KR102644340B1 - Edge-type backlight module and liquid crystal display device, backlight plate optical verification method - Google Patents

Abstract

In the edge-type backlight module and liquid crystal display device and backlight plate optical verification method, the backlight module includes a backlight plate main body, and the backlight plate main body is a first substrate used to support a light guide plate awaiting verification ( 1) and a second substrate (2) detachably connected to the first substrate (1), a light source moving module is installed on the second substrate (2), and a light source (4) is mounted on the light source moving module. . By configuring the light source (4) to move using the light source movement module and moving it along a direction perpendicular to it, the distance between the light source (4) and the light guide plate is adjusted, and the light entry side of the light guide plate is away from the light source. By avoiding the optical index failure phenomenon caused by distance issues, the rate of misjudgment of the light guide plate is lowered. In this process, there is no need to touch and move the light guide plate, and the light guide plate is not dirty or damaged due to scratches. This reduces losses and reduces costs. In addition, the backlight plate main body is not composed of an integrated structure, making it convenient for transportation.

Description

Edge-type backlight module and liquid crystal display device, backlight plate optical verification method

This disclosure belongs to the field of light guide plate optical verification, and specifically, an edge-type backlight module capable of adjusting the light bar distance and verifying light guide plate optics, a liquid crystal display device using the backlight module, and an edge-type display device. This relates to a backlight plate optical verification method using a backlight module.

As China's liquid crystal display industry develops rapidly, it has led to the development of numerous liquid crystal backlight module component production companies. Backlight modules are also divided into edge-type backlight and direct-type backlight. What this disclosure is aimed at is an edge-type backlight backlight module.

The main body member of the backlight module of the edge-type backlight is the light guide plate. The light guide plate must be printed with ink or dotting with a laser and then undergo optical verification. Optical verification is usually performed by placing the light guide plate printed with ink or dotting with a laser on a simple backlight module. , optical verification must be performed using BM-7. However, during the research process, the inventor found that the position fixing catch groove of the light guide plate and the position fixing pillar of the backlight module are usually configured with a loose fit (for ease of assembly, they cannot be designed with an interference fit), so that the light guide plate is not designed to fit the backlight. When placed on the module, the light entry side cannot be exactly close to the light bar of the backlight module and is kept at a certain distance, and if the positioning pillar becomes loose due to long-term use, the light entry side will still be exactly close to the light bar. I discovered that I couldn't do it. However, through many simulation experiments and actual measurements, the inventor found that the distance of the light entry side of the light bar and light guide plate is very important, so that if the distance between the light bar and light guide plate is a little far, the optical measurement value of the light guide plate is 300 nit to 500 nit ( BM-7 optical unit) was found to fall. This is fatal to the light guide plate, and may cause products that were originally accepted to fail after inspection due to the distance of the light bar. The selling price of each light guide plate varies from 50 to 1,500 yuan, which is a huge loss. In addition, when an experienced employee verifies the light guide plate, the intention is to reduce the distance between the light bar and the light entry side of the light guide plate by configuring the light guide plate to move in the direction of the light bar. In this case, Although the optical measurement value of the light guide plate can be increased, it is inevitable that the light guide plate will be touched and moved, and the light guide plate may become dirty, damaged, or damaged by scratches. In particular, 86 inches (1.9m*1.2m) Alternatively, a larger-sized light guide plate becomes fundamentally difficult to move. All of the above problems cause losses to companies.

This disclosure was created to solve the above-described shortcomings in the prior art, and its purpose is to provide an edge-type backlight module capable of adjusting the light bar distance and verifying light guide plate optics, and a liquid crystal display using the backlight module. The purpose is to provide a backlight plate optical verification method using a device and an edge-type backlight module.

The technical solution used in this disclosure is as follows.

An edge-type backlight module is provided, wherein the backlight module includes a backlight plate main body, and the backlight plate main body is separable from a first substrate and a first substrate used to support a light guide plate awaiting verification. It includes a second board connected to the second board, a light source moving module is installed on the second board, and a light source is mounted on the light source moving module.

The above technical solution configures the light source to move using a light source movement module and moves in a direction perpendicular to it, thereby adjusting the distance between the light source and the light guide plate, and eliminating the need to touch and move the light guide plate. Damage due to contamination or scratches does not occur, reducing losses and reducing costs. In addition, the backlight plate main body is not composed of an integrated structure, making it convenient for transportation.

