KR100637209B1 - Chassis assembly for plasma display apparatus and plasma display apparatus comprising the same - Google Patents

Abstract

It is an object of the present invention to provide a chassis assembly for a plasma display device having a structure in which a chassis reinforcing member reinforcing the chassis base can resist deformation or damage when an impact is applied to the chassis base, and a plasma display device having the same. In order to achieve this object, the present invention is a chassis base for supporting a plasma display panel for displaying an image using gas discharge; At least one chassis reinforcing member fixed on a rear surface of the chassis base to reinforce the chassis base and having an elongated plate-like member bent in a predetermined shape; And at least one surface disposed on a surface on which the chassis reinforcing member of the chassis base is fixed and coupled to the chassis reinforcing member through a through hole provided at one end side of the chassis reinforcing member to prevent deformation of the chassis reinforcing member. A chassis assembly for a plasma display device having reinforcement means, the reinforcement means having a length longer than the sum of the thickness of the chassis base and the thickness of the chassis reinforcement member, wherein the reinforcement means penetrates the through hole. The fastening means is fastened to the protruding end side of the reinforcing means to provide a chassis assembly for a plasma display device and a plasma display device having the same, characterized in that the chassis reinforcing member and the reinforcing means are coupled.

Description

Chassis assembly for plasma display device and plasma display device having the same {Chassis assembly for plasma display apparatus and plasma display apparatus comprising the same}

1 is a perspective view of a chassis assembly for a plasma display device according to the prior art.

FIG. 2 is a cross-sectional view taken along line II-II of FIG. 1 and illustrates a modified state of the chassis reinforcing member.

3 is a partial perspective view of a chassis assembly for a plasma display device according to a preferred embodiment of the present invention.

4 is a cross-sectional view taken along line IV-IV of FIG. 3.

5 is an exploded perspective view of the plasma display device according to the present invention.

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

100: plasma display device 110: plasma display panel

120: chassis assembly 130: drive circuit board

150: chassis base 160: chassis reinforcement member

170: reinforcing means 180: fastening means

190: fixing means

The present invention relates to a chassis assembly for a plasma display device and a plasma display device having the same, and more particularly, a chassis reinforcing member reinforcing the chassis base when the impact is applied to the chassis base can resist deformation or breakage. A chassis assembly for a plasma display device having a structure and a plasma display device having the same.

BACKGROUND ART In general, a plasma display device is a flat panel display device that has recently been in the spotlight because it can be thin and realize a large viewing angle. A plasma display device combines a structure such as a chassis assembly with a plasma display panel for displaying an image and connects a circuit board for driving a panel. The plasma display module assembled at the rear of the chassis base is stored in a case and the like, and auxiliary parts are added.

1 is a perspective view of a chassis assembly for a plasma display device according to the prior art. In general, a plasma display panel (not shown) is coupled to the front of the chassis assembly 20, and a circuit board for driving the plasma display panel is installed behind the chassis assembly 20. Since the chassis assembly 20 performs a function of supporting the plasma display panel and dissipating heat generated from the plasma display panel, the chassis assembly 20 is manufactured in the form of a thin rectangular plate made of a metal having good thermal conductivity.

Since the chassis base 50 may be deformed by the weight of the plasma display panel and the chassis base and the heat transferred from the plasma display panel while the plasma display panel is coupled, the rigidity is added to the chassis base 50. A reinforcing member 60 is coupled to the rear surface of the chassis base 50 as a support member for engaging another component with the chassis base 50. The reinforcing member 60 is disposed on the rear surface of the chassis base 50 over the left and right directions, and forms a fixing part 90 by a compression molding method and is fixed to the rear surface of the chassis base 50.

