KR101016574B1 - Hitting test devices for touch screen panel - Google Patents

Abstract

PURPOSE: A device for testing the heating of a touch screen panel is provided so that the coordinates and resistances on the divided touch areas of the touch screen panel are stored, the state of the panel is determined based on the coordinates and the resistances, the recognized state and data after determination are stored and displayed. CONSTITUTION: A device for testing the heating of a touch screen panel comprises a heating unit(10), a control unit(30) and a positioning unit(20). The heating unit heats the touch screen panel. The control unit controls the heating unit. The control unit determines and stores the state of the touch screen panel based on test data, which is obtained from the touch screen panel. The positioning unit determines the position of the touch screen panel. The control unit comprises a DB, a state determining unit, a recognizing-ratio determining unit, a stop unit and a data storage. The DB stores coordinates on the divided touch areas on the touch screen panel, the edge resistances of the touch screen panel and the central resistances of the touch screen panel.

Description

HITTING TEST DEVICES FOR TOUCH SCREEN PANEL}

The present invention relates to an apparatus for testing the durability of a resistive touch screen panel, and more particularly, to an apparatus for testing the operation and life of a touch screen panel by repeatedly heating the touch screen panel.

In general, the touch screen panel is formed by coating a resistive material on glass or transparent plastic plate and covering a polyester film on it, and insulating bars are installed at regular intervals so that the two surfaces do not touch each other. When the two surfaces are connected to each other by pressing the same predetermined input means, the resistance value of the position changes and the voltage also changes. After reading the changed voltage value, the control device finds the position coordinate according to the change of voltage and contacts it. Recognized location.

A static pressure test device is used to check whether the touch screen panel operates normally and how durable it is.

However, in the related art, as disclosed in Korean Patent Laid-Open Publication No. 10-2007-0071345 (2007.07.04), the "Touch Screen Panel Test Apparatus and Method" is a static pressure test for checking whether the touch screen panel is recognized as a touch at what pressure. Only the device was used.

In addition, when the durability test of the touch screen panel was not equipped with a device for recording the data on the test process and content, it was not possible to determine when any defect occurred.

The present invention has been proposed to solve the above-mentioned conventional problems, and an object of the present invention is to provide a touch screen panel heating test apparatus for testing durability by heating a resistive touch screen panel.

Another object of the present invention is to store the coordinate value and the resistance value for the partitioned touch area of the touch screen panel, determine the good or bad based on the stored coordinate value and the resistance value, and store and display the recognized test data and the determination result. The present invention provides a touch screen panel heating test apparatus.

Another object of the present invention to provide a touch screen panel heating test apparatus that can be fixed so that the touch screen panel does not move during the test by heating the touch screen panel.

Still another object of the present invention is to provide a touch screen panel heating test apparatus that can easily transmit test data of the touch screen panel.

Another object of the present invention to provide a touch screen panel heating test apparatus that can set the position of the heating member for heating the touch screen panel.

In order to achieve the above object, the present invention provides a heating unit for heating a touch screen panel, a control unit for determining and storing both parts of the touch screen panel based on test data obtained from the touch screen panel by controlling the heating unit, and a touch screen. It includes a positioning unit for setting the position of the panel.

The heating unit may include a lifting unit and a heating member which is lifted by the lifting unit to heat the touch screen panel.

In this case, the lifting unit includes a linear motor.

The controller is configured to store coordinates of a touch area partitioned on the touch screen panel, a border resistance value of the touch screen panel, a DB storing the center resistance value of the touch screen panel, and a signal transmitted when the touch screen panel is heated. A status discrimination unit for determining whether to recognize whether by recognition, a recognition rate discrimination unit for determining the touch recognition rate by comparing the resistance value of the touch area heated in the touch screen panel and the resistance value stored in the DB, and the touch area heated in the touch screen panel A position discriminating unit for determining a position to be heated by comparing the coordinate value of the control unit with the coordinate value stored in the DB, a stopping unit for stopping the operation of the heating unit in case of a defect according to the determination result, and storing the test data and the determination result transmitted Contains wealth.

