KR101242295B1 - Ir transmissivity test instrument of touch screen pannel - Google Patents

Abstract

PURPOSE: A device for measuring the transmittance of a TSP(Touch Screen Panel) is provided to downwardly irradiate lights through an optical cable of a light emitting unit when the light emitting unit and a light receiving unit are positioned vertically around a spaced space, thereby confirming the IR printing patterns rapidly and accurately. CONSTITUTION: A device for measuring the transmittance of a TSP comprises a control board and a body including a control panel and a lamp. A touch panel in which the IR printing patterns are formed is on the upper part of the body. A transferring unit is formed so that the touch panel is closely adhered on one side of a holder. An irradiating stand(30) forming a space separated from the holder by being fixed on a fixing stand is installed on the holder. A light receiving unit, which confirms lights penetrated through transparent or semi-transparent IR printing patterns for each touch panel, is formed on the lower part of the holder. An optical cable(37) connected to a body by the fixing unit is installed at a position corresponding to the light receiving unit. A light emitting unit irradiates lights straightly to the IR printing patterns of the each touch panel through the optical cable.

Description

TS transmittance meter for quickly and accurately inspecting eye print patterns on touch panels. {IR Transmissivity test instrument of Touch screen pannel}

The present invention is to examine the IR printing pattern formed on the touch screen (TSP: Touch Screen Pannel), more specifically, the TSP in front of the proximity light sensor to prevent the touch is made when the body approaches a certain distance or more. The present invention relates to a transmittance meter dedicated for a touch panel that can quickly and accurately check the IR printing pattern formed on the substrate.

In general, the communication terminal to which the TSP is applied turns off the touch screen so that a call button or a numeric key implemented on the touch panel is not pressed by a body contact when a person's body is close to a certain distance or more during a call. The main sensor has a proximity light sensor.

The proximity light sensor is installed inside the hole provided in the upper part of the liquid crystal. Usually, the proximity light sensor has a feature that the cover body and the main body are separated from each other and installed in a dual state.

In other words, when a hole is provided inside the TSP and the proximity light sensor is positioned inside the hole, the cover body and the TSP are positioned twice on the main body, so that the overall thickness of the communication terminal is inevitably thickened, especially the cover body on the main body. And the touch panel is double-covered, the wavelength value changes and the light receiving part of the main body does not operate normally. Therefore, the cover of the proximity light sensor is removed and an IR (Infrared Ray) pattern is applied to the upper part of the touch panel. Formed and divided into the main body and the touch panel was to be configured to be spaced apart.

Therefore, a means for professionally measuring only an IR print pattern printed on only a part of the upper part of the touch panel was required, but a conventional measuring device that inspected an IR filter or a film was used as it was.

That is, using a measuring device that consists of expensive optics and lenses to directly inspect, or as the reflection plate formed in the upper portion is moved up and down as shown in FIG. By measuring the wavelength of, we used a measuring device to check whether the IR printing pattern is normal.

However, these inspection equipments are good for testing more than a certain size of IR filter or film, but when checking the IR printing pattern of small size of about 2 ~ 5mm, it contains many errors due to the operation of the reflecting plate moving up and down. There is no problem.

That is, it has many factors that hinder accurate measurement, such as the angle and material of the reflecting plate moving up and down, the degree of reflection according to the weather, and the absorbing power of the light. There is a problem that the value is inaccurate because it must contain many error values. In addition, it is expensive because it is made of an expensive optical lens.

Accordingly, the present invention is to solve the above problems, it is an object of the transmittance measuring device for the touch panel can be identified quickly and accurately only the IR printed pattern formed on the TSP at a low cost.

To this end, in the present invention, a main body including a control board and an operation panel and a lamp is formed, and a cradle for mounting a touch panel having an IR printing pattern formed thereon is formed on the main body. There is formed a moving means for moving the touch panel up and down or left and right to be in close contact with one side, and fixed to the one side, in the state that the irradiation table is formed on the upright fixed stand to form a space spaced apart from the stand,

The main body has a light receiving unit for checking the amount of light transmitted through the transparent or translucent IR printing pattern of each touch panel in the lower hole of the holder, and the irradiation table has a main body by a fixing unit at a position corresponding to the light receiving unit. A dedicated TSP transmittance for inspecting an IRL print pattern of a touch panel including a light emitting unit fixedly installed and irradiating light with the IR print pattern of each touch panel at the same height through the optical cable. It features a meter.