Plasma display devices in which plasma display panels, circuit boards, etc. are installed in the chassis assembly are installed on the wall or perpendicular to the floor to implement a predetermined image to the user. In this case, when an external shock is applied to the plasma display device such as falling from a wall, falling to the floor, or falling during transportation, the shock is transmitted to the chassis base 50 and dispersed inside the chassis base. ), The load is concentrated and the greatest force is applied at both ends of the reinforcing member 60. FIG. 2 is a partial cross-sectional view taken along the line II-II of FIG. 1 and shows a state in which both end sides of the reinforcing member 60 are deformed by an impact. When the shock is applied to the chassis base 50, the shock is dispersed inside the chassis base 50, at which time the central portion of the reinforcing member 60 is bent, so that the largest at both ends of the reinforcing member 60. Deformation may occur such that fixing parts 90 at both ends of the reinforcing member 60 may be separated or broken. As a result, the reinforcing member 60 has a problem that it can not perform a predetermined function.

 The present invention has been made to solve the above problems, the chassis assembly for a plasma display device having a structure that the chassis reinforcing member reinforcing the chassis base can resist deformation or damage when an impact is applied to the chassis base and It is an object of the present invention to provide a plasma display device having the same.

In order to achieve the above and other objects, the chassis assembly for a plasma display device of the present invention includes a chassis base for supporting a plasma display panel for displaying an image using gas discharge; At least one chassis reinforcing member fixed on a rear surface of the chassis base to reinforce the chassis base and having an elongated plate-like member bent in a predetermined shape; And at least one surface disposed on a surface on which the chassis reinforcing member of the chassis base is fixed and coupled to the chassis reinforcing member through a through hole provided at one end side of the chassis reinforcing member to prevent deformation of the chassis reinforcing member. A chassis assembly for a plasma display device having reinforcement means, the reinforcement means having a length longer than the sum of the thickness of the chassis base and the thickness of the chassis reinforcement member, wherein the reinforcement means penetrates the through hole. The fastening means is fastened to the protruding end side of the reinforcing means, characterized in that the chassis reinforcing member and the reinforcing means is coupled.

Here, the male thread is formed at the end of the reinforcing means penetrating the through hole, in which case the fastening means is preferably a nut.

In addition, the reinforcing means is preferably one end of the boss is pressed into a predetermined hole provided in the chassis base is fixed to the rear of the chassis base.

In addition, the chassis reinforcing member is fixed by a compression molding method on the rear surface of the chassis base, in which case the compression molding method is preferably a TOX ^® fastening method.

On the other hand, the plasma display device according to another aspect of the present invention comprises a plasma display panel for displaying an image using a gas discharge; A plurality of driving circuit boards driving the plasma display panel; And the chassis assembly which supports the plasma display panel and on which the driving circuit boards are mounted.

Hereinafter, a chassis assembly for a plasma display device and a plasma display device having the same will be described in detail with reference to the accompanying drawings.

3 is a partial perspective view of a chassis assembly for a plasma display device according to a preferred embodiment of the present invention, showing a lower left portion of the chassis assembly, and FIG. 4 is a cross-sectional view taken along line IV-IV of FIG. 3.

3 and 4, a chassis assembly 120 according to a preferred embodiment of the present invention is fixed on the rear surface of the chassis base 150 and the chassis base 150 supporting the plasma display panel. Is coupled to the chassis reinforcement member 160 through at least one chassis reinforcement member 160 reinforcing the base 150 and a predetermined through hole 165 provided at one end side of the chassis reinforcement member 160. At least one reinforcing means 170 for preventing deformation of the end side of the chassis reinforcing member is provided.

A plasma display panel 110 to be described later is coupled to the front of the chassis base 150, and a driving circuit board 130 to be described later is installed to the rear of the chassis base 150. The chassis base 150 supports the plasma display panel 110 and the driving circuit board 130 at the front and the rear thereof, and releases heat generated and transferred from the plasma display panel 110. For this purpose, it is made by casting or press working as a rectangular plate in the form of a material having a good thermal conductivity such as aluminum.

