the calculated LED light color value for each point position with reference data, and displays the degree of excess or lack of the light color value for each point position as a numerical value to intuitively determine the degree of deviation from the appropriate level. can be recognized as

On the other hand, the screen unit 110 is provided to be installed and detached so that it is not limited by a measurement location and can be easily stored or moved.

To this end, as shown in FIGS. 4 to 9 , the screen unit 110 is formed in the form of a plate having a predetermined area and is horizontally disposed on the ground with a support plate 112 , and is horizontally disposed and connected to each support plate 112 . A horizontal frame 113 of the supporting part to be formed, a vertical frame 114 that is rotatably mounted at the bottom of the support plate 112 and disposed upright, and an upper horizontal frame that is horizontally disposed and connected to the top of each vertical frame 114 ( 115) and a lower horizontal frame 116 disposed horizontally and connected to a lower portion of each vertical frame 114, wherein the screen 111 includes a vertical frame 114, an upper horizontal frame 115, and a lower horizontal frame. It is mounted on the frame 116 .

Here, the support plate 112, each of the frames 113, 114, 115, and the screen 111 are mutually detachably mounted, so that they are not limited by the measurement location and have the advantage of easy storage or movement.

In addition, as shown in FIG. 10, the support plate 112, each frame 113, 114, 115, and screen 111 have their extended lengths to match each standard, so that they can be loaded in a box shape to facilitate transport and storage. there is.

By each configuration and function of the vehicle LED lamp measurement system according to the preferred embodiment of the present invention as described above, the screen unit 110 is disposed opposite to the vehicle LED lamp 10 mounted on the vehicle and spaced apart from the vehicle by a predetermined distance. A screen 111 on which the LED light irradiated from the LED lamp 10 is incident on the surface is provided, and the divergence direction alignment unit 120 has a vertical direction between the light divergence direction of the vehicle LED lamp 10 and the surface of the screen 111 . The plurality of illuminance sensing units 130 are arranged at each set point position on the surface of the screen 111 to detect the spectrum of the LED light incident at each point position, and the operation module 140 By collecting the detection data of each illuminance sensing unit 130 and calculating the result data on the color distribution of the LED light emitted from the vehicle LED lamp 10, the illuminance distribution for each angle of the vehicle LED lamp as well as the color distribution for each angle It is possible to provide data on the vehicle, so it is possible to secure the visibility of LED lamps for vehicles and prevent safety accidents in advance.

On the other hand, by using the diverging direction alignment unit 120, the light emission direction of the vehicle LED lamp 10 and the surface of the screen 111 can be aligned to face each other in the vertical direction on the horizontal plane, but the vehicle LED lamp 10 When the light divergence direction reference point P set on the screen 111 for measurement and the vehicle LED lamp 10 are disposed at different heights, the emission direction of the vehicle LED lamp 10 is irradiated in an upward or downward state Therefore, it is necessary to align the vehicle LED lamp 10 and the reference point P in the light divergence direction to have the same height.

To this end, in the vehicle LED lamp measurement system according to a preferred embodiment of the present invention, as shown in FIG. 11 , the height of the reference point P in the light divergence direction set on the screen 111 and the height of the vehicle LED lamp 10 . It may further include a height aligning unit 160 used to align so as to be arranged on the same horizontal line.

Here, the height alignment unit 160 is disposed between the vehicle LED lamp 10 and the screen 111, and irradiates a laser beam toward the screen 111 on one side of the reference point P in the light divergence direction. A first irradiation unit 161 for indicating a position is disposed, and on the other side, a laser beam is irradiated toward the vehicle LED lamp 10 so that the vehicle LED lamp 10 is aligned on the same horizontal line as the light divergence direction reference point P A second irradiation unit 162 indicating a position to become is disposed.

In addition, in general, the vehicle LED lamp is formed with a light divergence center mark 11 for indicating the central position of the light divergence direction during manufacturing, and the second irradiation unit 162 is on the surface of the vehicle LED lamp 10 . By irradiating the laser beam toward the light divergence center mark point (A) formed in the light divergence direction of the vehicle LED lamp 10 and the irradiated laser beam can be instructed to be aligned on the same horizontal line.

As described above, although the present invention has been described with reference to limited embodiments and drawings, the present invention is not limited thereto, and the technical spirit of the present invention and the following by those of ordinary skill in the art to which the present invention pertains. It goes without saying that various modifications and variations are possible within the scope of equivalents of the claims to be described.