Furthermore, the light source moving module consists of two light source supports installed symmetrically and configured to move the light source supports, and an L-type shifter lever used to move up and down, and an L-type shift lever to move the light source supports to form a fan shape. Includes a rotating device used to advance the movement.

Furthermore, the light source support includes a horizontal support rod and two longitudinal guide rods perpendicular to the horizontal support rod, the light source is mounted on the horizontal support rod, and the lower side of the horizontal support rod is L-shaped. Two U-shaped guide members used to match the shift lever are installed symmetrically, and long rod-shaped through holes are opened along the horizontal direction on both walls of each guide member.

Furthermore, a U-shaped positioning member used to limit the movement position of the longitudinal guide rod is installed on the second substrate at a position corresponding to the longitudinal guide rod, and the longitudinal guide rod is a U-shaped positioning member. It is located inside the cavity formed between the member and the second substrate.

The above technical solution uses a U-shaped positioning member to limit the direction and position in which the light source support moves, so that the light source support moves along a direction perpendicular to it. Furthermore, the light source is configured to move so that it moves perpendicular to the light source support. By allowing it to move along the direction and adjusting the distance between the light source and the light entry side of the light guide plate, the rate of misjudgment, uncleanness, and scratch damage of the light guide plate can be greatly reduced. Sometimes, the finished product of the light guide plate is passed, but the light is damaged. When measuring the guide plate, the distance between the light entry side and the light bar is not appropriate, which lowers the optical measurement value of the light guide plate and causes misjudgment of the finished light guide plate product. In contrast, this disclosure uses a light source movement module to provide a light source. By configuring it to move and moving in a direction perpendicular to it, the distance between the light source and the light entry side of the light guide plate is adjusted, and further, the rate of misjudgment of the light guide plate is greatly reduced.

Furthermore, a rotation axis is installed on the second board at a position corresponding to the L-type shift lever, and a connection point between the horizontal section and the vertical section of the L-type shift lever is installed on the rotation axis of the second board.

The above technical solution configures the L-type shift lever to conveniently perform fan-shaped movement using the rotation axis, and ensures that the L-type shift lever can rotate surrounding the rotation axis.

Furthermore, one end of the horizontal section of the L-shaped shift lever is provided with a protrusion that matches the U-shaped guide member, and the protrusion of the horizontal section of the L-shaped shift lever is located inside the through hole of the U-shaped guide member.

The above technical solution uses protrusions to match the U-shaped guide member, and when the L-shaped shift lever performs a fan-shaped movement, the light source support is supported or lowered through matching the protrusions and the guide member, thereby increasing the distance between the light source and the light guide plate. achieves the purpose of controlling.

Furthermore, the rotating device includes a rotating plate and a rotating button, and both sides of the rotating plate are connected to one end of the vertical section of the L-shaped shift lever through a connecting rod, respectively;

The rotation button is mounted on the rear side of the second board and is connected to the rotation plate through a connection shaft.

The above technical solution is configured to move the rotary plate by rotating it using the rotation button on the second substrate distribution, and the rotating plate is configured to move the L-shaped shift lever through the connecting rod to perform fan-shaped rotation, so that the light source It is convenient to lower the support by supporting it or moving it, and achieves the purpose of adjusting the distance between the light source and the light guide plate by moving and moving the light source through the light source support.

Furthermore, it further includes a light blocking module, wherein the light blocking module includes a cover plate installed on the outside of the light source moving module and a light blocking plate installed on the cover plate, both ends of the cover plate are fixedly connected to the second substrate, Both sides of the light blocking plate are clamped through edge fixing bars and fixed to the cover plate.

The above technical solution uses a light blocking plate to prevent the light emitted from the light source from overflowing, and uses a cover plate to prevent the light source moving module from leaving the second substrate.

The liquid crystal display device includes the edge-type backlight module and a light guide plate, and the light guide plate is fixed to the backlight plate main body and installed relative to the light source.

In the optical verification method of the light guide plate, the method is implemented based on the edge-type backlight module, and the method includes:

Mounting the light guide plate awaiting verification by fixing it to the first substrate;

Rotating the rotation button clockwise and configuring the rotation button to move the rotation plate;

Configuring the rotating plate to move two L-shaped shift levers through two connecting rods to surround the rotating shaft and perform fan-shaped movement;

A step in which the protrusions of the two L-shaped shift levers each perform a fan-shaped swing while simultaneously supporting the light source supporter;

Configuring the light source support to move the light source so that it moves in phase, so that the light source is close to the light entry side of the light guide plate;

Obtaining optical measurement values of the light guide plate by performing optical verification of the light guide plate using an optical measurement device of the backlight module; Includes.