The chassis base 150 serves as a structure in the plasma display apparatus, and when the plasma display panel is enlarged, the chassis base 150 must be enlarged accordingly, and thus the chassis base 150 has a considerable weight. In particular, in view of the recent trend of manufacturing a plasma display device in a thin form, it is necessary to manufacture a thin chassis base 150 as a heavy. In the case of being manufactured in a thin shape, the rigidity of the chassis base 150 may be reduced, whereby the chassis base is deformed by the weight of the plasma display panel and the weight of the chassis base and the heat generated and transmitted from the plasma display panel. There is a possibility. Thus, chassis reinforcement member 160 is added on the rear surface of chassis base 150 to add rigidity to the chassis base.

The chassis reinforcing member 160 is bent several times so that the elongated plate-shaped member made of metal has a predetermined cross section. Referring to FIG. 3, the chassis reinforcing member 160 is bent in a 'b' shape, but is not necessarily limited thereto and may be bent to have a cross section of another shape. The chassis reinforcing member 160 is disposed on the rear surface of the chassis base 150 in a horizontal direction. In addition, the chassis reinforcing member 160 may be disposed in the vertical direction according to the arrangement and design of the drive circuit board 130, and a plurality of separate members in a row rather than an elongated single member form a line. Various arrangements may be employed, such as may be deployed.

In order to bond the chassis reinforcement member 160 to the chassis base 150, a compression molding method such as a TOX ^® fastening method is used. The TOX ^® fastening method is a method of fastening two plates to be engaged with each other. The target plates are positioned between the die and the punch, and the target plates are pressed into the die with a punch to protrude the crimp portion to form the fixing part 190. The target plates are bonded to each other by engaging each other in the fixing unit 190. 4 shows that the chassis base 150 and the chassis reinforcement member 160 are engaged with each other in the fixing portion 190 so that the chassis reinforcement member 160 is fixed on the rear surface of the chassis base 150. It is shown schematically.

As described above, when the shock is applied to the chassis base 150, the shock is distributed throughout the chassis base 150, and in the process, the chassis reinforcing member 160 mitigates the shock and resists the shock. A function of preventing deformation of the chassis base 160 is performed. When an impact exceeding a predetermined impact amount is applied, the fixing parts 190 are separated or broken at both end sides of the chassis reinforcing member 160, thereby preventing the deformation. There is a possibility that the chassis reinforcing member 160 is deformed. In order to prevent this, the chassis assembly 120 according to the preferred embodiment of the present invention is provided with reinforcing means 170.

The reinforcing means 170 is preferably a cylindrical member, the male thread is formed on the outer peripheral surface of one end. In addition, the length of the reinforcing means 170 is made longer than the sum of the thickness of the chassis base 150 and the thickness of the chassis reinforcing member 160. Referring to FIG. 4, through holes 165 formed at both ends of the chassis reinforcing member 160 and through holes 155 formed through the chassis base 150 are formed. The reinforcing means 170 is disposed through the through holes 155 and 165. 4, only the left side portion of the chassis assembly 120 is shown for convenience of description, and the right side portion is similarly configured.

One end of the male thread of the reinforcing means 170 is not formed is pressed into the through hole 155 is disposed so that the reinforcing means 170 is projected vertically on the rear surface of the chassis base 150. In this case, the diameter of the through hole 155 of the chassis base is preferably smaller than the diameter of the reinforcing means 170. In this state, the chassis reinforcing member 160 is positioned in the correct position by inserting the through holes 165 formed at both end sides of the chassis reinforcing member 160 into the reinforcing means 170, thereby allowing the chassis base 150 to be positioned. The chassis reinforcing member 160 can be fixed on the rear surface of the chassis base 150 by carrying out a TOX ^® fastening by means of compression molding. Alternatively, the chassis reinforcing member 160 is fastened by fastening the fastening means 180 such as a nut to an end side of the male thread of the reinforcing means 170 which protrudes further rearward through the chassis reinforcing member 160. The combination of is completed. At this time, the fastening means 180 may be a nut of various shapes, preferably by interposing the support means such as a washer (not shown) and then fastening the nut 180 of the chassis reinforcing member 160 Joining can be completed. Here, the reinforcing means 170 is preferably a member such as a boss used to mount a circuit board or various fixing means on the rear surface of the chassis base 150, the rear portion from the chassis base 150 It is more preferable that it is a boss in which a male thread was formed in the edge part which protruded toward.

