KR100535237B1 - Cooling fan of the plasma display panel television - Google Patents

Abstract

The present invention relates to a heat dissipation fan installation structure of the plasma display television, in order to maintain a stable heat dissipation effect by maintaining the optimal heat flow direction because the heat dissipation fan is always horizontal in case the plasma display television is installed inclined, A plasma display television equipped with a heat dissipation fan for allowing heat flow through a heat dissipation device, comprising: inclination measuring means for measuring an inclination of the plasma display television; Driving means for driving in accordance with the inclination information of the inclination measuring means; And a heat dissipation fan mounting structure of the plasma display television, which is connected to the driving means and includes a horizontal holding link means for keeping the heat dissipation fan horizontally inside the plasma display television. By maintaining the synergy optimally, it is possible to form an optimal cooling flow path, thereby preventing problems due to heat variation, thereby improving reliability.

Description

Heat dissipation fan installation structure of plasma display TV {Cooling fan of the plasma display panel television}

The present invention relates to a heat dissipation fan installation structure of a plasma display television, and more particularly, to maintain a heat dissipation performance by optimizing air flow by keeping the heat dissipation fan horizontal when the angle of the plasma display television is changed. A heat dissipation fan mounting structure of a plasma display television.

Plasma Display Panel (PDP) is an image display device that uses plasma discharge of gas by arranging at least two discharge electrodes, that is, an anode and a cathode, in a discharge space filled with gas. It is in the spotlight as the next generation imaging device.

Such plasma display panels are thin and easy to realize high image quality, and various similar devices are actively developed. Examples of such flat panel display devices include active display devices such as EL, LED, PDP, and LCD, ECD, etc. There is a passive display device of the present invention, and the device covered by the present invention is a PDP display device which is substantially one of the active devices.

As is well known, in the case of a PDP displaying an image signal using three electrodes, that is, a sustain electrode, a write / hold electrode, an addressing electrode, and a fluorescent material, one frame is obtained by sequentially scanning digital image data line by line. It is scanned in a non-interlaced manner to express and displayed on the panel.

Due to the driving characteristics for the display of such a video signal, a considerable amount of heat is generated in the panel, which may cause malfunctions and failures of circuit components and panels. Thus, by dissipating heat generated by panel driving in a general PDP, A heat radiating fan is provided for cooling the panel.

1, the mask front 5 and the filter glass 10 are installed in the front, and the back cover 20 is installed in the rear of the plasma display television, and the filter glass 10 is installed in the rear. The plasma display panel glass 15 is installed between the back cover 20 and the back cover 20.

In addition, a heat radiating fan 30 is installed inside the back cover 20 to discharge high-temperature heat flow generated from the plasma display panel glass 15, and for inflow of outside air by the heat radiating fan 30. A plurality of through holes 35 are formed in the back cover 20 over a wide range.

In the plasma display television configured as described above, when the heat radiating fan 30 is driven, outside air is introduced through the through hole 35, and the introduced outside air is radiated while being in contact with the plasma display panel glass 15 where high temperature is generated. Will cause.

On the other hand, since plasma displays are large in size, most of them are installed on the wall in homes. In the case where such a TV is installed on the wall, depending on the inclination angle, for example, according to the experiment of the applicant, the panel glass and the back plate are used. When the upper temperature of the inner element including the inclination is more than 20 degrees to 30 degrees more than the lower temperature was found that a severe temperature deviation of more than 13 degrees occurs.

As a result of examining these reasons, it has been found that as the inclination angle increases, the area of the plurality of through holes 35 installed in the upper portion of the back cover 20 becomes smaller than in the case of the horizontal. ) Heats in the inclined state, and the heat flow direction is severely unstable due to the collision of the heat flow due to the buoyancy to flow upward and the wind direction of the heat radiating fan 30 having the lateral flow direction. As a result, a high temperature heat flow is caused to flow inside the television by the heat dissipation fan 30, so that the temperature is severely increased in the upper layer portion.

The present invention has been invented to solve the above problems, the object of the present invention is to ensure stable heat dissipation by maintaining the optimum heat flow direction because the heat dissipation fan is always in a horizontal state in case the plasma display TV is installed inclined It is to provide a heat dissipation fan mounting structure of the plasma display television that the effect is maintained.