This disclosure achieves the following technical effects through the above technical solution.

(1) This disclosure configures the light source to move using a light source movement module and moves in a direction perpendicular to it, thereby adjusting the distance between the light source and the light guide plate and avoiding touching and moving the light guide plate. This prevents damage from contamination and scratches, reduces losses, and reduces costs;

(2) The main body of this disclosure is not an integrated structure, but is composed of two boards that are separably connected, making it convenient for transportation; In addition, since these two boards use aluminum boards, they are convenient for heat dissipation and do not cause bending or deformation of the sheets;

(3) This disclosure is configured to move the rotating plate by rotating it using the rotation button on the second substrate distribution, and the rotating plate is configured to move the L-shaped shift lever through the connecting rod to form a fan shape. By rotating, it is convenient to support or move the light source supporter and lower it, and achieve the purpose of adjusting the distance between the light source and the light guide plate by moving and moving the light source through the light source supporter. The rate of misjudgment, uncleanness, scratches and damage can be greatly reduced and costs can be reduced.

The specification drawings, which form part of this disclosure, are used to further understand this disclosure, and the illustrative embodiments of this disclosure and their descriptions are used to interpret the present invention and do not unduly limit this disclosure.
1 is an overall structural diagram of an edge-type backlight module according to Embodiment 1;
Figure 2 is a structural diagram when the edge-type backlight module according to Example 1 is not configured with a cover plate;
Figure 3 is a partially enlarged explanatory view of the light source and light source support according to the first embodiment;
Figure 4 is an explanatory diagram of the structure of the light source support according to Embodiment 1;
Figure 5 is a structural diagram 1 of the light source moving module according to this embodiment 1;
Figure 6 is a structural diagram 2 of the light source moving module according to Example 1;
Figure 7 is a partially enlarged explanatory view of the light blocking module according to Example 1;
Figure 8 is a structural diagram of a rotation button according to Embodiment 1.

Hereinafter, the present disclosure will be further explained in combination with the drawings and this embodiment.

Above all, the following detailed description is all exemplary and is intended to further explain the present disclosure. Unless otherwise indicated, all technical and scientific terms used in this disclosure have the same meaning as commonly understood by those skilled in the art to which this disclosure pertains.

Above all, the terms used herein are only for the purpose of describing specific implementation methods and are not intended to limit the exemplary implementation methods according to the present application. For example, unless otherwise indicated in the sentence, the terms used herein are intended to include both singular and plural forms, and in addition, when the terms “include” and/or “inclusive” are used in this specification, It should also be understood that it refers to the presence of features, steps, operations, elements, assemblies and/or combinations thereof.

Example 1

This Embodiment 1 provides an edge-type backlight module, and the edge-type backlight module includes a backlight plate main body, a light source, a light source moving module, and a light blocking module.

As shown in FIG. 1, the backlight plate main body includes a first substrate 1 and a second substrate 2 used to fix and support a light guide plate awaiting verification, and the first substrate ( 1) and the second substrate 2 are detachably connected to form an accommodating space for other elements installing the backlight module, such as a light source, a light source moving module, and a light blocking module; The first substrate 1 and the second substrate 2, which are connected in a separable manner, do not have an integrated structure and can be separated during transportation, making transportation convenient.

As shown in Figures 2 and 3, the light source moving module is installed on the front side of the second substrate (2), and the light source moving module includes a light source supporter (5), a rotating plate (6), a connecting rod (7), It includes an L-type shift lever (8), a rotation axis (10) and a rotation button (14), and the light source (4) is installed on the light source support (5).

As shown in FIG. 4, the light source support 5 includes a horizontal support rod 51 and two longitudinal guide rods 52 perpendicular to the horizontal support rod, and the light source 4 is horizontal. It is installed on the directional support rod (51) and used to support the light source (4); Below the transverse support rod 51, two U-shaped guide members 53 installed in the transverse direction are further installed symmetrically, and the top sides of the two guide members 53 are provided with a transverse support rod 51. ), and the two guide members 53 are located between the two longitudinal supports 52, and each guide member 53 has long rod-shaped throughs along the horizontal direction on both walls. A hole 54 is opened and used to transmit movement by matching the protrusion of the L-type shift lever; An L-shaped shift lever 8 is installed inside each of the two connectors 53.