Therefore, the present invention by irradiating the light having a straightness straight down through the optical cable of the light emitting unit in a state in which the light receiving unit and the light emitting unit is positioned up and down around the space, the influence of the surrounding environment is minimized The light is irradiated onto the IR print pattern so that the status of the IR print pattern can be checked quickly and accurately.

In addition, since the present invention irradiates the IR print pattern with the required amount of light source through the optical cable, the energy consumption is low and unnecessary waste of energy can be prevented.

1 is a front view showing an IR printing pattern of the TSP according to an embodiment of the present invention.
2 and 3 are a perspective view of a TSP transmittance meter according to an embodiment of the present invention.
4 is an exploded perspective view of a TSP transmittance meter according to an embodiment of the present invention.
5 is an enlarged view of a TSP transmittance meter according to an embodiment of the present invention.
6 is a graph of a TSP transmittance meter according to an embodiment of the present invention.
7 is a block diagram of a TSP transmittance meter according to an embodiment of the present invention.
8 is a transmittance meter used to measure a conventional IR filter.

Hereinafter, specific details for carrying out the present invention will be described in detail with reference to the accompanying drawings.

First, Figure 1 is to show the IR printed pattern of the touch panel, Figures 2 and 5 show the appearance of the TSP transmittance meter in accordance with an embodiment of the present invention in detail, as shown in the present invention is a control board ( 12) and a main body 10 including a control panel 14 is formed, and a cradle 20 on which the touch panel 1 on which the IR printing pattern is formed is mounted. In addition, the cradle 20 is provided with moving means 22a and 22b for moving the touch panel 1 up and down or to the left and right, and installed on an upright holder 21 on the cradle 20. It comprises a irradiation stand 30 to form a space spaced apart from the cradle 20, the touch panel (1) positioned between the irradiation stand 30 and the cradle 20 is located between them IR print pattern (2) to check whether it works normally The measuring device will be presented.

At this time, the light receiving unit 11 for checking the light transmitted through the IR printing pattern 2 of the touch panel 1 is formed at the lower part of the hole 20 of the holder 20, and the irradiation table 30 is provided. In the position corresponding to the light receiving portion 11 by the fixing portion 32, the optical cable 37 connected to the main body 10 is fixedly installed to the light emitting portion 31 for irradiating light to the light receiving portion 11 It is made to include.

Accordingly, the holder 20 and the irradiation table 30 are dualized in the upper and lower portions with the touch panel 1 interposed therebetween, and the light emitting unit 31 and the light receiving unit 30 are disposed on the irradiation table 30 and the main body 10. 11) is formed, the linearity through the optical cable 37 of the light emitting portion 31 is excellent in the linearity of the touch panel (1) by irradiating the touch panel (1) with a light source having a minimum of ambient influence It is possible to provide a transmittance measuring device for a TSP panel that can quickly and accurately check whether this is normally done.

In addition, the main body 10 of the TSP transmittance meter includes an infrared lamp 13 that converts 220V power applied from the outside into DC 24V and emits it as a light source of 850nm / 940nm based on this. The amount of light emitted is to be emitted in 1/4000 units.

In this case, the emitted light source is applied to the light emitting part 31 in a total reflection state along the optical cable 37 connected to one side, and the light emitting part 31 includes the optical cable 37 and the fixing part 32. Will be done.

In particular, the fixing part 32 at this time is formed in a state in which the pair of slide grooves 33 and 34 in parallel to the left and right on the irradiation table 30, the first slide groove 33 is perpendicular to the lower end One side of the movable stand 35 which is placed in one direction is fixed by the adjusting tool 36 fitted through the first slide groove 33, and the second slide groove is provided on the other side of the movable stand 35. The other end of the optical cable 37 penetrated through the 34 is inserted and fixed to the holder while being exposed in the downward direction.

Therefore, the movable stand 35 is moved to the left and right along the first slide groove 33 and the second slide groove 34 by the adjustment mechanism 36 is to be located in the moving position 35 in a specific position. In addition, the optical cable 37 fixed to the other side of the movable table 35 is irradiated with light to the light receiving unit 11 located in the downward direction.

At this time, the lower and lower movement means 22b and the left and right movement means 22a for allowing the touch panel 1 placed on the cradle 20 to be in close contact with one side while moving left and right or up and down at the bottom of the optical cable 37. The moving means 22a and 22b made up are implemented.