In order to achieve the above object, the present invention provides a plasma display television equipped with a heat dissipation fan that allows heat flow through a heat dissipation device, comprising: inclination measuring means for measuring the inclination of the plasma display television; In order to drive according to the inclination information of the inclination measuring means, a sliding groove provided on the side of the heat dissipation port, a movable bar which is settled inside the sliding groove and has gear teeth formed on one side, and is engaged with the gear value of the movable bar in accordance with the signal of the inclination measuring means Drive means including a drive motor driven; In order to keep the heat dissipation fan horizontally inside the plasma display television, one side is hinged to the lower end of the movable bar and the horizontal frame is hinged to the other side of the horizontal frame to maintain the same angle as the movable bar. The present invention provides a heat dissipation fan mounting structure of a plasma display television including a horizontal maintenance link means including a variable bar hinged at a long hole formed at an upper side thereof.

The present invention is characterized in that the leveling link means is provided so that the heat dissipation fan installed inside the plasma display television is always horizontal, so that the air flow of the heat dissipation fan maintains the optimal heat dissipation flow path when the television is installed with the inclination at the wall. Has

The internal structure of the plasma display television of the present invention having the above characteristics is shown in Fig. 2, and the same reference numerals are given to the same components as in the prior art.

As shown in Fig. 2, the inside of the plasma display television of the present invention is provided with a filter glass 10 behind the mask front 5 formed in front of the plasma display television, and behind the filter glass 10. The back cover 20 is installed, and the plasma display panel glass 15 is installed between the filter glass 10 and the back cover 20.

A heat dissipation opening 22 for dissipating heat generated inside the plasma display television is formed at the upper portion of the back cover 20, and the inclination measuring means 40 is disposed at a predetermined position below the heat dissipation opening 22. It is installed, which is a means for measuring the inclination at a predetermined position using a conventional laser or infrared.

In addition, the driving means 50 and the horizontal link member 60 according to the present invention are installed directly below the heat dissipation port 22, and the heat dissipation fan 30 is installed in the horizontal link member 60.

In more detail, in a plasma display television equipped with a heat dissipation fan 30 for allowing heat flow through the heat dissipation port 22, the driving means 50 is a sliding groove 56 provided on the side of the heat dissipation port 22. ), The movable bar 54 which is recessed into the sliding groove 56 and has gear teeth formed on one side thereof, and is engaged with the gear teeth of the movable bar 54 to be driven according to the signal of the inclination measuring means 40. Consisting of a drive motor 52.

Thus, the driving means 50 can be driven up and down according to the inclination information of the inclination measuring means 40.

In addition, the horizontal retaining link means 60 is one side is hinged to the lower end of the movable bar 54 and the horizontal frame 62, the heat dissipation fan 30 is settled, the other side and the hinge of the horizontal frame 62 Coupled to, and maintains the same angle as the movable bar 54, consisting of a variable bar 64 hinged in the long hole 66 formed on the upper side.

Thus, the horizontally holding link means 60 can keep the heat dissipation fan 30 horizontally inside the plasma display television by interlocking with the driving means 50.

The effect of this invention comprised as mentioned above is demonstrated.

When the plasma display television of the present invention is driven, the digital image data is sequentially scanned line by line in the process of displaying an image signal using three electrodes, that is, a sustain electrode, a write / hold electrode, an addressing electrode, and a fluorescent material. The image information is displayed on a panel by scanning in a non-interlaced manner representing one frame. Due to the driving characteristics for the display of the video signal, a considerable amount of heat is generated in the glass panel 15.

The high heat generated as described above inhales outside air from a through hole (not shown) formed under the television by driving the heat radiating fan 30, and causes the heat flow to flow upward while contacting the glass panel 15. Discharged to (22).

Thus, the inside of the plasma display television is radiated by suction of the outside air as described above, and thus the heat flow is maintained vertically upward, thereby maintaining the optimum heat flow state corresponding to the buoyancy of the heat flow.

On the other hand, in the normal state as described above, the case where the plasma display television is installed at a certain angle on the wall is shown in FIG.

When the plasma display television has an inclination as described above, the inclination measuring means 40 applies predetermined inclination information, that is, information such as an inclination angle, to a controller not shown, and the driving is performed based on the inclination information applied to the control unit. The rotation speed of the drive motor 52 of the means 50 is determined.

When the drive motor 52 is rotated at a predetermined determined speed by the above inclination information, the movable bar 54 engaged with the drive motor 52 is vertically upwardly upward, for example, inside the sliding groove 56. Is pulled in.

By the movable bar 54 drawn into the sliding groove 56 as described above, the horizontal frame 62 hinged by the movable bar 54 from the lower side also moves while drawing a certain arc, At this time, the horizontal frame 62 is hinged to the other side, the horizontal frame 62 is formed with a predetermined weight and at the same time the heat radiating fan 30 is settled to maintain a horizontal state. That is, since both sides of the horizontal frame 62 is hinged, when the horizontal frame 62 is pulled by the movable bar 54, the horizontal frame 62 is only changed in position while maintaining horizontality. To this end, since the variable bar 64 hinged to the other side of the horizontal frame 62 is hinged in a state where the long hole 66 is formed at the upper side, the variable bar 64 is moved upwards so that the horizontal frame ( 62 is always level.

Thus, since the heat radiating fan 30 is driven while the horizontal frame 62 is kept horizontal, the air flow inside the plasma display television in the inclined state always discharges high heat upwards, and the heat radiating fan 30 ) Is always horizontal to the area itself of the heat dissipation port 22, so that it is possible to maintain a constant air discharge state, from which the upper side of the plasma display television always flows buoyant heat flow upwards, so that temperature deviation does not occur. The state can be kept constant in the state.

As described above, in the present invention, when the installation angle of the plasma display television has an inclination, the inclination measurement means 40 automatically measures the inclination to drive the driving means 50, so that the linked horizontal frame 62 is always connected. Since the heat dissipation fan 30 placed in the horizontal frame 62 maintains the heat flow function in a horizontal state at all times, it may be discharged along a constant flow path without hot air remaining.

According to the heat dissipation fan mounting structure of the plasma display television of the present invention, it is possible to optimally maintain the synergistic effect caused by the buoyancy of the high temperature heat flow in the plasma display television to form an optimal cooling flow path, thereby preventing problems caused by thermal deviation. There is an effect that the reliability of the plasma display television is improved.

1 is a cross-sectional view of an installation state of a heat radiating fan of a conventional plasma display television.

Figure 2 is a sectional view of the main part showing the configuration of a heat radiation fan according to the present invention.

Fig. 3 is a sectional view showing the principal parts showing the operational state of the present invention when the television is inclined;

<Explanation of symbols for main parts of the drawings>

20: back cover 22: heat dissipation opening

30: heat dissipation fan 40; Inclination measuring means

50: drive means 52: drive motor

54: movable bar 56: sliding groove

60: level holding link means 62: horizontal frame

64: variable bar 66: long hole

Claims (3)

In a plasma display television provided with a heat dissipation fan 30 that allows heat flow through a heat dissipation port 22, Inclination measuring means (40) for measuring the inclination of the plasma display television; Driving means (50) for driving in accordance with the inclination information of the inclination measuring means (40); And And a horizontal retaining link means (60) connected to said drive means (50) for maintaining said heat radiating fan (30) horizontally inside said plasma display television. The method of claim 1, wherein the drive means 50, A sliding groove 56 installed at a side of the heat dissipation port 22; A movable bar 54 which is recessed into the sliding groove 56 and has gear teeth formed on one side thereof; And And a drive motor (52) engaged with the gear value of the movable bar (54) and driven according to the signal of the inclination measuring means (40). The method of claim 1 or 2, wherein the leveling link means (60) A horizontal frame 62 having one side hinged to a lower end of the movable bar 54 and having the heat dissipation fan 30 seated thereon; And Plasma hinge is coupled to the other side of the horizontal frame 62, maintains the same angle as the movable bar 54, and comprises a variable bar 64 hinged in the long hole 66 formed on the upper side Heat dissipation fan installation structure of display TV.