In this case, the edge resistance of the touch screen panel includes 3Ω and the center resistance includes 5Ω.

In addition, the recognition rate discrimination unit further includes comparing the resistance value of the DB and the resistance value transmitted during the test, and determining that the value is less than the resistance value stored in the DB.

The position setting unit may include a base unit on which the touch screen panel is supported, a reference unit for setting an upper reference of the touch screen panel, a left reference unit for setting a left position of the touch screen panel, and a right position of the touch screen panel. And a fixed part for fixing the right reference part and the left reference part and the right reference part to be set.

Herein, the reference part includes a plurality of base holes formed at predetermined intervals in the front and rear direction, a guide member having a plurality of guide holes corresponding to the plurality of base holes, and a base hole penetrating through the guide hole. It comprises a fixed member that is fixed to.

In addition, the fixing part includes a rectangular hole formed in the base portion, the rack is provided on the side of the hole, the left reference portion and the right reference portion is formed of an elastic pin corresponding to the rack.

And an information transmission unit which transmits test data obtained from the touch screen panel to a control unit.

In this case, the information transmission unit includes a panel terminal unit connected to the touch screen panel, a control terminal unit connected to the control unit, and a communication line connected to the panel terminal and the control unit.

In addition, the panel terminal unit includes a tong member and a contact terminal provided inside the tong member.

On the other hand, it further comprises a test guide for guiding the heating unit to the left and right, wherein the test guide includes a guide rail arranged in the left and right direction and a guide member for moving the heating unit from side to side in the guide rail.

At this time, further includes a height setting unit for setting the height of the test guide.

The present invention configured as described above has the advantage of testing the durability by heating the resistive touch screen panel.

According to the present invention, the coordinate values and the resistance values of the partitioned touch area of the touch screen panel are stored, and the determination is made on the basis of the stored coordinate values and the resistance values. There is an advantage to that.

The present invention has the advantage that can be fixed so that the touch screen panel does not move during the test by heating the touch screen panel.

The present invention has the advantage of easily transmitting the test data of the touch screen panel.

The present invention has the advantage of setting the position of the heating member for heating the touch screen panel.

1 is a perspective view of a touch screen panel heating test apparatus according to an embodiment of the present invention.
Figure 2 is a block diagram showing a control unit applied to the present invention.
Figure 3 is a perspective view showing a heating unit installed in the test guide applied to the present invention.
Figure 4 is a perspective view showing a positioning portion applied to the present invention.
5 is a perspective view showing a left reference portion applied to the present invention.
6 is a perspective view showing an information transmission unit applied to the present invention.

When described in detail with reference to the accompanying drawings in order to fully understand the present invention.

As shown in FIG. 1, the exemplary embodiment of the present invention determines whether the touch screen panel is based on the heating unit 10 for heating the touch screen panel and the test data obtained from the touch screen panel by controlling the heating unit 10. And a control unit 30 for storing and a position setting unit 20 for setting a position of the touch screen panel under test.

In this case, the heating unit 10 includes a lifting member 11 and a heating member 12 for heating the touch screen panel, and the lifting unit 11 includes a cylinder and a linear motor for elevating the cylinder up and down.

Here, the linear motor can move up and down as a motor having a structure that generates a thrust between the mover and the stator facing in a straight line shape.

That is, the heating member 12 formed in the cylinder which moves up and down by the linear motor heats the touch screen panel.

As shown in FIG. 2, the control unit 30 includes a DB 31 storing coordinates of a touch area partitioned on the touch screen panel, an edge resistance value of the touch screen panel, and a center resistance value of the touch screen panel; When the touch screen panel is heated, the touch is detected by comparing the resistance value stored in the DB 31 and the resistance value of the touch panel heated by the status discriminating unit 32 to determine whether it is recognized or not. A recognition rate discriminating unit 33 for determining a recognition rate, a position discriminating unit 34 for determining a heating position by comparing the coordinate values of the touch area heated in the touch screen panel with the coordinate values stored in the DB 31, and determining According to the result, a failure unit 35 stops the operation of the heating unit 10 when a failure occurs, and a data storage unit 36 in which the transmitted test data and the determination result are recorded.

