KR100889534B1 - Liquid Crystal panel fixing structure of Liquid Crystal Display module - Google Patents

Abstract

The present invention relates to an LCD module, and, when assembling a liquid crystal panel of a conventional LCD module, by simply attaching and fixing the liquid crystal panel to a lower frame without having a separate upper chassis, productivity in the assembling process is greatly improved, as well as a liquid crystal panel. The liquid crystal panel fixing structure of the LCD module is to solve the various problems caused by the contact with the upper chassis.

To this end, the present invention is a backlight assembly (1) for uniformly irradiating the surface light upward; Liquid crystal is encapsulated between the upper and lower plates 200a and 200b, which are glass substrates, and polarizing covers 201 are attached to the outer and upper surfaces of the upper and lower plates, respectively, to display the surface light of the backlight assembly 1 according to electrical signals. A liquid crystal panel 2 for realizing it; A circuit unit 3 such as a PCB (300) and a TCP (301) for controlling an image displayed on the liquid crystal panel by an electrical signal; A mechanism part including a lower frame 400 into which the backlight assembly 1 and the liquid crystal panel 2 are inserted, and a shield cover 402 provided on the rear surface of the lower frame to protect circuit components ( In the LCD module consisting of 4), the shield cover 402 is integrally formed along the circumference of the polarizing cover 201 attached to the upper plate of the liquid crystal panel 2, the liquid crystal panel 2 is a lower frame ( The connection part 201a of the liquid crystal panel 2 and the shield cover 402 in the inserted state 400 is attached to and fixed to the rear side of the lower frame 400 while covering the side edge of the lower frame 400.

LCD module, liquid crystal panel

Description

Liquid crystal panel fixing structure of Liquid Crystal Display module

1 is a plan view showing a conventional LCD module

FIG. 2 is a rear view of FIG. 1

3 is a longitudinal sectional view taken along line II of FIG.

4 is a plan view showing the present invention according to an embodiment, a state in which the polarizing cover on the liquid crystal panel is deployed;

5 is a longitudinal cross-sectional view taken along line II-II of FIG. 4;

6 is a plan view showing the present invention according to another embodiment

7 is a longitudinal cross-sectional view taken along line III-III of FIG.

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

1: backlight assembly 2: liquid crystal panel

3: circuit part 4: mechanism part

6: fixing tape 201: polarizing cover

300: PCB 301: TCP

400: lower frame 402: shield cover

The present invention relates to a liquid crystal display (LCD) module, and more particularly, it is possible to easily assemble and fix a liquid crystal panel without mounting a metal frame on top of the LCD module according to a conventional method. It relates to a liquid crystal panel fixing structure of the LCD module.

In general, an LCD module is a type of flat panel display that transmits various electrical information generated by various devices to visual information by using a change in transmittance of liquid crystal according to an applied voltage.

Among the thin film transistor LCD (TFT-LCD) modules, which are widely used in recent years, as an example, a thin film transistor, an upper plate composed of a color filter and a common electrode for displaying a lower plate and color on which pixel electrodes are arranged, and It consists of liquid crystals filled between the two glass substrates, of which two polarizing covers are attached to both surfaces of the glass substrates so as to linearly display visible light (natural light).

Recently, such LCD modules, unlike CRTs, require no backlight because they do not emit light, but have low power consumption, low power consumption, and are thin and lightweight, making them suitable for portable applications.

Hereinafter, the conventional configuration of the LCD module will be briefly described with reference to FIGS. 1 to 3 as follows.

BACKGROUND ART Conventional LCD modules are generally mounted on the back side, and include a backlight assembly 1 for uniformly irradiating surface light, a liquid crystal panel 2 coupled to the front of the backlight assembly to display an image, and the liquid crystal. Circuit parts 3 such as a printed circuit board (PCB) 300 and a tape carrier package (TCP) 301 for controlling an image displayed on a panel by an electrical signal, and the above-described components are mounted and supported. It is largely divided into the mechanism part 4.