10... LED lamp for vehicle 110... Screen unit
111... Screen 120... Alignment
121... Level 1 122... Level 2
130... spectrum meter 140... calculation module

Claims (11)

A screen unit 110 including a screen 111 that is disposed opposite to the vehicle LED lamp 10 mounted on the vehicle and spaced apart by a predetermined distance, the LED light irradiated from the vehicle LED lamp 10 is incident on the surface;
A distance sensor 122 emitting a laser beam, an alignment target 123, and the screen unit 110 so that the laser beam of the distance sensor 122 is irradiated in a direction perpendicular to the surface of the screen 111 A first leveler 121 including a body portion 124 mounted on a vehicle, a distance sensor 126 that emits a laser beam, an alignment target 127, and a laser beam of the distance sensor 126 are and a body portion 128 mounted on a vehicle in which the vehicle LED lamp 10 or the vehicle LED lamp 10 is mounted or the vehicle LED lamp 10 is mounted so as to be irradiated in a vertical direction. Divergence direction alignment unit 120 having a second leveler 125 including;
a plurality of illuminance sensing units 130 disposed at each set point position on the surface of the screen 111 to detect an illuminance component of the LED light incident at each point position; and
A calculation module 140 that collects the sensing data of each illuminance sensing unit 130 and calculates result data for the color distribution of the LED light emitted from the vehicle LED lamp 10; includes;
The laser beam of the distance sensor 122 of the first leveler 121 is irradiated to the alignment position of the alignment target 127 of the second leveler 125, and the distance sensor 126 of the second leveler 125 When the laser beam of the first leveler 121 is irradiated to the alignment position of the alignment target 123, the screen unit 110 and the vehicle LED lamp 10 are aligned to face each other in front. LED lamp measuring system.
The method according to claim 1,
The illuminance sensing unit 130 includes an illuminance meter for detecting the amount of incident LED light, and a spectrum meter for generating spectral data of the incident LED light,
The operation module 140,
A vehicle LED lamp measuring system, characterized in that by using the detection data of the illuminometer, the illuminance value of the LED light incident at each point position is measured, and a spectrum image is generated using the spectrum data of the spectrum meter.
delete The method according to claim 1,
The vehicle LED lamp 10 is mounted and the lamp holder 150 for adjusting the irradiation direction of the vehicle LED lamp 10 according to a manual or control signal; further comprising,
The second leveler (125) is a vehicle LED lamp measurement system, characterized in that mounted on the lamp support (150).
The method according to claim 1,
The plurality of illuminance sensing units 130,
LED lamp measurement system for a vehicle, characterized in that it is respectively disposed at the set point positions stipulated in the International Automobile Light Distribution Regulations or European Vehicle Light Distribution Regulations Ece 112 or 123 based on the light divergence center line of the vehicle LED lamp (10).
The method according to claim 1,
The operation module 140,
A vehicle LED lamp measuring system, characterized in that it calculates the LED light color value for each point position and displays each LED light color value on the display.
7. The method of claim 6,
The operation module 140,
A vehicle LED lamp measurement system, characterized in that by comparing the calculated LED light color value for each point position with reference data, the degree of excess or deficiency of the light color value for each point position is displayed numerically.
The method according to claim 1,
The screen unit 110,
A support plate 112 formed in the form of a plate having a certain area and horizontally disposed on the ground;
A horizontal support frame 113 that is horizontally arranged and connected to each support plate 112, and
A vertical frame 114 with a lower end rotatably mounted on the support plate 112 and arranged upright;
An upper horizontal frame 115 that is horizontally arranged and connected to the upper end of each vertical frame 114, and,
Further comprising a lower horizontal frame 116 that is horizontally arranged and connected to the lower portion of each vertical frame 114,
The screen 111 is mounted on a vertical frame 114, an upper horizontal frame 115 and a lower horizontal frame 116,
The support plate (112), each frame (113, 114, 115) and the screen (111) is a vehicle LED lamp measuring system, characterized in that the mutually detachably mounted.
9. The method according to any one of claims 1, 2, 4 to 8,
A height aligning unit 160 used to align the height of the reference point P in the light divergence direction set on the screen 111 and the height of the vehicle LED lamp 10 to be disposed on the same horizontal line; LED lamp measurement system for vehicles.
10. The method of claim 9,
The height alignment unit 160,
It is disposed between the vehicle LED lamp 10 and the screen 111,
A first irradiation unit 161 is disposed on one side to irradiate a laser beam toward the screen 111 to indicate the position of the reference point P in the light divergence direction,
A second irradiation unit 162 is disposed on the other side to irradiate a laser beam toward the vehicle LED lamp 10 to indicate a position for the vehicle LED lamp 10 to be aligned on the same horizontal line as the light divergence direction reference point P. A vehicle LED lamp measurement system, characterized in that it has been
11. The method of claim 10,
The second irradiation unit 162 irradiates a laser beam toward the light divergence center mark 11 formed on the surface of the vehicle LED lamp 10 to irradiate the light divergence direction and the irradiated laser beam of the vehicle LED lamp 10 . LED lamp measurement system for a vehicle, characterized in that instructing it to be aligned on the same horizontal line.

Images