KR102123119B1 - Parallel position identifying type slider - Google Patents

Abstract

The present invention relates to sliders for parallel position identification. The sliders are slid and coupled to parallel rails to run in parallel with each other. A laser pointer to output a laser in a direction perpendicular to the rails is coupled to one side of the slider. A laser receiving module is coupled to the other side of the slider and includes: a light guide pipe having an objective light guide pipe and an ocular light guide pipe formed therein and bent into an L-shape, wherein the output laser of the laser pointer is incident upon the objective light guide pipe and is reflected from the ocular light guide pipe; a prism formed on a bent portion where the objective light guide pipe and the ocular light guide pipe meet; a lens installed in the ocular light guide pipe; and a diffusion plate formed on an end of the ocular light guide pipe. The parallel positions of both sliders are checked by a laser light outputted to the diffusion plate. According to the present invention, when installing a large-area display, the levelness of an installation base can be recognized with naked eyes and automatically sensed. Therefore, the inspection efficiency of the large-area display can be improved.

Description

Parallel position identifying type slider}

The present invention relates to a parallel position identification type slider, and it is possible to easily identify the two bogie positions that need to check the parallel position by using the laser pointer and the laser light receiving module, and automatically sense the two bogie positions. It is related to the technology available.

In general, in the large-area display panel production process, for the display panel inspection, the panel is precisely set horizontally and vertically to perform line disconnection inspection, lighting inspection using a probe unit for color inspection, and other inspections.

Flat-panel display panels such as LCD, PDP, and OLED are installed in a separate inspection equipment after production is completed in the production process to inspect chromaticity, flicker, response time, halation, uniformity, and saturation.

After inspecting and driving the display panel to be inspected on one side of the support device, the inspector visually inspects the object at the opposite point or uses a specific inspection vision, microscope, or camera.

Korean Utility Model Registration No. 2003-37477 discloses a device for supporting a display panel, and Korean Patent Registration No. 10-1840016'Method and Inspection Device for Back Cover Leveling of Flat Panel Display Device' and Korean Registered Patent 100358707' Disclosed is a panel vertical transfer device for a liquid crystal display panel inspection device.

Meanwhile, recently released display panels such as LCDs, PDPs, and OLEDs have evolved from a flat form, and a curved surface with a constant curvature is being released. The curved display panel is intended to maximize immersion in a display screen at any position according to a curved curvature.

Accordingly, the equipment for inspecting the display panel requires a separate device configuration for mounting the curved display panel. The conventional display support device as described above may be suitable only for supporting a flat panel display. , There is a problem that the curved display panel cannot be accurately and precisely mounted and supported.

According to the technological development change of the display, the precision of the display support device for inspecting the display is also demanded more strictly.

As shown in the known device, the large-area display panel inspection device provides a display support device for fixing the panel horizontally and vertically, and it is a technical problem to precisely maintain the display horizontally in order to perform a precise inspection.

However, in the prior art method, the horizontal maintenance of such a display uses the naked eye and a ruler, but this has a problem in that precision is poor and cannot be formed by an automated device.

[Patent Document 0001] Republic of Korea Patent No. 101840016'Backcover horizontality inspection method and inspection device for flat panel display device' [Patent Document 0002] Korean Patent Registration No. 100358707'Panel vertical transfer device for liquid crystal display panel inspection device' [Patent Document 0003] Korean Utility Model Registration No. 2003-37477'Gripper device for display panel inspection equipment'

The present invention is to solve the above problems, when installing a large-area display, a horizontal position identification type slider capable of visually recognizing the horizontality of the installation table and improving the inspection efficiency of the large-area display by automatic sensing. It is aimed at providing.

In order to achieve the above object, the present invention is a slider that is slidingly coupled to each other on a parallel formed rail to run in parallel, wherein one side of the slider has a laser pointer that outputs a laser in a direction perpendicular to the rail; Combined and formed on the other side of the slider, an alternative light pipe in which the output light of the laser pointer is incident on the inside and the objective light pipe are bent in an a-shape, and formed in a bent portion where the objective light pipe and the alternative light pipe meet. A prism, a lens installed inside the alternative light guide tube, and a laser light receiving module including a diffusion plate formed at an end of the alternative light guide tube are combined to check parallel positions of the sliders on both sides with laser light output to the diffusion plate. The technical feature is the parallel position discriminating slider.