Here, the liquid crystal panel 2 is a liquid crystal is sealed between the upper plate 200a and the lower plate 200b of the glass substrate, and the polarizing cover 201 is attached to the outer surface of the upper plate 200a and the lower plate 200b, respectively. It is composed.

In addition, the TCP 301 is bonded to the lower plate 200b at regular intervals so as to transmit electrical signals from the PCB 300 along the upper horizontal side and the left vertical side of the edge of the liquid crystal panel 2. When the upper plate 200a is partially nodal to bond the TCP 301, when the LCD module is viewed from the front, the bonding grooves 202 are arranged in a straight line on the upper horizontal side and the left vertical side of the liquid crystal panel 2. Formed.

On the other hand, the configuration of the mechanism 4 is a backlight assembly (1) and the liquid crystal panel 2 is inserted into the lower frame 400, the liquid crystal panel is mounted on the front edge of the liquid crystal panel (2) (2) an upper chassis (metal chassis) for fixing, and a shield cover (402) for mounting on the rear surface of the lower frame 400 to protect the circuit components of the PCB (300) from the outside It is universal that it consists of a back.

Then, a brief look at the process of assembling the LCD module of the above configuration as follows.                         

Usually, the operator inserts the backlight assembly 1, the liquid crystal panel 2, and the PCB 300 into the lower frame 400, and attaches the upper chassis 401 to the front edge of the liquid crystal panel 2 in the above state. Then, the liquid crystal panel 2 is fixed to the lower frame 400 by fastening the screws 5 at predetermined intervals along the edge side of the upper chassis.

At this time, in the state in which the upper chassis 401 is mounted as described above, the liquid crystal panel 2 is fixed so as not to come out of the lower frame 400, as well as the upper side and the left side of the liquid crystal panel 2 by the upper chassis. Bonding grooves 202 formed on the sides are also covered by the upper chassis.

Thereafter, the operator attached the shield cover 402 using the fixing tape 6 to the rear surface of the lower frame 400 to complete the entire assembly process of the LCD module.

However, since more than 50% of the entire LCD assembly process is required to assemble the mechanism, as described above, when the assembly of the module is performed, the number of parts and the number of labors are increased and the work efficiency is reduced. Productivity is not only significantly lowered, there is a problem that eventually increases the manufacturing cost.

In addition, when the upper chassis is seated and fixed on the liquid crystal panel as described above, not only ripple or glass crack occurs in the liquid crystal panel due to the interference of the upper chassis, but also foreign matters are introduced into the LCD module. There could be a problem that caused a malfunction.

The present invention has been made to solve the above-mentioned problems, the productivity of the assembly process by simply attaching and fixing the liquid crystal panel to the lower frame without having a separate upper chassis when assembling the liquid crystal panel of the conventional LCD module It is an object of the present invention to provide a liquid crystal panel fixing structure of an LCD module, which is greatly improved and, of course, solves various problems caused by contact between the liquid crystal panel and the upper chassis.

According to the present invention for achieving the above object, a backlight assembly for uniformly irradiating the surface light upward; A liquid crystal panel between the upper and lower plates, which are glass substrates, and a polarizing cover is attached to outer surfaces of the upper and lower plates, respectively, to implement surface light of the backlight assembly according to an electrical signal; A circuit unit such as a PCB and a TCP for controlling an image displayed on the liquid crystal panel by an electrical signal; An LCD module including a lower frame to which the backlight assembly and the liquid crystal panel are inserted and fixed to each other, and a mechanism part including a shield cover for protecting circuit components provided on a rear surface of the lower frame, the upper panel of the liquid crystal panel; The shield cover is integrally formed along the circumference of the attached polarizing cover, and the liquid crystal panel is connected to the rear surface of the lower frame while the connecting portion of the shield cover is inserted into the lower frame. A liquid crystal panel fixing structure of an LCD module is provided.

