KR20080026299A - Altitude noise measurement apparatus for a display device - Google Patents

Abstract

An altitude noise measurement apparatus for a display device is provided to enable the front of the altitude noise measurement apparatus to be opened by a door so as for the display device, pushed from the front to the rear, to be set at a predetermined distance, thereby measuring the altitude noise of the display device reliably without moving to an alpine region. A low pressure chamber is formed in a wall(2), and a side of the wall is opened. The opened side of the wall is opened or closed by a door(3). A vacuum pump(7) is linked with the low pressure chamber to discharge the inner air of the low pressure chamber forcibly. A valve(9) holds or releases the vacuum state of the low pressure chamber. A stopper(31) is extended from the wall to the inner space to set the position of a display device at a predetermined position. A microphone(32) is installed holding a predetermined distance away from the stopper.

Description

Altitude noise measurement apparatus for a display device

1 is a front view of the altitude noise measuring apparatus of the display device according to the present invention.

Figure 2 is a plan cross-sectional view of the high noise measuring apparatus according to the present invention.

Figure 3 is a block diagram illustrating the operation of the high noise measurement apparatus according to the present invention.

<Explanation of symbols for the main parts of the drawings>

1: altitude noise measurement device 2: wall 3: door

4 handle 5 fixing part 7 vacuum pump

9: valve 31: stopper

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a high noise measuring apparatus, and more particularly, to a high noise measuring apparatus of a display apparatus for measuring a noise generated when a plasma display apparatus is used in an alpine region by artificially placing a plasma display apparatus in a low pressure environment. It is about.

Plasma display devices are display devices capable of realizing a large screen by being used with a plasma display module mounted therein. Of course, in order to implement the display device to which the plasma display module is applied as a whole, it is natural that various additional circuits capable of driving the plasma display panel should be further attached.

Here, the object of the present invention may include not only the plasma display panel itself, but also any display device such as a television or a monitor on which these panels are mounted. Hereinafter, a display device is referred to as a display device of any form or structure to which the plasma display module is applied.

The plasma display panel is a display device that uses visible light generated by the phosphor when ultraviolet rays generated by the discharge of the gas injected into the panel excite the phosphor. Since the plasma display panel is thin, light, and direct light emitting type, the use of the plasma display panel is increasing due to the advantages of high color clarity.

Such a method of manufacturing the plasma display panel will be briefly described. First, the front substrate and the rear substrate are manufactured, and then the front substrate and the rear substrate are bonded and sealed using a sealing member. Then, after the air in the sealed inner space is drained, a mixed gas such as xenon (Xe) and neon (Ne) is put in to cause a discharge phenomenon. Here, the pressure of the mixed gas enclosed in the inner space of the plasma display panel affects the operation of the plasma display panel.

Specifically, the pressure of the mixed gas is set at a pressure sufficient to act as a negative pressure relative to atmospheric pressure at the place where the plasma display panel is used. However, in the high mountains, since the atmospheric pressure is so low, the pressure of the mixed gas is relatively high, and there is a problem in that the distance between the front substrate and the rear substrate is increased. Due to this problem, the movement of charges between the increased intervals is free, resulting in deterioration of image quality due to mis-discharge of the pixels. In addition, since the protective film and the partition wall in the substrate are not in close contact with each other, standing waves are generated on the front substrate and the rear substrate according to the on / off of the power supply to the pixels, thereby causing vibration in the plasma display panel. Such vibration leads to noise, which eventually causes the plasma display panel to resonate and amplifies the noise, which is called high noise. Such a problem regarding high noise is more serious due to the larger size of the plasma display panel.

Since such vibration noise is inconvenient for the user, the manufacturer of the display device moves to an area in which the display device is intended to be sold, usually to a high mountain area, and then uses the display device in the area to increase the level of high noise. Measure However, this is not only expensive, but also takes a long time.

Under such a background, there is a need for a device capable of measuring altitude noise of a display device without moving the display device to a high mountain area.

In addition to this, even in the case where a device for reducing the high noise itself is provided inside the display device, the high noise measurement device is essentially required to measure the effect obtained by the high noise reduction device.

The present invention has been proposed in the background as described above, when measuring the altitude noise with respect to the display device using the plasma display module, the altitude of the display device that can conveniently measure the noise without moving the display device to the high mountains We propose a noise measuring device.

An apparatus for measuring altitude noise of a display apparatus according to the present invention includes: a wall having a low pressure chamber formed therein and having one surface opened; A door that selectively opens and closes one open surface of the wall; A vacuum pump communicating with the low pressure chamber and forcibly discharging internal air of the low pressure chamber; A valve for maintaining or releasing a vacuum of the low pressure chamber; A stopper extending from the wall toward the inner space to set the seating position of the display device to the home position; And a microphone installed while maintaining a constant distance relationship with the stopper.

An apparatus for measuring altitude noise of a display apparatus according to the present invention includes: an environmental composition unit for forming an internal space at a lower pressure than atmospheric pressure; A noise sensor which measures a high level of noise generated by the display device in a state in which the display device is placed in a low pressure state; And a controller for storing at least the measured altitude noise.

According to the present invention, a high noise level of a display device, particularly a display device in which a plasma display module is used, can be conveniently measured at a production site. This eliminates the inconvenience of moving to high mountains with a separate display device that requires experiments, reduces costs, and can measure altitude noise while continuously changing the test environment for altitude and pressure. The advantage is that it can be measured accurately.

Hereinafter, with reference to the drawings will be described in detail a specific embodiment of the present invention. However, the spirit of the present invention is not limited to the accompanying embodiments, and those skilled in the art who understand the spirit of the present invention can easily add, change, delete, add, etc. other components included in the scope of the same idea. It may be proposed, but this is also included within the scope of the present invention.

1 is a front view of a high noise measuring apparatus of a display apparatus according to the present invention.

Referring to FIG. 1, the altitude noise measuring apparatus 1 according to the present invention selectively includes a wall 2 providing a low pressure chamber in which a display device is mounted, and an open portion in front of the wall 2. Door 3 for opening and closing, a handle 4 for sealing the low pressure chamber inside when the door 3 is closed, and a fixing part for pressing the handle 4 to press the door toward the wall. (5) is provided. Here, the handle 4 is provided on the wall 2 side and hinged, and the fixing portion 5 is provided on the door 3 side to allow the handle 4 to be hooked. It is, of course, not limited to this case and may be provided in the reverse case.

In addition, there is provided a vacuum pump 7 for forcibly discharging air in the internal space of the low pressure chamber to the outside, and a pipe connecting the vacuum pump 7 and the low pressure chamber. The conduit is provided with a flexible tube (8) to allow the position of the vacuum pump (7) and the wall (2) to be variable with each other, a fixed tube for connecting the flexible tube (7) and the wall (2) to each other 11 is provided. Further, the fixing pipe 11 is further provided with a valve 9 so that the valve 9 is opened when the air inside the low pressure chamber is drawn out using the vacuum pump 7 during the progress of the high noise measurement, and the desired vacuum When the vacuum pump 7 is turned off in order to measure the internal pressure, the valve 9 is closed to maintain the vacuum in the low pressure chamber.

In addition, a caster 10 is formed on the lower surface of the wall 2 to allow the altitude noise measuring apparatus 1 to move conveniently. By doing this, it is possible to conveniently move the high noise measuring apparatus 1 to the desired experimental apparatus, and thus the user's convenience can be improved. Reference numeral 6, which is not described, is used for opening and closing operations of the door 3 as a hinge.

FIG. 2 is a cross-sectional plan view of the high noise measuring apparatus according to the present invention. Referring to FIG. 2, the detailed configuration of the high noise measuring apparatus according to the present invention and its operation state will be described in detail.

First, a separate configuration that is not described by FIG. 1 will be described with reference to FIG. 2. The wall 2 has a long rectangular cross section in the left and right directions with reference to FIG. 2. This is to conveniently store the inside of the low-pressure chamber in a state in which the display device is standing up through the front opened when the door 3 is opened. In this case, there is no need to install an additional structure inside the low pressure chamber, so that the user may obtain an advantage of convenience. In addition, since the display device manufactured in the state of the test object can be seated inside the low-pressure chamber as it is, it is not necessary to install additional structures for the test object in order to prevent damage to the test object that may occur during the test. You can get the advantages.

The sound absorbing material 30 is provided on the inner surfaces of the wall 2 and the door 3 as a whole. The sound absorbing material 30 is not only to prevent the noise generated from the outside to affect the interior of the low-pressure chamber, as well as the sound generated inside the sound absorbing material 30 is absorbed by the sound absorbing material 30 through the microphone 32 It is to only absorb the high noise generated in the phosphorus sample 20.

In addition, a transparent window 12 is provided at one side of the wall 2, which allows the external worker to observe the pressure gauge 33. Thus, when the pressure inside the low pressure chamber reaches a constant state, the vacuum pump 7 is turned off, the valve 9 is closed, the power is supplied to the sample 20, and the microphone 32 is turned on to measure the altitude noise. do.

In addition, a sealing portion 13 is introduced into the contact portion between the door 3 and the wall 2. In detail, when the door (3) is closed, the sealing member, which is exemplified by a thin rubber, is introduced into the contact surface of the wall (2) and the door (3). Since the outside air is not introduced into the low pressure chamber by the sealing portion 13, the low pressure state inside the low pressure chamber can be reliably formed. If even a small amount of air flows into the inner space of the low pressure chamber, since the pressure in the inner space of the small low pressure chamber is increased, the sealing part 13 is essentially provided.

In addition, a communication portion 34 is further provided to penetrate the inner and outer portions of the wall 2 so as to communicate the inner space and the outer space of the low pressure chamber with each other. Through the communication unit 34, a signal line for transmitting the acoustic signal sensed by the microphone 32 to the outside, and a power line for applying power to the sample 20 placed inside the low pressure chamber pass through. do. The communicating portion 34 may be a tube, the tube being made of a coagulation material such as silicon so that the periphery of the signal line and the power line is completely sealed against the wall 2.

In addition, a stopper 31 is formed on the inner surface of the rear side of the wall 2 to allow the display device as the sample 20 to be seated in the low pressure chamber. The stopper 31 extends forward from the inner side of the rear wall, and the end of the extended stopper 31 is slightly widened so that the front surface of the display device is stably placed in the correct position. In order to be able to support the front surface of the sample 20 in a plurality of portions, two stoppers 31 are formed, one on each of the left and right sides, and more preferably, one on four corners of the sample 20. More preferably, dogs are provided. In the drawings, stoppers 31 are formed one by one on the left and right sides for convenience of description.

If there is a stopper 31 as described above, the user has the convenience of simply putting the display device to a depth that can reach the stopper 31, without difficulty of where to place the display device inside the low pressure chamber. .

In addition, the stopper 31 may obtain an advantage of accurately setting the position between the sample 20 and the microphone 32 when the sample 20 is inserted. In other words, the distance between the microphone 32 and the front surface of the sample can be made constant when the sample 20 is placed inside the low pressure chamber by keeping the interval between the ends of the microphone 32 and the stopper 31 constant. will be. For example, if the distance between the end of the stopper 31 and the end of the microphone 32 is 10 centimeters, the microphone 32 and the sample 20 in a state where the user mounts the sample 20 inside the low pressure chamber. The distance to the front of the car is itself 10 centimeters. Therefore, when the sample 20 is placed in the low pressure chamber and tested, the microphone 32 can always measure the altitude noise detected at a distance of 10 centimeters from the front of the sample 20 as a display device. It will be possible.

Here, eight microphones 32 are placed at three sides of the sample 20 along the front edge of the sample 20, and one more is formed at the center of the microphone 32 to provide a total of nine microphones. This is because the altitude noise of the display device is generated most along the edge of the front part of the display device, and therefore, it is accurate to measure the altitude noise of the edge of the display device.

The operation of the altitude measurement device of the display device according to the present invention will be described briefly. First, the user opens the door 3 using the handle 4 and puts the sample 20 as a display device inside the low pressure chamber surrounded by the wall 2. In this case, the sample 20 is inserted so that the front portion of the display device faces inward, and the stopper 31 is in contact with the front surface of the sample 20. In this case, the microphone 32 can always measure the altitude noise generated at eight points of the edge of the display device and one point of the display center at a constant distance.

After the sample 20 is placed inside the low pressure chamber, the door 3 is closed and the low pressure chamber is sealed using the handle 4 and the fixing part 5. In this case, the contact portion of the door 3 and the wall 2 is tightly sealed by the sealing part 13, so that outside air does not flow into the low pressure chamber.

After closing and closing the door 3, the vacuum pump 7 is operated to draw out the air inside the low pressure chamber. At this time, the valve 9 is in an open state. While the vacuum pump 7 is in operation, when the pressure gauge 33 inside the low pressure chamber is reached through the transparent window 12 and reaches the pressure target, the vacuum pump 7 is turned off and the valve 9 is closed.

After that, the altitude noise measurement is started while the sample 20 and the microphone 32 are turned on. Then, the degree of noise detected through the microphone 32 is transmitted to the external storage medium through the communication unit 34 and stored, and later analyzed. In this case, since external noise may be shielded by the sound absorbing material 30, the external noise does not affect the microphone 32.

After the experiment of the high noise measurement is completed, the valve 9 is opened in a state in which the vacuum pump 7 is not operated, and the outside air flows into the low pressure chamber through the pipes 8 and 11 and the low pressure chamber is opened. The internal low pressure atmosphere is eliminated. After the internal pressure of the low pressure chamber reaches atmospheric pressure, the door 3 is opened and the sample 20 can be taken out.

Meanwhile, in the spirit of the present invention, various other embodiments different from the above-described embodiments may be further assumed. The present invention may be applied to a high noise region generated when a display device using a plasma display module is placed in a low pressure atmosphere. The main focus is to be able to measure and use conveniently. Therefore, various other embodiments can be further proposed within this range.

For example, the pressure gauge 33 and the microphone 32 may be linked to each other so that the data of the altitude noise measured by the microphone 32 may be recorded for each pressure measured by the pressure gauge 33. .

In addition, the pressure gauge 33 and the vacuum pump 7 are interlocked with each other, and when the pressure inside the low pressure chamber is changed due to leakage of air, the vacuum pump 7 is automatically operated so that the desired pressure is always maintained. It can also be adjusted. In this case, the valve 9 and the vacuum pump 7 should be interlocked with each other, so that the noise generated by the vacuum pump 7 does not affect the microphone 32. 7) should be far from the low pressure chamber.

In a specific embodiment of the present invention described above, the microphone 32 is operated only when the vacuum pump 7 is turned off in order to prevent the noise generated from the vacuum pump 7 from affecting the low pressure chamber. It will be easily guessed by the above-described configuration that the noise is to be measured.

The operation of the altitude measurement apparatus of the display apparatus according to the present invention will be conceptually described again with reference to the block diagram shown in FIG. 3.

Referring to Figure 3, the high noise measuring apparatus of the present invention includes a noise sensor 52 for measuring the noise generated from the sample that is a display device, an environmental composition unit 53 for creating a pressure of the low pressure chamber to the test target pressure, The controller 51 is provided so that the noise sensor and the environmental composition unit interlock with each other. The environmental composition part 53 includes a vacuum pump 54 which draws out the internal air of the low pressure chamber to the outside, and an opening / closing valve 55 which maintains or releases the vacuum state. Furthermore, both auxiliary components such as the wall 2 and the door 3 can be included.

Here, the noise sensor 52 may be exemplified as a plurality of auxiliary articles required for the operation of the microphone 32 and the microphone 32. The controller 51 may be illustrated as a microcomputer, and may perform operations such as storing noise data measured by the noise sensor 52, controlling on / off of the noise sensor 52, or the like. The control of the operation state of the vacuum pump 54, or may be viewed as a configuration for performing the function of controlling the operation of the on-off valve (9). Of course, in some cases, the control unit 51 may be provided in the form of detecting only the noise measured by the noise sensor 52 without being associated with all the components, or may control only the vacuum pump 54. In addition, the pressure gauge may additionally receive the additional pressure to perform a function as a control unit to be tested in a fully automated form.

With reference to the above configuration, the operation of the altitude measurement device according to the present invention will be described again.

First, the environment composition part 53 is operated in a state in which a sample is placed in the low pressure chamber, so that an environment to be tested on the sample, which is an environment for a low pressure atmosphere, is appropriately formed. In order to perform the experiment in the created environment, the experiment is conducted while the noise sensor 52 is brought close to the front surface of the sample 20. A specific aspect of the experiment is to measure the altitude noise generated from the front of the sample, especially the rim and center.

The controller 51 measures at least the altitude noise generated by the noise sensor 52, obtains the same data as the experiment in the alpine atmosphere, and uses it for later analysis.

Since the present invention described above establishes a low pressure atmosphere and measures the noise of the sample according to the pressure atmosphere, there is a fear that it can be easily seen by a general operator of the low pressure chamber. However, it should be noted that the present invention is an apparatus for testing a display device to the last, and is not an invention related to a low pressure chamber, and the position of a person skilled in the art should be considered at the level of a person skilled in the display device field, not a person skilled in the low pressure chamber. . Therefore, even a person skilled in the art to which the low pressure chamber belongs, it cannot be easily considered to measure the altitude noise using the low pressure chamber for the display device in which the plasma display module is used.

In addition, the present invention provides a number of various technical features to reliably measure the high noise of the display device without moving to a high mountain range.

First, in order to slide the display device from the front to the rear so that the display device can be placed at the correct distance, the front part of the altitude noise measuring device is provided to be opened and closed by the door. To this end, it is provided in the form of a low pressure chamber in the transverse direction long and in the longitudinal direction short.

In both cases, a stopper extends forward from the wall of the rear part so that the display device is always placed at a constant distance, and a plurality of stoppers are provided. Furthermore, the microphone is provided in a length state associated with the extension distance of the stopper, so that the altitude noise is always measured in a constant state.

Third, in the state in which the microphone is operated and the altitude noise is measured, the present invention is to measure the noise in the off state after the vacuum pump is operated so that a large amount of altitude noise generated in the vacuum pump is not affected. .

Fourth, the valve is installed for the safety of use to operate the vacuum state inside the low pressure chamber by opening and closing the valve. The valve may be installed at a position other than the pipe line, but if the valve is installed at another position, its own valve of the vacuum pump is required, resulting in an increase in cost.

Fifth, each point corresponding to the edge of the display device in order to analyze the noise generated from the display device comprehensively for each location of the display device, and in particular to measure the noise at the edge of the display device that generates a large amount of noise Noise is being measured at

Sixth, the sealing part is further interposed between the door and the wall, so that the sealed state inside the low pressure chamber is reliably maintained.

Seventh, in order to reduce the noise state inside the low pressure chamber, a sound absorbing material is further formed on the inner wall of the low pressure chamber.

Eighth, the caster is installed so that the high noise measuring device is conveniently moved in a small state, and the vacuum pump is connected by a flexible tube so as to conveniently move to a separate article from the low pressure chamber.

Ninth, while the power line and signal line are introduced therein, the conduit is completely sealed to the wall by an article of solidification material such as silicon in order to ensure excellent maintainability of the low pressure state inside the small low pressure chamber. have.

According to the present invention, when measuring altitude noise with respect to a display device using a plasma display module, noise can be conveniently measured without moving the display device to a high mountain area.

In addition, various analyzes of the measured noise can be performed, so that the altitude noise due to the external pressure can be analyzed more closely.

Claims (7)

A wall for forming a low pressure chamber therein and having one surface opened; A door that selectively opens and closes one open surface of the wall; A vacuum pump communicating with the low pressure chamber and forcibly discharging internal air of the low pressure chamber; A valve for maintaining or releasing a vacuum of the low pressure chamber; A stopper extending from the wall toward the inner space to set the seating position of the display device to the home position; And An apparatus for measuring noise level of a display device including a microphone installed while maintaining a constant distance relationship with the stopper. The method of claim 1, A power line for applying power to the display device and a signal line for transmitting a signal of the microphone further includes, An apparatus for measuring noise level of a display device including a communication unit for allowing the line to be drawn out through the wall. The method of claim 1, And the stopper extends forward from the rear wall of the low pressure chamber, and the microphone extends forward shorter than an extension length of the stopper. The method of claim 1, The valve is a high noise measurement device of a display device provided on a pipe connecting the vacuum pump and the low pressure chamber. The method of claim 1, The microphone is a high noise measurement device of a display device provided along a rim of the display device. The method of claim 1, Altitude measurement device of the display device provided with a caster at the lower end of the wall. An environmental composition unit forming an internal space at a lower pressure than atmospheric pressure; A noise sensor which measures a high level of noise generated by the display device in a state in which the display device is placed in a low pressure state; And And a control unit for storing at least the measured altitude noise.

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