As shown in FIG. 5, a rotation axis 10 is installed on the second board at a position corresponding to the L-type shift lever 8, and is perpendicular to the horizontal section 81 of the L-type shift lever 8. The connection point of the section 82 is installed on the rotation axis 10 of the second board so that the L-type shift lever 8 can perform a fan-shaped movement surrounding the rotation axis 10, and the L-type shift lever 8 The horizontal section 81 is located inside the U-type connector 53, and the horizontal section 81 of the L-type shift lever 8 has two protrusions 83 symmetrically installed at one end away from the vertical section, The protrusion 83 is located inside the through hole 54 on both walls of the U-type connector 53 and is configured to slide inside the through hole 54, so that the L-type shift lever surrounds the rotation axis 10 and forms a fan shape. When moving, the protrusion 83 is used to support or lower the light source support 5, and the light source 4 moves along a direction perpendicular to the light source support 5, and the light source 4 moves along the direction perpendicular to the light source support 5. By adjusting the distance of the light entry side of the light guide plate assembly, the rate of misjudgment, uncleanness, scratches and damage to the light guide plate can be greatly reduced and costs can be reduced.

As shown in FIG. 6, through holes are formed on both sides of the rotating plate 6, and each through hole of the rotating plate is connected to the vertical section 82 of the L-type shift lever 8 through the connecting rod 8. It is used to move and rotate the L-type shift lever through a connecting rod by connecting it to one end of the horizontal end that is away from.

As shown in FIG. 7, the light blocking module includes a cover plate 13 and a light blocking plate 11, and the cover plate 13 is installed outside the light source moving module and fixed to the second substrate 2. By mounting it, it is not only used to prevent the light source moving module from leaving the second board (2), the light from overflowing at the light source point, and affecting the detection of the light guide plate, but also the light blocking plate (11). Also used for support; The light blocking plate 11 is installed on the cover plate 13, and both sides of the light blocking plate 11 are sandwiched by the edge fixing bars 13 and fixed to the cover plate 13, so that the light blocking plate is fixed to the cover plate and is easily removed. This prevents the light emitted by the light source from overflowing.

As shown in FIG. 7, the rotation button 14 is mounted on the rear side of the second board 2, the rotation button 14 is connected to the rotation plate through a connection shaft, and the rotation button 14 When this rotates, the rotating plate (6) rotates, and the connecting rod (7) is configured to move the L-shaped shift lever to surround the rotating shaft (10) and perform fan-shaped movement, and the protrusion (83) of the L-shaped shift lever The light source supporter 5 is supported or lowered so that the light source 4 moves along a direction perpendicular to the light source supporter 5, and the distance between the light source and the first and second substrates is adjusted to make the light source light. Be sure to get close to the light entry side of the guide plate.

When using the edge-type backlight module submitted in this embodiment, the light guide plate waiting for verification is fixed to the first board by a plurality of positioning pins (3) and mounted, and the rotation button (14) is rotated clockwise. The rotary plate (6) is configured to move and rotate, and the L-shaped shift lever is configured to move through the connecting rod (7) to surround the rotating shaft (10) and perform fan-shaped movement, and the L-shaped shift lever The protrusion 83 supports the light source support 5 so that the light source 4 moves in phase along a direction perpendicular to the light source support 5, and the light source is positioned on the light entry side of the light guide plate. Make sure to get close.

The edge-type backlight module submitted in this embodiment is configured to move the rotary plate 6 by rotating the rotation button 14 on the rear side of the second substrate to rotate it, and the rotary plate 6 and the L-type shift lever 8 ) are connected to each other through the connecting rod (7), and when the rotating plate (6) rotates, the L-type shift lever (8) also performs a fan-shaped movement, and the protrusion of the L-type shift lever (8) performs a fan-shaped swing. and the light source support 5 is configured to move so as to move upward or downward, and finally, the light source 4 is configured to move upward or downward. In this embodiment, the light source 4 is moved through the rotational movement of the rotation button. It is converted to linear movement, and the light source is adjusted so that it is close to the light entry side of the light guide plate.

Above all, the first substrate 1 is used to support and fix the light guide plate awaiting verification using an aluminum substrate, and the second substrate 2 is also used to support the light guide plate using an aluminum substrate. This also achieves good heat dissipation, and the light source 4 generates a large amount of heat when emitting light, so if heat is not dissipated, bending and deformation of the plate occur. Therefore, in this embodiment, the first substrate (1 ) and the second substrate can each use an aluminum substrate to achieve good heat dissipation.