In another aspect, the present invention provides a backlight assembly for uniformly irradiating the surface light upward; A liquid crystal panel between the upper and lower plates, which are glass substrates, and a polarizing cover is attached to outer surfaces of the upper and lower plates, respectively, to implement surface light of the backlight assembly according to an electrical signal; A circuit unit such as a PCB and a TCP for controlling an image displayed on the liquid crystal panel by an electrical signal; An LCD module comprising a lower frame into which the backlight assembly and a liquid crystal panel are inserted and fixed to a rear surface of the lower frame, and a mechanism portion including a shield cover for protecting a circuit component. It extends by a length, the liquid crystal panel of the LCD module characterized in that the one end of the fixed tape is extended to the front edge of the liquid crystal panel while the liquid crystal panel is inserted into the lower frame to cover the side edge of the lower frame. A fixed structure is provided.

Hereinafter, the present invention will be described in more detail with reference to FIGS. 4 and 5.

4 is a plan view showing the present invention according to an embodiment, which is a state diagram of the polarization cover on the liquid crystal panel, but the description thereof will be omitted in the same configuration as the conventional components among the components of the present invention. In the drawings, the numbers given in the related art will be assigned as they are.

Referring to FIG. 4, the shield cover 402 is integrally connected along the circumference of the polarizing cover 201 attached to the outer surface of the upper plate 200a of the liquid crystal panel 2.

Accordingly, in the LCD module assembly process, the shield cover 402 has a structure in which the liquid crystal panel 2 is wrapped around the bottom of the lower frame 400 in a state where the liquid crystal panel 2 is inserted into the lower frame 400, At this time, the connection part 201a between the polarizing cover 201 and the shield cover 402 is attached to the side of the lower frame 400 so that the liquid crystal panel 2 is fixed to the lower frame 400.

5 is a longitudinal cross-sectional view taken along line II-II of FIG. 4, wherein the liquid crystal panel 2 is formed by the polarizing cover 201 of the liquid crystal panel 2 and the shield cover 402 integrated around the liquid crystal panel 2 as described above. The state fixed to the lower frame 400 is shown in an enlarged view. At this time, since the rear surface of the lower frame is shielded by the shield cover 402 as in the prior art, the PCB 300 on the rear surface of the lower frame 400 is protected from the outside. It is understandable.

In addition, it is preferable that a bending processing part is further formed at a connection portion of the polarizing cover 201 and the shield cover 402 so as to be easily bent at the side edge of the lower frame 400. The bending processing part according to an embodiment It can be configured by forming the nodule 201b in double so as to have a gap matching the side thickness of the 400.

The bending processing unit is not limited to forming the nodule 201b as described above. For example, the bending processing unit may be configured even by performing heat treatment on the connection portion 201b between the polarizing cover 201 and the shield cover 402. This is possible.

In addition, the bonding groove 202 to which the TCP 301 is connected among the edges of the liquid crystal panel 2 is preferably filled with an pad 7 made of an elastic material, which is used to cover the polarization cover 201 of the liquid crystal panel 2. It is understood that the edge of the liquid crystal panel 2 is kept smooth while the voids that hinder adhesion when attached to the lower frame 400 are maintained, and the TCP 301 is also protected by the pad. .

6 is a plan view showing the present invention according to another embodiment, and FIG. 7 is a longitudinal cross-sectional view taken along line III-III of FIG. 6.

According to this, one end of the lower frame 400 of the fixing tape 6 for fixing the shield cover 402 is extended by a predetermined length, and the liquid crystal panel 2 is assembled inside the lower frame 400 during assembly. Wrap the extended end of the fixing tape 6 toward the front of the lower frame 400 in the inserted state, and attach and fix the liquid crystal panel 2 along the front edge of the liquid crystal panel 2 to the lower frame ( 400).

In addition, the bonding groove 202 to which the TCP 301 is connected among the edges of the liquid crystal panel 2 is filled with a pad 7 made of an elastic material, and the upper surface of the pad is again polarized. As the cover 201 is extended and attached, the bonding groove 202 is filled in a planar state.