And it further comprises a display unit 60 for displaying the progress of the test and whether or not a failure occurs.

Herein, the controller 30 may be implemented as a PC, and the display unit 60 may be implemented as a monitor.

The status discriminating unit 32 determines whether the touch screen panel is heated by recognizing a signal transmitted from the touch screen panel when heating.

In addition, the recognition rate determining unit 33 compares the resistance value of the heating area transmitted from the touch screen panel with the resistance value stored in the DB 31 to determine whether it is OK.

In addition, the position discriminating unit 34 compares the coordinate values of the area heated in the touch screen panel with the coordinate values stored in the DB 31 to determine the heating position.

As shown in Figure 3, the heating unit 10 is installed in the test guide unit 50 to guide the left and right.

The test guide unit 50 includes a guide rail 51 arranged in the left and right directions and a height setting unit 53 for setting the height of the test guide unit 50.

And the test guide 50 is installed on a plurality of support members (not shown) supported on the back of the test guide 50.

In addition, the heating portion 10 is inserted into the T-shaped guide member 51 to one end of the guide rail 51 is formed to be able to move in the left and right directions along the guide rail 51.

In this case, when a plurality of heating units 10 are installed in the guide rails 51, a plurality of touch screen panels can be tested at the same time, but the position of the heating units 10 is directly set by the user.

And the height setting unit 53 is configured to be fixed to the support member by penetrating the bolt through the groove formed in both ends of the test guide 50, the test guide 50 vertically long.

Therefore, the height adjustment is to loosen the bolt fixed to the support member to move the test guide 50 up and down along the vertically formed hole in the test guide 50 to adjust the desired height and then tighten the bolt fixed to the support member You can set the height.

Here, the pressure for heating the touch screen panel by the heating member 12 is changed by adjusting the height of the test guide 50. When the height of the test guide 50 is increased, the pressure for heating the touch screen panel is lowered and the test is performed. Decreasing the height of the guide unit 50 increases the pressure for heating the touch screen panel.

As shown in FIGS. 4 and 5, the position setting unit 20 for setting the position of the touch screen panel includes a base unit 21 on which the touch screen panel is supported and a reference unit for setting and supporting the upper reference of the touch screen panel ( 22), the left reference part 23 for setting the left position of the touch screen panel, the right reference part 24 for setting the right position of the touch screen panel, the left reference part 23, and the right reference part 24. It is configured to include a fixing portion 25 for fixing).

First, the reference portion 22 includes a base hole 22a which is formed to be spaced apart by a predetermined distance in the front and rear direction, and a guide member having a plurality of guide holes 22b corresponding to the plurality of base holes 22a at both ends. It consists of a fixing pin (not shown) which penetrates the 22c and the guide hole 22b and is fixed to the base hole 22a.

In addition, the fixing portion 25 is a rectangular groove 25a formed in the base portion 21, a rack 25b provided inside the groove 25a, the left reference portion 23 and the right reference portion 24. It is installed in the) is composed of an elastic pin 25c corresponding to the rack (25b).

As shown in FIG. 6, a signal, a coordinate value, and a resistance value of the touch screen panel are transmitted to the controller 30 through the information transmitter 40, and the information transmitter 40 is a panel terminal unit connected to the touch screen panel ( 41, a control terminal 42 connected to the control unit 30, and a communication line 43 connected to the panel terminal and the control unit 30.

Here, the panel terminal portion 41 is composed of a tong member 41a in the form of tongs, and a contact terminal 41b installed inside the tong member 41a, and when the terminal of the touch screen panel is picked up by the tong member, The contact terminal installed inside of the terminal is formed to contact the terminal of the touch screen panel. In addition, the control terminal 42 is preferably USB or RS232.

Referring to the working relationship of the touch screen panel heating device according to the present invention having the above configuration in detail as follows.