The first board (1) and the second board (2) can be connected together through bolts, and if transportation is required, the first board (1) and the second board (2) can be separated by unscrewing the bolts for transportation. It is convenient to do

Above all, in this embodiment, the light source 4 uses an LED light bar as a light source for the entire backlight module, the light bar is installed by fixing it to the light source supporter 5, and the L-type shift lever (8) ) surrounds the rotation axis (10) and performs a fan-shaped movement, the protrusion (83) of the L-type shift lever (8) supports or lowers the light source support (5) so that the light bar is attached to the light source support (5). It can be made to move along a vertical direction, and by adjusting the distance of the light entry side of the light bar and light guide plate assembly, the rate of misjudgment, contamination, and scratches of the light guide plate can be greatly reduced, reducing losses and reducing costs. You can save money.

As shown in FIG. 5, the second substrate submitted in this embodiment includes a device that defines the movement position of the longitudinal guide rod 52 at a position corresponding to the longitudinal guide rod 52 of the light source support 5. A U-shaped positioning member (9) is installed and used to define the position at which the light source support (5) moves up and down. In this embodiment, the U-shaped positioning member 9 is mounted on the first aluminum substrate 3 through screws, and one piece is placed between the U-shaped positioning member 9 and the second aluminum substrate 3. A cavity is formed, and the longitudinal guide rod 52 of the light source support 5 is located in the cavity, and the longitudinal guide rod 52 can move along the direction defined by the U-shaped positioning member 9. .

Example 2

This embodiment provides a liquid crystal display device, the liquid crystal display device includes a light guide plate and the edge-type backlight module, and the light guide plate is fixed to the first substrate (1) to be relative to the light source (4). Install.

Here, the specific structure of the edge-type backlight module according to the present embodiment refers to the related description of the previous embodiment, and is not repeated here.

Above all, in this embodiment, the light guide plate is fixed and mounted on the first substrate through a plurality of position fixing pins (3), and in this embodiment, the light guide plate is fixed using a plurality of position fixing pins (3). It is fixed to the first board, and the positioning pin (1) and the catching groove of the light guide plate are matched to each other to ensure that the light guide plate does not shake on the first board.

Example 3

This embodiment provides a light guide plate optical verification method, and the method is implemented based on the edge-type backlight module, and the method includes:

Step S101 of mounting the light guide plate waiting for verification by fixing it to the first substrate through a plurality of position fixing pins;

Step S102 of rotating the rotation button clockwise and configuring the rotation button to move the rotation plate (6);

Step S103 in which the rotating plate is configured to move the two L-shaped shift levers (8) through the two connecting rods (7) to surround the rotating shaft (10) and perform fan-shaped movement;

Step S104 in which the protrusions 83 of the two L-shaped shift levers each perform a fan-shaped swing while simultaneously supporting the light source support 5;

Step S105 in which the light source support 5 is configured to move the light source 4 so that it moves in phase along a direction perpendicular to the light source support 5, so that the light source is close to the light entry side of the light guide plate;

Step S106 of obtaining optical measurement values of the light guide plate by conducting optical verification of the light guide plate using the optical measuring device BM-7 of the backlight module; Includes.

In detail, the optical verification performed on the light guide plate in step 106 is implemented using the following method.

After the light source approaches the light guide plate, it is covered with a composite film, mainly including a composite film of some optical films such as prism film, diffusion film, etc.;

The observation lens of the backlight module optical measuring instrument BM-7 is placed in close contact with the position after the composite film is covered, the optical data observed by the BM-7 instrument is analyzed and recorded, and any obvious external defects on the light guide plate (e.g., In a situation where there is no damage (damage due to scratches, staining), if some optical data reaches the standard, it is judged as a passing product. On the other hand, if it does not reach the standard, it is judged as a defective product.

The light guide plate optical verification method submitted by this embodiment is configured to move the rotating plate 6 by rotating the rotation button 14 on the rear side of the second substrate to rotate it, and the rotating plate 6 and the L-type shift lever ( 8) are connected to each other through the connecting rod (7), and when the rotating plate (6) rotates, the L-type shift lever (8) also performs a fan-shaped movement, and the protrusion of the L-type shift lever (8) performs a fan-shaped swing. By doing so, the light source support 5 is configured to move so as to move upward or downward, and finally, the light source 4 moves upward or downward. In this embodiment, the light source 4 is moved in a straight line through the rotational movement of the rotation button. After converting to movement and adjusting the light source to get close to the light entry side of the light guide plate, the backlight module optical measurement system BM-7 then performs optical verification of the light guide plate to ensure the accuracy of the optical measurement value of the light guide plate. to provide.