Here, it is preferable that the slider is a universal plate having a plurality of perforations formed thereon, and the laser pointer and the laser light receiving module are a parallel position identification type slider, characterized in that an engaging portion coupled to the universal plate is formed.

In addition, the laser light receiving module is further configured to further include a first tube bent in an a-shape in the rail direction in a portion where the alternative light pipe and the objective light pipe are bent; It is preferable that the prism is a parallel position discrimination type slider characterized in that it is formed of a composite prism that reflects the laser through the first tube.

In addition, an optical sensor for outputting a signal by receiving a laser output to the first tube at the end of the rail; A control unit that receives the optical sensor signal and outputs a control signal; It is preferably configured to include a parallel position identification type slider characterized in that it is possible to utilize the signal to reach the parallel position of the slider as a control signal.

In addition, the rail and the slider are preferably used in a large area display support device to be a parallel position identification type slider, characterized in that horizontal support for the large area display.

Advantageous Effects of Invention According to the present invention described above, when installing a large-area display, a horizontal position identification slider capable of improving inspection efficiency of a large-area display can be improved because the horizontality of the mounting table can be visually recognized and automatically sensed. There is this.

1 is a basic structural diagram of the present invention
Figure 2 is an exemplary embodiment of the present invention
3 is a plan view of a slider and a rail used in a display support device
Figure 4 is an exemplary view using a universal plate in the present invention

Hereinafter, the present invention will be described with reference to the drawings, and when it is determined that a detailed description of known technologies or configurations related to the present invention may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted. will be.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or practice, and thus the definition should be made based on the contents of the present specification describing the present invention.

1 below is a basic structural diagram of the present invention, FIG. 2 is an exemplary embodiment of the present invention, FIG. 3 is a plan view of a slider and a rail used in a display support device, and FIG. 4 is an example of using a universal plate in the present invention It is.

As shown in the drawing, the present invention relates to a slider running in parallel, the slider 200, the rail 20, the laser pointer 100, and the objective light guide tube 330 and the alternative light guide tube 340, prism ( 320), a lens 310 and a laser light receiving module 30 made of a diffusion plate 300.

The present invention is to confirm that the two sliders (carriage) running parallel to the rail 20 installed parallel to each other are located on the same line as shown in FIG. 2, the two sliders 200 traveling are parallel to each other It is a device to confirm that it is.

The laser pointer 100 of the present invention is formed on one side of the slider 200, and is a device that outputs a laser at a right angle to the rail 20.

The direction of the right angle to the rail 20 means a direction toward the slider 200 running on the neighboring parallel rail 20.

The laser light receiving module 30 of the present invention is formed on the other side of the slider 200, the objective light pipe 330 to which the output laser of the laser pointer 100 is incident on the inside and the alternative light pipe 340 to be reflected ) Is a device bent in an a-shape.

The laser light receiving module 30 includes a prism 320 in a bent portion where the objective light guide tube 330 and the alternative light guide tube 340 meet, and the lens 310 and the inside of the alternative light guide tube 340 are included. The diffusion plate 300 is formed to be included.

The installation positions of the objective light guide tube 330 and the laser pointer 100 are formed at positions where two sliders 200 are parallel as shown in FIG. 2.

Accordingly, when the laser 110 passes through the objective light guide tube 330 as shown in FIG. 2, the two sliders are placed in parallel positions.

That is, when the laser 110 output from the laser pointer 100 is output to the diffuser plate 300, it can be recognized by an eye, and when light enters the diffuser plate 300, both sliders 200 You can see that it is in a parallel position.

The present invention can be used as a device for horizontally supporting a large area display by being used in the large area display support device 70 as shown in FIG. 2.

To this end, the slider 200 may be used as a slider coupled to the display support device shown in FIG. 2, and the laser pointer 100 and the laser light receiving module 30 may be used as the slider to further improve utilization. It can be used in combination with the universal plate 210 is coupled to (200).

4 is an exemplary view in which the laser pointer 10 is formed on the universal plate 210, wherein the universal plate 210 is a rail of the display support device 70 as shown in FIGS. 2 and 3 ( It can be used in combination with the slider 200 coupled to 20).

Therefore, it is preferable that the laser pointer 100 and the laser light receiving module 30 form a coupling part that is coupled to the universal plate 210.

On the other hand, the laser light receiving module 30 further comprises a first tube 350 formed in the direction of the rail 20, as shown in Figure 2, the prism 320 is the first tube 350 It can also be formed of a composite prism that reflects the laser 110.

The structure of the objective light guide tube 330, the alternative light guide tube 340 and the first tube 350 is based on the position of the prism 320, the objective light guide tube 330 is x-axis, the alternative light guide tube 340 is The y-axis, the first tube 350 is the same as the coordinate axis relationship established by the z-axis.

According to this configuration, as shown in FIG. 2, since the laser 110 reflects in the same direction as the rail 20, when another laser light receiving module is placed at the end of the rail 20, the sliders 200 at the rail end It is possible to check whether it is parallel.

In addition, an optical sensor 51 for receiving a laser 110 output to the first tube 350 and outputting a signal at an end of the rail 20 and an optical sensor 51 signal are input to output a control signal. If configured to include a control unit 50, the advantage of being able to use the signal to reach the parallel position of the slider 200 as a control signal is used as an automation signal.

According to the present invention configured as described above, when the two sliders 200 reach the parallel position, the laser 110 output from one slider is emitted through the laser light receiving module 30 at the end of the other slider or the other rail. , It has the advantage that the horizontal position of the slider 200 running the two rails installed in parallel is visually recognized.

In addition, since the parallel position arrival signal of the slider 200 can be used as an automation signal as a control signal, there is an advantage in that a display support device for automatically setting a horizontal position can be configured.

The drawings shown for the above description of the present invention can be seen that various combinations of forms are possible to realize the gist of the present invention as shown in the drawings as one embodiment in which the present invention is embodied.

Therefore, the present invention is not limited to the above-described embodiments, and various modifications can be made to anyone having ordinary knowledge in the field to which the present invention belongs without departing from the gist of the present invention as claimed in the claims below. It will be said that there is a technical spirit of the present invention to the extent possible.

10: laser pointer housing
20: rail
30: laser light receiving module
50: control unit
51: optical sensor
100: laser pointer
110: laser
200: slider
300: diffuser plate
310: lens
320: prism
330: Daemuldo Light Hall
340: Alternative light guide
350: Section 1

Claims (5)

In the slider that is slidingly coupled to the rails formed in parallel to run in parallel,
One side of the slider has a laser pointer for outputting a laser at a right angle to the rail; Being combined
On the other side of the slider, an objective light pipe to which an output laser of the laser pointer is incident, and an alternative light pipe in which the objective light pipe is bent in an a-shape, a prism formed in a bent portion where the objective light pipe and the alternative light pipe meet. , A laser light receiving module including a lens installed inside the alternative light guide tube and a diffusion plate formed at an end of the alternative light guide tube is coupled
A parallel position identification slider, characterized in that the parallel positions of the sliders on both sides are checked by laser light output to the diffusion plate. The slider of claim 1,
A plurality of perforated universal plates are combined,
The laser pointer and the laser light receiving module is a parallel position identification type slider, characterized in that a coupling portion coupled to the universal plate is formed. The method of claim 2, wherein the laser light receiving module
The alternative light guiding tube and the objective light guiding tube are further configured to further include a first tube bent in a rail shape in the rail direction;
The prism is a parallel position identification type slider, characterized in that it is formed of a composite prism that reflects the laser as the first tube. According to claim 3, The rail end
An optical sensor for receiving a laser output to the first tube and outputting a signal;
A control unit that receives the optical sensor signal and outputs a control signal;
Consists of including
Parallel position identification type slider, characterized in that it can be utilized as a control signal to reach the parallel position of the slider. The rail and the slider of any one of claims 1 to 4,
Used for large area display support
A parallel position identification slider characterized by horizontal support for a large area display.

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