First, the position of the touch screen panel to be tested is supported by placing the touch screen panel on the base portion 21 and the base hole of a desired position among the base holes 22a formed to be spaced apart at a predetermined interval in the front and rear direction of the base portion 21. The guide hole 22b formed in the guide member 22c corresponds to the 22a, and is fixed to the base hole 22a by penetrating the guide member 22c and the guide hole 22b with a fixing pin. The upper portion of the touch screen panel is set by supporting the upper portion of the touch screen panel on the guide member 22c. In addition, the left and right positions of the touch screen panel are set to the fixing unit 25, the left reference unit 23, and the right reference unit 24. The left reference unit 23 is moved along the groove 25a to move the touch screen. The left position of the panel is set and fixed by the elastic pin 25c formed on the lower side of the left reference part 23 and the rack 25b formed inside the groove 25a correspondingly. Then, the touch screen panel whose upper part is supported by the guide member 22c is supported on the fixed left reference part 23. Here, the right side of the touch screen panel is supported by the right reference part 24. The touch screen panel is brought into close contact with the left side as much as possible so that the touch screen panel does not move, and the right reference part 24 is attached to the rack 25b and the elastic pin 25c. ). The upper part of the touch screen panel is supported by the guide member 22c and the left and right sides are supported by the left reference part 23 and the right reference part 24 to fix the touch screen panel so that it does not move during the heating test.

The fixed touch screen panel is heated by the heating unit 10 controlled by the controller 30 a predetermined number of times to test the touch screen panel.

That is, when the heating unit 10 is operated by placing the heating unit 10 on the fixed touch screen panel, the heating member 10 of the heating unit 10 moves up and down to raise and lower the touch screen panel. Test by heating

At this time, the test data of the heated touch screen panel is transmitted to the control unit 30, the operation of the control unit 30 is as follows.

The state discriminating unit 32 determines whether the touch screen panel is recognized by whether the signal transmitted from the touch screen panel is recognized. That is, when the heating unit 10 heats the touch screen panel, if a signal is not transmitted to the status discriminating unit 32, the heating unit 10 determines that the touch screen panel is inferior, the contents of the defect, the number of times of heating the touch screen panel, and the test elapsed time. Then, the area where the failure occurs and the time when the failure is determined are stored in the data storage unit 36 and the stop unit 33 stops the operation of the heating unit 10.

The recognition rate determining unit 33 compares the resistance value of the heating area transmitted from the touch screen panel with the resistance value stored in the DB 31 to determine whether the touch screen panel is resistive. The resistance value of is not the same and the resistance value of the edge part and the center part of the touch screen panel is set differently.

Thus, the edge resistance value of the edge portion of the touch screen panel stored in the DB 31 is 3Ω, the center resistance value of the center portion of the touch screen panel is stored as 5Ω.

Accordingly, the recognition rate discrimination unit 33 compares the resistance value transmitted at the edge of the touch screen panel with the resistance of 3Ω, which is transmitted at the edge portion of the touch screen panel, and the heating portion is the center resistance value at the time of the center portion of the touch screen panel. Compare with 5Ω.

At this time, when the transmitted resistance value is smaller than the resistance value stored in the DB 31, it is determined that the transmitted resistance value, the number of times to heat the touch screen panel, the test elapsed time and the time that the defect is determined, and the content of the defect The data is stored in the data storage unit 36 and the stop unit 33 stops the operation of the heating unit 10.

In addition, the position discriminating unit 34 compares the coordinate values of the heating area transmitted from the touch screen panel with the coordinate values stored in the DB 31 and determines that the transmitted coordinate values and the stored coordinate values are not the same and transmitted. The coordinate value, the number of times of heating the touch screen panel, the test elapsed time and the time when the failure is determined are stored in the data storage unit 36 and the stop unit 33 stops the operation of the heating unit 10.

In this case, the display unit 60 displays the test progress and defect details. The signal of the touch screen panel, the resistance value of the touch area, the coordinate value of the touch area, the number of times of heating the touch screen panel, the test elapsed time, and the defect are determined. Indicates the time and what failure occurred.

As described above, the present invention tests the durability by heating the resistive touch screen panel and stops the test in the event of a failure, thereby reducing the wasted time by testing a predetermined number of tests even when a failure occurs, and storing the tested contents and the defective contents. It is a useful invention that informs the user.

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, those skilled in the art to which the present invention pertains may implement the present invention in other specific forms without changing the technical spirit or essential features thereof. I can understand that. Therefore, the above-described embodiments are to be understood in all respects as illustrative and not restrictive, and the scope of the present invention is indicated by the following claims rather than the foregoing description, and the meaning and scope of the claims and their equivalents. All changes or modifications derived from the concept shall be construed as being included in the scope of the present invention.

10: heating unit
20: position setting unit
30:
40: information transmission unit
50: test guide
60 display unit

Claims (13)

Heating unit for heating the touch screen panel;
A control unit which controls the heating unit to determine and store both parts of the touch screen panel based on test data obtained from the touch screen panel;
Position setting unit for setting the position of the touch screen panel;
Including,
The control unit
A DB storing coordinate values of a touch area partitioned in the touch screen panel, a border resistance value of the touch screen panel, and a center resistance value of the touch screen panel;
A status discriminating unit for determining whether the signal is transmitted when the touch screen panel is heated;
A recognition rate discriminating unit for determining a touch recognition rate by comparing the resistance value of the touch area heated in the touch screen panel with the resistance value stored in the DB;
A position discriminating unit for comparing a coordinate value of the touch area heated in the touch screen panel with a coordinate value stored in the DB to determine a heating position;
A stop unit for stopping the operation of the heating unit when a failure occurs according to the determination result;
Touch screen panel heating test apparatus, characterized in that it comprises a data storage unit for recording the transmitted test data and the determination result.
The method of claim 1,
The heating unit
Elevating unit;
A touch screen panel heating test apparatus, comprising: a heating member which is lifted by the lifting unit to heat the touch screen panel.
The method of claim 2,
The lifting unit is a touch screen panel heating test apparatus, characterized in that the linear motor.
delete The method of claim 1,
Touch screen panel heating test device, characterized in that the edge resistance value of the touch screen panel is 3Ω, the center resistance value is 5Ω.
The method of claim 1,
And the recognition rate determining unit compares the resistance value of the DB with the resistance transmitted during the test and determines that the recognition rate is poor when the recognition rate is smaller than the resistance value stored in the DB.
The method of claim 1,
The positioning unit
A base unit on which the touch screen panel is supported;
A reference unit for setting an upper reference of the touch screen panel;
A left reference unit for setting a left position of the touch screen panel;
A right reference unit for setting a right position of the touch screen panel;
Touch screen panel heating test apparatus comprising a fixing part for fixing the left reference part and the right reference part.
The method of claim 7, wherein
The reference portion
A plurality of base holes spaced apart from each other in the front-rear direction by the base part;
A guide member having a plurality of guide holes formed at both ends corresponding to the plurality of base holes;
Touch screen panel heating test device, characterized in that consisting of a fixing member fixed to the base hole through the guide hole.
The method of claim 7, wherein
The fixing part
A rectangular hole formed in the base portion;
A rack installed on the side of the hole;
Touch screen panel heating test apparatus, characterized in that the left reference portion and the right reference portion is composed of an elastic pin corresponding to the rack.
The method of claim 1,
Further comprising an information transmission unit for transmitting the test data obtained from the touch screen panel to the control unit,
The information transmission unit
A panel terminal unit connected to the touch screen panel;
A control terminal unit connected to the control unit;
Touch screen panel heating test apparatus comprising a communication line connected to the panel terminal and the control unit.
The method of claim 10,
The panel terminal portion
Tong member;
Touch screen panel heating test device, characterized in that consisting of a contact terminal installed inside the tong member.
The method of claim 1,
Further comprising a test guide for guiding the heating unit to the left and right,
The test guide unit
Guide rails arranged in left and right directions;
Touch screen panel heating test device, characterized in that consisting of a guide member for moving the heating unit from side to side in the guide rail.
The method of claim 12,
And a height setting unit for setting a height of the test guide unit.

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