The backlight module of this disclosure can be applied to detect whether the light guide plate passes the optical index when the light guide plate manufacturer produces a light guide plate dotted with a laser or a light guide plate printed with ink. there is.

Although the above content is combined with the drawings to describe a specific implementation method of this disclosure, it does not limit the scope of protection of this disclosure, and those skilled in the art will be able to understand the basics of the technical solution according to this disclosure. It should be understood that various modifications or transformations that can be made immediately without the need for creative labor should still be included within the scope of protection of this disclosure.

Claims (10)

delete In the edge-type backlight module,
It includes a backlight plate main body, wherein the backlight plate main body includes a first substrate used to support a light guide plate awaiting verification and a second substrate detachably connected to the first substrate, and the second substrate is detachably connected to the first substrate. A light source moving module is installed on the substrate, and a light source is mounted on the light source moving module,
The light source moving module consists of two light source supports installed symmetrically, and is configured to move the light source supports, and an L-type shifter lever used to move up and down, and an L-type shift lever to move the fan-shaped movement. An edge-type backlight module characterized by including a rotating device used to do so. According to paragraph 2,
The light source support includes a horizontal support rod and two longitudinal guide rods perpendicular to the horizontal support rod, the light source is mounted on the horizontal support rod, and an L-shaped shift lever is provided below the horizontal support rod. An edge-type backlight module in which two U-shaped guide members used to match each other are installed symmetrically, and long bar-shaped through holes are opened along the horizontal direction on both walls of each guide member. According to paragraph 3,
A U-shaped positioning member used to limit the movement position of the longitudinal guide rod is installed on the second substrate at a position corresponding to the longitudinal guide rod, and the longitudinal guide rod is connected to the U-shaped positioning member. An edge-type backlight module characterized by being located inside a cavity formed between two substrates. According to paragraph 2,
An edge-type backlight characterized in that a rotation axis is installed on the second board at a position corresponding to the L-type shift lever, and the connection point between the horizontal section and the vertical section of the L-type shift lever is installed on the rotation axis of the second board. module. According to clause 5,
One end of the horizontal section of the L-shaped shift lever is provided with a protrusion that matches the U-shaped guide member, and the protrusion of the horizontal section of the L-shaped shift lever is located inside the through hole of the U-shaped guide member. Edge-type backlight module. According to paragraph 2,
The rotating device includes a rotating plate and a rotating button, and both sides of the rotating plate are connected to one end of the vertical section of the L-shaped shift lever through a connecting rod, respectively;
An edge-type backlight module, wherein the rotation button is mounted on the rear side of the second board and connected to the rotation plate through a connection shaft. According to paragraph 2,
It further includes a light blocking module, wherein the light blocking module includes a cover plate installed on the outside of the light source moving module and a light blocking plate installed on the cover plate, both ends of the cover plate are fixedly connected to the second substrate, and both sides of the light blocking plate are connected to each other. An edge-type backlight module that is sandwiched through an edge fixer and fixed to the cover plate. In the liquid crystal display device,
A liquid crystal display device comprising an edge-type backlight module according to any one of claims 2 to 8 and a light guide plate, wherein the light guide plate is fixed to the backlight plate main body and installed relative to the light source. . In the light guide plate optical verification method,
The method is implemented based on the edge-type backlight module according to any one of claims 2 to 8, and the method includes the following steps,
Mounting the light guide plate awaiting verification by fixing it to the first substrate;
Rotating the rotation button clockwise and configuring the rotation button to move the rotation plate;
Configuring the rotating plate to move two L-shaped shift levers through two connecting rods to surround the rotating shaft and perform fan-shaped movement;
A step in which the protrusions of the two L-shaped shift levers each perform a fan-shaped swing while simultaneously supporting the light source supporter;
Configuring the light source support to move the light source so that it moves in phase, so that the light source is close to the light entry side of the light guide plate;
Obtaining optical measurement values of the light guide plate by performing optical verification of the light guide plate using an optical measurement device of the backlight module; A light guide plate optical verification method comprising: