KR100941441B1 - Test apparatus for touch screen panel - Google Patents

Abstract

PURPOSE: A test apparatus for touch screen panel is provided to accurately test the quality of a test area of a touch screen panel by pressurizing the touch screen panel by a test apparatus. CONSTITUTION: A pressurizing member(10) pressurizes a touch screen panel(T) with set pressure. A transfer robot(30) has an elevating unit(31) and transfers a pressurization member to a touch screen panel. The elevating unit lifts the pressurization member for pressurizing the touch screen panel. A control unit(50) sets the pressurization amount of the pressurization member. A display unit(70) displays the pressurization state of the touch screen panel.

Description

Touch Screen Panel Test Device {TEST APPARATUS FOR TOUCH SCREEN PANEL}

The present invention relates to a touch screen panel test apparatus for pressing the touch screen panel to determine the quality.

In general, a touch screen panel has a space formed between a film having an upper electrode formed on an upper surface of the liquid crystal display panel, a lower substrate having a lower electrode formed thereon, and a film and the lower substrate having a predetermined space therebetween.

At this time, when the two substrates are pressed by a predetermined input means such as a finger or a pen to contact the film, the upper electrode formed on the film and the lower electrode formed on the lower substrate are energized with each other, and the voltage value changed by the resistance value at the position thereof. After reading, the controller finds the position coordinate according to the change of voltage and transmits the coordinate information to the liquid crystal display panel.

The pressure test device is used to check whether the touch screen panel is recognized as a touch at what pressure.

However, the conventional positive pressure test apparatus has not been used to test a hybrid touch screen panel that senses a touch by using a liquid crystal capacitance change. In the case of the hybrid touch screen panel, the tip connected to the spring connected to the pressure pen of the positive pressure test device recognizes the moment when it touches the touch screen panel and falls, so it is operated below the set pressure of the positive pressure test device, so that accurate pressure cannot be measured. This is happening.

In order to solve the above problems, Korean Patent Publication No. 10-2007-0071345 (2007.07.04) has been proposed a "touch screen panel test apparatus and method".

As shown in FIG. 1, the conventional touch screen panel test apparatus includes a pressure sensor 3 wider than the touch panel 2 on the stage 1, and a touch panel 2 on the pressure sensor 3. The cylinder 5, which is transported by the horizontal transfer table 4, in the state of positioning the pressure means 6 is lowered to press the touch panel 2. Then, the pressure means 6 presses the pressure sensor 3 while pressing the touch panel 2, whereby the pressure sensor 3 measures the pressure pressed by the pressure means 6.

However, in the conventional touch screen panel test apparatus, since the pressure sensor 3 is positioned under the touch panel 2, when the pressure means 6 presses the touch panel 2, the pressure of the pressure means 6 is applied. And the weight of the touch panel (2) is transferred together, there was a structural problem that can not be accurately tested for the test area of the touch panel (2).

In addition, the conventional touch screen panel test apparatus is configured such that the pressure means 6 presses the pressure sensor 3 while pressing the touch panel 2, and thus the touch panel may be operated at a pressure higher than an appropriate pressure for pressing the touch panel 2. 2) is set to press, there was also a problem that the accurate test of the touch panel (2) is not made.

In addition, since the touch panel 2 is tested with excessively excessive pressure, there was a problem in that the touch panel 2 is damaged during the test process.

The present invention has been made to solve the above problems, an object of the present invention is to press the pressure while measuring the amount of pressure to press the touch screen panel to a set pressure to accurately test the quality of the test area of the touch screen panel The present invention provides a screen panel test apparatus.

Still another object of the present invention is to save and coordinate data of the coordinates of the test area partitioned on the touch screen panel to be tested, test the recognized touch area based on the stored coordinate values and determine whether the test area is good or not. And to provide a touch screen panel test device that can be reflected in the production of the touch screen panel by storing and managing the determined results.

Still another object of the present invention is to provide a touch screen panel test apparatus in which various tests can be performed by configuring a plurality of structures for pressurizing the test area and setting the same pressure value or different pressure values, respectively.

Still another object of the present invention is to provide a touch screen panel test apparatus that can perform a precise test by pressing the touch screen panel using an electronic balance.

Still another object of the present invention is to provide a touch screen panel test apparatus capable of testing a touch screen panel with various pressure values because the pressure value for pressing the touch screen panel may be set by adjusting the height of the structure for pressing the touch screen panel.

Still another object of the present invention is to provide a touch screen panel test apparatus that is easy to grasp by visual inspection by marking a defective position of a touch screen panel that is determined to be defective.

Still another object of the present invention is to provide a touch screen panel test apparatus capable of preventing a malfunction of a test in advance by checking foreign substances located in the touch screen panel under test.

Still another object of the present invention is to provide a touch screen panel test apparatus that can continuously carry out a test without stopping by removing foreign substances located in the touch screen panel.

Still another object of the present invention is to provide a touch screen panel test apparatus capable of variously testing a touch screen panel by setting an angle of a structure for pressing the touch screen panel.

In order to achieve the above object, the present invention provides a touch screen panel test apparatus for determining whether or not by pressing the touch screen panel, the pressing member for pressing while measuring the amount of pressure to press the touch screen panel to a set pressure, and A transfer robot having a lifting means for moving the pressing member to the touch screen panel and elevating the pressing member to press the touch screen panel, a control unit for setting the pressing amount of the pressing member, and a touch sensed by the control unit. And a display unit for displaying a pressing state of the screen panel, wherein the control unit transfers the coordinate values of the touch area partitioned on the touch screen panel by the controller based on the data stored in the DB and the coordinate values stored in the DB. An area recognition unit for recognizing the touch area in which the pressing member is positioned, and the pressing member is touch-oriented A pressure setting unit for setting a pressure to pressurize the reverse side, a touch determination unit for detecting a pressurization state of the touch screen panel to determine whether the touch area is pressed by the pressing member, and a failure in the touch determination unit And a data storage unit for storing the determined data.

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Subsequently, the pressure setting unit is configured of a plurality of the pressing member, characterized in that configured to be set to the same or different pressure values of the pressing member.

In addition, the pressing member is characterized in that the load cell for pressing the touch screen panel to the pressure value set by the control unit.

In addition, the pressing member further comprises a height sensor for measuring the height of the touch screen panel, the height sensor is installed vertically on one side of the lifting means, a guide member having a plurality of fastening holes, the guide member It is guided by the elevating member, the elevating member having a through hole corresponding to the fastening hole, characterized in that it comprises a fastening member inserted through the fastening hole and the through hole.

In addition, the transfer robot further includes a defect marking unit for marking a touch region determined as defective by the controller, wherein the defect marking unit is provided at one side of the pressing member to face the touch region, and the marking nozzle. It characterized in that it comprises a print supply for supplying a printing liquid.

In addition, the transfer robot includes a foreign material detecting unit for detecting a foreign material of the touch screen panel and transmitting a detection result to the control unit, the light emitting sensor to emit light from one side of the pressing member, and the light emitting sensor of the other side of the pressing member It characterized in that it comprises a light receiving sensor for receiving light.

In addition, the transfer robot further includes a foreign matter processing unit for removing the foreign matter detected by the foreign matter detection unit, the foreign matter processing unit and the air compressor for supplying air, and the air of the air compressor to the lower portion of the pressurizing member It characterized in that it comprises an air nozzle to spray to.

On the other hand, the transfer robot, the transfer robot further comprises an angle setting portion for adjusting the vertical state of the pressing member, the angle setting portion is provided on the upper portion of the pressing member, a rotating hole is formed at the top and the center portion A rotating member having a through hole formed therein, and a fixing hole corresponding to the rotating hole are formed at the upper center thereof, and a plurality of insertion holes corresponding to the through hole are radially spaced apart from each other at a lower portion of the transfer robot. And a bracket provided, a hinge shaft fitted into the rotation hole and the fixing hole to be matched with each other, and a fixing member fitted to the through hole and the insertion hole to be matched with each other.

According to the present invention, by pressing while measuring the amount of pressure to press the touch screen panel to a set pressure there is an advantage that can accurately test the quality of the test area of the touch screen panel.

In addition, the present invention has the advantage that can be reflected in the production of good quality of the touch screen panel by determining the quality of the test area and storing and managing the determined results.

In addition, the present invention has the advantage that a variety of tests can be made by configuring a plurality of structures for pressurizing the test area to set the same pressure value or different pressure values, respectively.

In addition, the present invention has the advantage that a precise test can be made by pressing the touch screen panel using an electronic balance.

In addition, the present invention can set the pressure value to pressurize by adjusting the height of the structure for pressing the touch screen panel, there is an advantage that can test the touch screen panel with various pressure values.

In addition, there is an advantage that it is easy to grasp with the naked eye by marking the defective position of the touch screen panel that is determined as defective.

In addition, the present invention has the advantage of preventing the malfunction of the test in advance by checking the foreign matter located in the touch screen panel to be tested.

In addition, the present invention has the advantage that the test can be continued without removing foreign matters found.

In addition, the present invention has the advantage that the touch screen panel can be tested in various ways by setting the angle of the structure for pressing the touch screen panel.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

As shown in Figures 2 and 3, the embodiment of the present invention and the pressing member 10 for pressing while measuring the amount of pressure to press the touch screen panel T to a set pressure, and the touch screen panel (T) A transfer robot 30 having an elevating means 31 for elevating the urging member 10 to move the urging member 10 to pressurize the touch screen panel T, and the urging member 10. The control unit 50 for setting the pressing amount of the display unit 70, which displays the pressing state of the touch screen panel (T) detected by the control unit 50. The transfer robot 30 may be controlled by the controller 50.

The controller 50 stores the coordinate values of the touch area T1 partitioned on the touch screen panel T, stored in data, and the controller 51 based on the coordinate values stored in the DB 51. A region recognizing unit 53 for recognizing the touch region T1 on which the pressing member 10 transferred by 50 is located, and a pressure for setting the pressure at which the pressing member 10 presses the touch region T1. A touch determination unit 57 for detecting whether the setting unit 55 and the touch screen panel T are pressed, and determining whether the touch area T1 is pressed by the pressing member 10; And a data storage unit 59 in which data determined as defective by the touch determination unit 57 is stored.

First, the controller 50 may be implemented as a PC, and the display unit 70 may be implemented as a monitor. Here, the transfer robot 30 is controlled by the control unit 50 to transfer the pressing member 10 of the touch screen panel T, and then lower the pressing member 10 to press the touch area T1. At this time, the pressing state of the pressing member 10 and the touch state of the touch area T1 are transmitted to the controller 50. Then, the non-payment state of the touch area T1 may be displayed through the display unit 70.

In addition, when the pressing member 10 is composed of one or more, it is preferable to set the pressure value of the pressing member 10 equally or differently. That is, the pressing members 10 set to different pressure values may be tested by sequentially pressing the touch area T1 of the touch screen panel T. Therefore, when the pressure values set in the pressing members 10 are set to 30g, 29g, 28g, etc., it may be determined whether the touch is recognized by the pressure of the specific touch region T1 under test. Subsequently, the determined pressure values of the respective touch regions T1 may be data and stored and managed in the data storage 59. Then, the user can easily grasp the defective state of the touch areas T1 of the touch screen panel T, and can cope with this to easily determine the cause of the failure.

The pressing member 10 is preferably composed of a load cell for pressing the touch screen panel (T), and transmits the pressing value to the control unit 50.

Here, the load cell (load cell) is an electronic sensor for measuring the pressure applied per unit area. Therefore, since the pressure for the pressing member 10 to press the touch screen panel T is measured electronically and transmitted to the controller 50, the controller 50 can precisely control the pressing member 10, thereby. Precise testing can be made. At this time, the pressure setting unit 55 may set the measured value of the load cell. In addition, since the pressure at which a person presses the finger is about 28 g to 31 g, it is preferable to set the measured value of the load cell to 30 g. Then, when the pressure for pressing the touch screen panel T by the pressing member 10 is measured 30g, the measured value is transmitted to the control unit 50 and the original position is stopped while stopping the pressing operation.

In addition, the lifting means 31 for elevating the pressing member 10 may be implemented as a cylinder or a ball screw. And, the transfer robot 30 may be composed of a ball screw 33 for transferring the cylinder left and right, and a linear motor 35 for transferring the ball screw 33 back and forth. At this time, the ball screw 33 is a screw bar 33a, a plurality of support members 33b, both ends of which are supported so that the screw bar 33a rotates idly, a motor 33c for rotating the screw bar 33a, The cylinder is installed at the lower portion and the upper portion is screwed to the screw bar (33a) may be composed of a moving member (33d) is moved left and right along the screw bar (33a) by the rotation of the screw bar (33a). Here, the motor 33c may be selectively applied to any one of a servo motor and a step motor.

In addition, the linear motor 35 includes a plurality of movers 35a having a plurality of support members 33b fixed thereto, and a plurality of stators 35b installed side by side so that the plurality of movers 35a are reciprocated in the same direction. It consists of At this time, instead of the linear motor 35, a ball screw may be applied.

Therefore, the cylinder can be conveyed back, front, left, and right by the ball screw 33 and the linear motor 35. In addition, the cylinder transferred to the front, rear, left and right is pressed down by the pressing member 10 to press the touch screen panel T.

In addition, when the plurality of pressing members 10 are installed in the ball screw 33, the touch area T1 of the touch screen panel T may be simultaneously tested by the plurality of pressing members 10.

As shown in FIG. 4, the pressing member 10 further includes a height sensor 12 measuring the height of the touch screen panel T, and the height sensor 12 includes the lifting means 31. It is installed vertically on one side of the guide member 13 having a plurality of fastening holes (13a), and guided by the guide member 13 is elevated, the through hole (14a) corresponding to the fastening hole (13a) It may be configured to include a lifting member 14 and a fastening member 15 inserted through the fastening hole 13a and the through hole 14a.

First, the pressing member 10 may be a shaft having a predetermined length. In addition, the height sensor 12 emits light on the surface of the touch screen panel T to measure the distance between the end of the pressing member 10 and the surface of the touch screen panel T and the touch screen panel T It is preferable that the optical sensor is configured to receive the reflected light reflected from the surface.

Therefore, the height sensor 12 emits light to the touch screen panel T, and receives the light reflected from the surface of the touch screen panel T to measure the distance. At this time, the height sensor 12 is preferably installed to face downward from one side of the cylinder which is the lifting means (31).

Therefore, when the distance between the light emitting portion of the height sensor 12 and the end of the pressing member 10 is adjusted in the state in which the control unit 50 recognizes in advance, the pressing member 10 is adjusted. The pressing pressure of can be adjusted. Therefore, the user may set the pressing pressure of the pressing member 10 by adjusting the height of the height sensor 12 at random.

At this time, after the elevating member 14 is lifted with respect to the guide member 13 and positioned at an optimal position, the fastening member 15 is fastened through the fastening hole 13a and the through hole 14a. Then, the height sensor 12 can be fixedly installed at the optimum position. In addition, the fastening member 15 may be implemented with an elastic pin that is forcibly fitted into the bolt and nut or the fastening hole 13a and the through hole 14a.

The transfer robot 30 further includes a defect marking unit 20 for marking the touch region T1 determined as defective by the controller 50, and the defect marking unit 20 covers the touch region T1. It may include a marking nozzle 21 provided on one side of the pressing member 10 to face, and a printing supply unit 23 for supplying a printing liquid to the marking nozzle 21.

Here, when the specific touch area T1 tested by the controller 50 is determined to be defective, the marking nozzle 21 is printed and marked on the touch area T1, so that the user determines the defective touch area of the touch screen panel T. (T1) can be easily seen with the naked eye.

Therefore, the defective touch area T1 may be stored in the data storage 59 and used for a long time, but the defective touch screen panel T may be visually checked by the user's eyes immediately after the failure occurs. The processing can be done quickly.

The transfer robot 30 further includes a foreign matter processing unit 34 for removing foreign matters detected by the foreign matter detecting unit 32, and the foreign matter processing unit 34 includes an air compressor 34a for supplying air; It may be configured to include an air nozzle (34b) for injecting the air of the air compressor (34a) to the lower portion of the pressing member (10).

Here, when a foreign matter is detected in the foreign matter detecting unit 32, the air nozzle 34b sprays the air supplied from the air compressor 34a to the lower portion of the pressurizing member 10 and is positioned above the touch screen panel T. Removed foreign matter.

At this time, the transfer robot 30 may be further configured with the foreign matter detection unit 32, the foreign matter processing unit 34, when the foreign matter detection unit 32 detects the foreign matter, the foreign matter processing unit 34 processes the test. It can continue without stopping.

In addition, when the foreign matter is positioned on the upper portion of the touch screen panel T, the surface of the touch screen panel T may be damaged by the pressing of the pressing member 10, and the pressing operation is not smoothly performed by the foreign matter. Accurate testing may not be possible. Therefore, when the foreign matter generated by the foreign matter processing unit 34 is removed, the test can be made continuously without stopping.

As shown in FIG. 5, the transfer robot 30 includes a foreign matter detection unit 32 that detects a foreign matter of the touch screen panel T and transmits a detection result to the control unit 50. It may include a light emitting sensor 32a for emitting light from one side of the member 10, and a light receiving sensor 32b for receiving the light of the light emitting sensor 32a on the other side of the pressing member 10.

Here, the light emitting sensor 32a may be installed to face each other on the movers 35a of the linear motor 35 so as to face each other on both sides of the pressing member 10.

Accordingly, the light emitting sensor 32a continuously emits light at one side of the pressing member 10, and the light receiving sensor 32b receives the light of the light emitting sensor 32a at the other side of the pressing member 10. At this time, the foreign matter detection unit 32 detects the foreign matter located in the touch area T1 and transmits the detection state to the control unit 50. Then, the control unit 50 stops the test and warns through a warning unit (not shown). Therefore, the user can cope with this, so that a precise test without foreign matter can be continuously made.

As shown in FIG. 6, the transfer robot 30 further includes an angle setting unit 60 for adjusting a vertical state of the pressing member 10, and the angle setting unit 60 includes the pressing unit member. It is provided on the upper portion 10, the rotating hole 61a is formed at the upper end and the through-hole 61b is formed in the center portion and the upper portion corresponding to the rotating hole 61a in the center The fixing hole 63a is formed, and the plurality of insertion holes 63b corresponding to the through holes 61b are radially spaced apart from each other, and the bracket 63 is provided below the transfer robot 30. A hinge shaft 65 fitted into the rotation hole 61a and the fixing hole 63a which are matched with each other, and a fixing member 67 fitted into the through hole 61b and the insertion hole 63b which are matched with each other. It can be configured to include.

Here, the rotating member 61 is fixedly installed on the upper end of the cylinder which is the lifting means 31, the bracket 63 is fixedly installed on the lower end of the moving member 33d to be moved to the ball screw (33). Then, the rotating member 61 is installed to be rotated by the hinge shaft 65 in the bracket 63, the rotating member 61 is fixed in a state rotated by the fixing member 67 in the bracket (63).

At this time, the hinge shaft 65 may be implemented as a pin member, and the fixing member 67 may be implemented as a pin bolt and a nut screwed to the pin bolt. In addition, when the pin bolt and the nut, which are the fixing member 67, are released and separated, the cylinder may be rotated at a predetermined angle.

Accordingly, when the user tightens the pin bolt and the nut, which is the fixing member 67, after precisely adjusting the vertical state of the pressing member 10, the pressing member 10 presses the upper portion of the touch screen panel T in the vertical state. can do.

In addition, the user can adjust the angle of the cylinder using the angle setting unit 60. Therefore, the pressing member 10 may press the touch area T1 of the touch screen panel T in an inclined side.

Therefore, since the user can test while pressing the touch screen panel T at various angles, various tests on the touch screen panel T can be performed.

In the above, the Example of this invention was described. It will be understood by those skilled in the art that the technical configuration of the present invention can be implemented in other specific forms without changing the technical spirit or essential features.

Therefore, the embodiments described above are to be understood in all respects as illustrative and not restrictive, the scope of the invention being indicated by the following claims rather than the foregoing description, and the meaning and scope of the claims and All changes or modifications derived from the equivalent concept should be interpreted as being included in the scope of the present invention.

1 is a perspective view of a conventional touch screen panel test apparatus.

2 is a perspective view of a touch screen panel test apparatus according to an embodiment of the present invention.

3 is a schematic block diagram of the present invention;

4 is a partial perspective view showing the main portion of the present invention.

5 is a perspective view showing another main portion of the present invention.

Figure 6 is an exploded perspective view showing another main portion of the present invention.

<Description of Symbols for Major Parts of Drawings>

10: pressure member

30: transfer robot

30: control unit

70: display unit

Claims (9)

In the touch screen panel test apparatus for pressing the touch screen panel to determine whether or not, the pressure member 10 for pressing while measuring the amount of pressure to press the touch screen panel T to a set pressure, and the touch screen panel ( A transfer robot 30 having a lifting means 31 for moving the pressing member 10 to raise and lower the pressing member 10 to press the touch screen panel T, and the pressing member (T). A control unit 50 for setting the pressurization amount of 10) and a display unit 70 for displaying the pressurization state of the touch screen panel T detected by the control unit 50, The controller 50 is A DB 51 in which coordinate values of the touch area T1 partitioned on the touch screen panel T are stored as data; An area recognition unit 53 for recognizing the touch area T1 in which the pressing member 10 transferred by the control unit 50 is located based on the coordinate values stored in the DB 51; A pressure setting unit (55) for setting the pressure at which the pressing member (10) presses the touch area (T1); A touch determination unit 57 that detects a pressing state of the touch screen panel T and determines whether the touch area T1 is pressed by the pressing member 10; Touch screen panel test apparatus, characterized in that it comprises a data storage unit (59) for storing the data determined as defective in the touch determination unit (57). delete According to claim 1, wherein the pressure setting unit 55 Comprising a plurality of the pressing member 10, the touch screen panel test apparatus, characterized in that configured to be set to the same or different pressure values of the pressing member (10). The method of claim 1, wherein the pressing member 10 Touch screen panel test apparatus, characterized in that the load cell for pressing the touch screen panel (T) by the pressure value set by the control unit (50). The method of claim 1, wherein the pressing member 10 Further comprising a height sensor 12 for measuring the height of the touch screen panel (T), The height sensor 12 is A guide member 13 installed vertically on one side of the elevating means 31 and having a plurality of fastening holes 13a; A lifting member 14 guided and lifted by the guide member 13 and having a through hole 14a corresponding to the fastening hole 13a; Touch screen panel test apparatus, characterized in that it comprises a fastening member 15 is inserted through the fastening hole (13a) and the through hole (14a). The method of claim 1, wherein the transfer robot 30 In addition, the control unit 50 further includes a bad marking unit 20 for marking on the defective touch area T1. The defect marking unit 20 may include a marking nozzle 21 provided at one side of the pressing member 10 to face the touch area T1; Touch screen panel test apparatus, characterized in that it comprises a printing supply unit 23 for supplying a printing liquid to the marking nozzle (21). The method of claim 1, wherein the transfer robot 30 It includes a foreign matter detection unit 32 for detecting the foreign matter of the touch screen panel (T) and transmits the detection result to the control unit 50, A light emitting sensor 32a emitting light from one side of the pressing member 10; Touch screen panel test apparatus, characterized in that it comprises a light receiving sensor (32b) for receiving the light of the light emitting sensor (32a) on the other side of the pressing member (10). The method of claim 7, wherein the transfer robot 30 Further comprising a foreign matter processing unit 34 for removing the foreign matter detected by the foreign matter detection unit 32, The foreign substance treatment unit 34 is an air compressor (34a) for supplying air; Touch screen panel test device, characterized in that it comprises an air nozzle (34b) for injecting the air of the air compressor (34a) to the lower portion of the pressing member (10). The method of claim 1, wherein the transfer robot 30 The transfer robot 30 further includes an angle setting unit 60 for adjusting the vertical state of the pressing member 10, The angle setting unit 60 is provided on the upper portion of the pressing member 10, the rotating member 61 is formed on the top of the rotating hole 61a and the through hole 61b is formed in the center portion; The fixing hole 63a corresponding to the rotating hole 61a is formed at the upper center, and the plurality of insertion holes 63b corresponding to the through hole 61b are radially spaced apart from each other by the radial movement of the transport robot. A bracket 63 provided below the 30; A hinge shaft (65) fitted into the rotation holes (61a) and the fixing holes (63a) which are matched with each other; Touch screen panel test apparatus, characterized in that it comprises a fixing member (67) fitted in the through-hole (61b) and the insertion hole (63b) matching each other.

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