As such, in a portion in which the chassis reinforcing member 160 is mounted at the rear of the chassis base 150, the shaft reinforcing part of the chassis reinforcing member 160 is coaxial with the through holes 165 provided at both ends of the chassis reinforcing member 160. A through hole 155 is provided, and the reinforcing means 170 is disposed through the through holes 155 and 165 and protrudes through the chassis base 150 and the chassis reinforcing member 160. The nut 180 is fastened to an end portion at which the male thread is formed at 170 so as to fix the chassis reinforcing member 160 on the rear surface of the chassis base 150. Therefore, as described in connection with the prior art, the separation of the chassis base 150 on both ends of the chassis reinforcing member 160, which may occur as a result of the impact on the chassis base 150 may occur. Therefore, even when an external shock is applied to the chassis base 150 so that the load is intensively applied to the chassis reinforcement member 160, both end sides of the chassis reinforcement member 160 are not separated or deformed at the correct positions. You lose.

As a result, since the chassis reinforcement member 160 may be fixed in place even when an external shock is applied to the chassis base 150, the chassis reinforcement member 160 smoothly reinforces the chassis base 150. Can be done. Moreover, even when the chassis base 150 is made thinner in accordance with the trend of thinning manufacturing of the plasma display device, the chassis reinforcing member 160 is secured on the rear surface of the chassis base 150 with the above structure. Since the load is concentrated on the chassis reinforcement member 160 due to the impact of the chassis base 150, the end of the chassis reinforcement member 160 is firmly and reliably fixed because it is accurately maintained and fixed. A function of reinforcing the chassis base 150 may be performed.

3 and 4, a fastening means 180 such as a nut is fastened to an end side of the male thread of the reinforcing means 170 so that both ends of the chassis reinforcing member 160 are connected to each other of the chassis base 150. It is fixed on the back surface. As a modified example of this, there may be a fastening method employing a pin or a coater. That is, by forming a predetermined hole penetrating the reinforcing means 170 in the end side of the reinforcing means 170 protruding to the rear of the chassis base 150, and by hitting a pin or coater of a predetermined thickness in the hole The rear surface of the chassis base 150 and the fixing structure of both ends of the chassis reinforcing member 160 may be formed.

5 is an exploded perspective view of a plasma display device according to another aspect of the present invention. Referring to FIG. 5, the plasma display apparatus 100 according to the present invention includes a plasma display panel 110, a chassis assembly 120 and a chassis assembly 120 coupled to the rear of the plasma display panel 110. The driving circuit board 130 is disposed at the rear and drives the plasma display panel 110.

The plasma display panel 110 includes a front panel 111 and a rear panel 112. Although not shown in FIG. 5, the front panel 111 includes a front substrate, sustain electrode pairs having Y electrodes and X electrodes formed on the rear surface of the front substrate, a front dielectric layer covering the sustain electrode pairs, and the front dielectric layer. It has a protective film covering the. Preferably, the Y electrode is a common and sustain electrode and the X electrode is a scan and sustain electrode. The rear panel 112 may include a rear substrate, address electrodes formed on the front surface of the rear substrate to intersect the pair of sustain electrodes, a rear dielectric layer covering the address electrode, and a space formed on the rear dielectric layer to cause discharge. A partition wall partitioning the discharge cells and a phosphor layer disposed in the discharge cell. The structure of the plasma display panel 110 is an AC three-electrode surface discharge structure, but the present invention is not limited thereto, and the present invention employs a plasma display panel having various other structures, such as a two-electrode structure and an opposite discharge structure. It can be applied to one plasma display device.

The chassis assembly 120 supports the plasma display panel 110 and the circuit board 130 from the front and the rear, respectively. The plasma display panel 110 and the chassis assembly 120 may be coupled by an adhesive means 116 such as a double-sided tape interposed therebetween with the thermal conductive sheet 115 interposed therebetween.

The driving circuit board 130 performs a function of applying and controlling a power supply and an electric signal so that the plasma display panel 110 generates a gas discharge to implement a predetermined image. The driving circuit board 130 may include a power supply unit for supplying power, a logic unit for controlling a signal applied to implement an image, a sustain electrode driver for driving the sustain electrode pairs, an address electrode driver for driving an address electrode, and the like. The driving circuit board 130 as described above has been described as a configuration of a circuit board for driving a plasma display panel having, for example, an alternating current three-electrode surface discharge structure, as an example of various circuit board configurations. It is not limited to this. In addition, the driving circuit board 130 is electrically connected to various electrodes of the plasma display panel 110 by a connection cable 135 such as a tape carrier package.

The plasma display apparatus 100 having such a configuration can be housed in a predetermined case and assembled as a finished product so as to constitute an exterior, and the plasma display apparatus 100 can be placed at a predetermined position, for example, on a wall or on a floor. Various auxiliary supporting members and the like are provided in the chassis base 150, the chassis reinforcing member 160, or a case for accommodating the plasma display device to be used in the actual field. When the plasma display apparatus 100 is operated in the actual field or an external impact such as a drop is applied during transportation, such an impact is transmitted to the chassis base 150 and distributed as described above, and in the process The load is intensively applied to the reinforcing member 160. According to the chassis assembly 120 according to the preferred embodiment of the present invention, even if the load is concentrated to the chassis reinforcing member 160, the load is concentrated at both ends. The chassis reinforcement member 160 may reliably and reliably perform the function of reinforcing the chassis base 150 by being prevented from being separated or deformed from the chassis base 150.

As described above, according to the chassis assembly for a plasma display device according to the present invention, when the load is intensively applied to the chassis reinforcing member that reinforces the chassis base due to the impact on the chassis base, both end sides thereof may resist the concentrated load. Because the structure is designed to be separated or deformed from the chassis base, the chassis reinforcement member can reinforce the chassis base reliably and reliably.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

Claims (7)

A chassis base for supporting a plasma display panel for displaying an image using gas discharge; At least one chassis reinforcing member fixed on a rear surface of the chassis base to reinforce the chassis base and having an elongated plate-like member bent in a predetermined shape; And At least one reinforcement disposed on a surface on which the chassis reinforcing member of the chassis base is fixed and coupled to the chassis reinforcing member through a through hole provided at one end of the chassis reinforcing member to prevent deformation of the chassis reinforcing member. A chassis assembly for a plasma display device having means; The reinforcing means has a length longer than the sum of the thickness of the chassis base and the thickness of the chassis reinforcing member, And the reinforcing member is coupled to the reinforcing means by the fastening means being fastened to the protruding end side of the reinforcing means while the reinforcing means passes through the through hole. The method of claim 1, And a male screw formed at an end portion of the reinforcing means penetrating the through hole. The method of claim 2, The fastening means is a chassis for a plasma display device, characterized in that the nut. The method of claim 1, And the reinforcing means is a boss whose one end is press-fitted into a predetermined hole provided in the chassis base and fixed to a rear surface of the chassis base. The method of claim 1, And the chassis reinforcing member is fixed on the rear surface of the chassis base by a compression molding method. The method of claim 5, wherein The press molding method is a chassis assembly for a plasma display device, characterized in that the TOX ^® fastening method. A plasma display panel for displaying an image using gas discharge; A plurality of driving circuit boards driving the plasma display panel; And 7. The plasma display apparatus of claim 1, further comprising a chassis assembly as claimed in any one of claims 1 to 6, which supports the plasma display panel and faces the driving circuit boards.

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