This results in the removal of voids (= bonding grooves) between the liquid crystal panel 2 and the fixing tape 6 when the extended end of the fixing tape 6 is attached to the front edge along the circumference of the liquid crystal panel 2. Therefore, the liquid crystal panel 2 is more firmly attached to the lower frame 400.

Therefore, as described above, according to an embodiment of the present invention and another embodiment of the present invention, the upper chassis, which is conventionally used for fixing the liquid crystal panel to the lower frame, is separately provided, and the assembly of the LCD module is not required to be mounted on the edge of the liquid crystal panel. It is very useful because the liquid crystal panel can be simply fixed to the lower frame in the process.

The liquid crystal panel fixing structure of the LCD module of the present invention greatly reduces the number of parts and the number of operations in the assembling process, thereby greatly improving productivity and lowering the manufacturing cost of the finished product, thereby providing a product at a lower price to the consumer.

In addition, since the liquid crystal panel can be firmly fixed to the lower frame without having an additional upper chassis when assembling the liquid crystal panel, ripple or glass substrates generated in the liquid crystal panel due to the interference between the upper chassis and the liquid crystal panel are conventionally used. It is very effective because the problem of malfunction due to crack crack and foreign foreign matter is introduced into the LCD module.

Claims (7)

A backlight assembly for uniformly irradiating surface light upwardly; A liquid crystal panel between the upper and lower plates, which are glass substrates, and a polarizing cover is attached to outer surfaces of the upper and lower plates, respectively, to implement surface light of the backlight assembly according to an electrical signal; A circuit unit such as a PCB and a TCP for controlling an image displayed on the liquid crystal panel by an electrical signal; In the LCD module comprising a lower frame to which the backlight assembly and the liquid crystal panel is inserted, and a mechanism part including a shield cover provided on the rear surface of the lower frame to protect circuit components. The shield cover is integrally formed along the circumference of the polarizing cover attached to the upper plate of the liquid crystal panel, and the connection portion between the liquid crystal panel and the shield cover surrounds the outer side edge of the lower frame while the liquid crystal panel is inserted into the lower frame. LCD panel fixed structure of the LCD module, characterized in that fixed to the back of the state attached. The method of claim 1, The LCD panel fixing structure of the LCD module, characterized in that the bending processing portion is further formed on the connection portion of the polarizing cover and the shield cover to be easily bent at the side edge of the lower frame. The method of claim 2, The bending processing unit is a liquid crystal panel fixing structure of the LCD module, characterized in that the nodules are formed to have a double gap to match the thickness of the side of the lower frame. The method of claim 1, Bonding groove connected to the TCP of the edge of the liquid crystal panel liquid crystal panel fixed structure of the LCD module, characterized in that the pad is charged. A backlight assembly for uniformly irradiating surface light upwardly; A liquid crystal panel between the upper and lower plates, which are glass substrates, and a polarizing cover is attached to outer surfaces of the upper and lower plates, respectively, to implement surface light of the backlight assembly according to an electrical signal; A circuit unit such as a PCB and a TCP for controlling an image displayed on the liquid crystal panel by an electrical signal; An LCD module comprising a lower frame into which the backlight assembly and a liquid crystal panel are inserted, and a mechanism portion including a shield cover attached to a rear surface of the lower frame to protect circuit components. One end of the fixing tape is extended, and the one end of the fixing tape is fixed to the front edge of the liquid crystal panel while the liquid crystal panel is inserted into the lower frame and the outer end edge of the fixing tape is wrapped around the outer side edge of the lower frame. LCD panel fixed structure of LCD module. The method of claim 5, wherein Bonding groove connected to the TCP of the edge of the liquid crystal panel LCD panel fixed structure of the LCD module, characterized in that the pad is filled with an elastic material. The method of claim 6, Liquid crystal panel fixing structure of the LCD module, characterized in that the polarizing cover of the liquid crystal panel is extended to the upper surface of the pad.

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