In this case, the light irradiated through the optical cable 37 is placed on the cradle 20 so as to be in close contact with one side of the shank moving means 22b and the left and right moving means 22a. 2), the light having an area enough to cover the entire IR printing pattern may be irradiated to the touch panel 1 according to the embodiment.

 In particular, the light irradiated at this time is irradiated to the touch panel 1 by the optical cable 37 in a state of excellent linearity, thereby irradiating the touch panel 1 with a minimum of ambient influence.

The main body 10 receives the subtracted light while passing through the touch panel 1 through the light receiving unit 11 and converts the light into a digital signal. Based on this, the control board 12 checks the transmittance and determines whether it is normal. Will be.

For reference, FIG. 6 is a graph showing a comparison between the inspection result of the IR inspector (TSP transmittance meter) and the inspection result using the optical device VMS-1 in the 940 nm band according to an embodiment of the present invention. The inspection results of the TSP transmittance meter and the expensive optical device VMS-1 according to the embodiment of the present invention show a detection force at a level similar to the same direction rising from one side to the other side.

In addition, the main body 10 of the TSP transmittance meter includes a power switch and a switch capable of irradiating light of 940 nm / 850 nm, and a led that checks the direction and detection result by the control board 12 and guides the normal presence. The panel 14 including the back and the buzzer is formed.

In addition, the control board 12 controls the lamp 13 in a state including the A / D converter 12a, the control unit 12b, and the power management unit 12c, as shown in FIG. While confirming the applied value through, while controlling the LED lights or buzzer of the control panel 14 is to guide the test results.

At this time, in the present invention, by connecting the main body 10 and the test server or the test PC according to the embodiment, the manufacturing number and the test result (Pass / Fail) of the touch panel 1 produced based on the date of the test It may be in the database.

Accordingly, the present invention is configured by dualizing the cradle 20 and the irradiation table 30 in the upper and lower portions with the touch panel 1 interposed therebetween, and the light emitting unit 31 on the irradiation table 30 and the main body 10. And IR light pattern of the touch panel 1 placed in the space separated by the light irradiated through the optical cable 37 of the light emitting unit 31 in the state where the light receiving unit 11 is formed, is quickly and accurately checked. It is possible to provide a transmittance meter for a TSP panel.

1: touch panel 2: IR printing pattern (2)
10: The body 11: Light-receiving part
12: control board 13: lamp
14: control panel
20: stand 21: stand
22a, b: means of movement
30: irradiation table 31: light emitting unit
32: Gogo 33: The first slide home
34: The second slide home 35: Mobile stand
36: control part 37: optical cable

Claims (4)

The main body including the control board and the control panel and the lamp is formed,
On the main body, a cradle is mounted to which the touch panel on which the IR printing pattern is formed is formed.
The cradle is provided with a moving means for moving the touch panel up and down or left and right to be in close contact with one side,
On the cradle, in a state where the irradiation table is fixedly installed on an upright stand to form a space spaced from the cradle,
The main body has a light receiving unit for checking the light transmitted through the transparent or translucent IR printing pattern of each touch panel in the lower hole of the holder,
The irradiation table is fixed to the optical cable connected to the main body by a fixing unit in a position corresponding to the light receiving unit, and includes a light emitting unit for irradiating light straight to the IR print pattern of each touch panel at the same height through the optical cable. TSP transmittance meter for quickly and accurately inspecting the IAL printing pattern of the touch panel, characterized in that made. The method of claim 1,
The main body is a TPS transmittance meter for quickly and accurately inspecting the IAL printing pattern of the touch panel, characterized in that it comprises an infrared lamp for emitting a light source of 850nm / 940nm unit of 1/4000 units. The method of claim 1,
In a state in which the fixing portion is formed in parallel with a pair of slide grooves left and right on the irradiation table,
One side of the movable table, which is placed in the vertical direction at the lower end, is fixed to the first slide groove by a control mechanism inserted through the first slide groove.
On the other side of the movable table, the other end of the optical cable inserted through the second slide groove is inserted and fixed in a state of being exposed downward. SPI transmittance meter. The method of claim 1,
The main body quickly and accurately inspects the IAL print pattern of the touch panel, which is connected to a test server or a test PC that has a database of the production numbers and test results of the touch panel produced based on the date of the test. TS transmittance meter.

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