Patent Description:
Embodiments of the present disclosure relate to a display apparatus, and more specifically, to a display apparatus having an improved back cover to provide the display apparatus with a slim thickness.

A display apparatus is an output device that visually displays data information, such as characters or figures, and images, and the display apparatus includes a television, various monitors, and various portable terminals (e.g., notebook computers, tablet personal computers (tablet PCs), and smart phones).

The display apparatus may include a display module including a display panel and a chassis assembly, and a back cover coupled to a rear side of the display module to form a rear appearance of the display apparatus.

In general, the back cover is formed by injection molding of a metal or plastic material. Use of a plastic material facilitates implementing a shape for assembly with a display module, and obviates the need of a separate post-processing, but has a difficulty in implementing a thin thickness due to the characteristics of plastic injection processing. Use of a thin metal may cause deformation due to denting or bending during handling, and thus has a difficulty in securing the appearance quality. <CIT> and <CIT> constitutes prior art useful for understanding the invention.

Therefore, according to an aspect, embodiments of the present disclosure may provide a display apparatus having a back cover that is capable of securing rigidity while having a slim thickness and facilitating assembly with a display module.

Additional aspects of the present disclosure will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the disclosure.

According to one or more embodiments, a display apparatus is provided. The display apparatus includes: a display module; a main board configured to drive the display module; and a cover coupled to a rear side of the display module such as to cover the display module and the main board, wherein the cover includes: a cover sheet formed of an extruded plastic material or an extruded composite material; and a cover frame attached to the cover sheet and configured to couple the cover sheet to the display module.

According to an embodiment, the cover sheet is more flexible than the cover frame.

According to an embodiment, the cover frame may include at least one first hook coupling portion that is configured to be coupled to the display module, and the display module may include at least one second hook coupling portion that is configured to be engaged with the at least one first hook coupling portion.

According to an embodiment, the at least one first hook coupling portion may be integrally formed with the cover frame.

According to an embodiment, the cover frame may include an edge portion having a quadrangular shape and a reinforcing portion extending inward from the edge portion, and the at least one first hook coupling portion may be formed on the edge portion.

According to an embodiment, the at least one first hook coupling portion may be a plurality of first hook coupling portions, and the plurality of first hook coupling portions are spaced apart from each other by a predetermined distance in a line lengthwise along the edge portion.

According to an embodiment, the display module may include: a display panel; a middle mold configured to support the display panel; a front chassis configured to cover sides of the display panel and sides of the middle mold; and a rear chassis disposed behind the middle mold to support the middle mold, wherein the middle mold includes the at least one second hook coupling portion.

According to an embodiment, the display apparatus may further include an adhesive provided between the cover sheet and the cover frame such that the adhesive bonds the cover sheet to the cover frame.

According to an embodiment, the adhesive may be a two-component adhesive, a pressure sensitive adhesive (PSA), an ultraviolet (UV) adhesive, or a double-sided tape.

According to an embodiment, the cover sheet may be formed of the extruded plastic material, and the extruded plastic material includes at least one selected from a group consisting of polycarbonate (PC), polyphenylene ether (PPE), Nylon, polyphenylene sulfide (PPS), polyphthalamide (PPA), acrylonitrile butadiene styrene copolymer (ABS), poly cyclohexylene dimethylene terephthalate glycol (PCTG), and polyethylene terephthalate glycol (PETG).

According to an embodiment, the cover sheet may be formed of the extruded composite material, and the extruded composite material includes at least one selected from a group consisting of carbon fiber, glass fiber, mica, montmorillonite, and smectite.

According to an embodiment, the display apparatus may further include a speaker installed on a rear surface of the display module, wherein the cover frame may include a third hook coupling portion that is configured to be coupled to the speaker, and the speaker may include a fourth hook coupling portion that is configured to be engaged with the third hook coupling portion.

According to an embodiment, the display apparatus may further include a speaker installed on a rear surface of the display module, wherein the speaker may include a speaker magnet installed on a rear surface of the speaker, and the cover sheet may include a sheet magnet installed on a front surface of the cover sheet such that the sheet magnet comes in close contact with the speaker magnet by magnetic attraction.

According to an embodiment, the cover sheet may include a speaker hole that is configured to pass sound output from the speaker therethrough, and the sheet magnet may be installed on the front surface of the cover sheet, adjacent to the speaker hole.

According to an embodiment, the speaker magnet and the sheet magnet may include a neodymium magnet, a ferrite magnet, a samarium cobalt magnet, or an alnico magnet.

According to one or more embodiments, a display apparatus is provided. The display apparatus may include: a display panel that is configured to display an image on a front surface of the display panel; a middle mold configured to support the display panel; a rear chassis coupled to the middle mold such as to support the middle mold; and a cover coupled to a rear side of the rear chassis such as to cover the rear chassis. The cover includes: a cover sheet formed of an extruded plastic material or a composite material; and a cover frame attached to the cover sheet. The cover frame may be further configured to couple the cover sheet to the middle mold.

According to an embodiment, the cover frame may include at least one first hook coupling portion that is configured to be coupled to the middle mold, and the middle mold may include at least one second hook coupling portion that is configured to be engaged with the at least one first hook coupling portion.

According to an embodiment, the display apparatus may further comprise an adhesive provided between the cover sheet and the cover frame such as to bond the cover sheet to the cover frame.

According to one or more embodiments, a display apparatus is provided. The display apparatus includes: a display module and a cover coupled to a rear side of the display module. A speaker may be disposed between the display module and the cover. The cover includes: a cover sheet formed by an extruded plastic material or an extruded composite material and a cover frame attached to the cover sheet, the cover frame configured to couple the cover sheet to the display module. The cover sheet may include a speaker hole that is configured to pass sound output from the speaker therethrough and the cover frame may include an opening corresponding to the speaker hole, wherein the speaker may include a speaker magnet installed on a rear surface of the speaker, and the cover sheet may include a sheet magnet installed on a front surface of the cover sheet such that the sheet magnet comes in close contact with the speaker magnet by magnetic attraction.

According to one or more embodiments, a display apparatus is provided. The display apparatus may include: a display module including a display panel; and a cover coupled to a rear side of the display module such as to cover the display module. The cover may include: a cover sheet formed of a plastic material or a composite material, and having a plate shape; and a cover frame attached to the cover sheet and configured to couple the cover sheet to the display module.

According to an embodiment, the cover frame may include a first coupling body, the display module may include a second coupling body, and the first coupling body and the second coupling body may be configured to engage together such that the cover sheet is coupled to the display module.

These and/or other aspects of the present disclosure will become apparent and more readily appreciated from the following description of embodiments, taken in conjunction with the accompanying drawings of which:.

The embodiments set forth herein and illustrated in the present disclosure are only example embodiments and are not representative of the full the technical spirit of the present disclosure, so it should be understood that they may be replaced with various equivalents and modifications at the time of the disclosure.

The terms "front", "rear", "upper", "lower", "top", and "bottom" as herein used are defined with respect to the drawings, but the terms may not restrict the shape and position of the respective components. In <FIG>, the X-axis, Y-axis, and Z-axis directions perpendicular to each other are illustrated, the X-axis direction refers to the left and right side direction of the display apparatus, the Y-axis direction refers to the upper and lower side direction of the display apparatus, and the Z-axis direction refers to the front and rear side direction of the display apparatus.

Hereinafter, embodiments according to the present disclosure will be described in detail with reference to the accompanying drawings.

<FIG> is a perspective view illustrating a front appearance of a display apparatus according to an embodiment of the present disclosure. <FIG> is a perspective view illustrating a rear appearance of the display apparatus of <FIG>. <FIG> is an exploded rear perspective view illustrating the display apparatus of <FIG>. <FIG> is a front perspective view illustrating the display apparatus of <FIG> in which a cover is disassembled. <FIG> is a front perspective view illustrating a cover frame of the display apparatus of <FIG>. <FIG> is a side cross-sectional view illustrating the display apparatus of <FIG>, which shows a lower coupling structure. <FIG> is a side cross-sectional view illustrating the display apparatus of <FIG>, which shows an upper coupling structure.

Referring to <FIG>, a display apparatus <NUM> according to an embodiment may include a television that processes a broadcast image based on broadcast signals, broadcast information, and broadcast data received from a transmission device of a broadcast station. However, the display apparatus <NUM> is not limited to a television, and may include various devices that can present information, data material, data, etc. as characters, figures, graphs, images, etc., for example, a computer monitor, a mobile phone, an electric signboard, a signage, and the like.

The display apparatus <NUM> includes a display module <NUM> and a cover <NUM> coupled to a rear side of the display module <NUM> to form a rear appearance of the display apparatus <NUM>.

The display module <NUM> may include a display panel that displays an image. In the embodiment, the display panel may be implemented as a liquid crystal panel <NUM>. However, the display panel is not limited thereto, and the display panel may be a self-emitting type organic light emitting diode (OLED) panel or a micro LED panel, and in this case, a backlight unit described below may be omitted.

The liquid crystal panel <NUM> may include a thin film transistor (TFT) substrate in which TFTs are formed in a matrix form, a color filter substrate coupled in parallel with the TFT substrate, and liquid crystal molecules interposed between the TFT substrate and the color filter substrate and having a variable optical property depending on a voltage and temperature.

The liquid crystal panel <NUM> may have a front surface <NUM> on which an image is displayed, a rear surface <NUM> formed on the opposite side of the front surface <NUM>, and four side surfaces formed on upper, lower, left, and right sides thereof.

The display module <NUM> may include a backlight unit disposed behind the liquid crystal panel <NUM> to provide light to the liquid crystal panel <NUM>.

The backlight unit may be disposed behind the liquid crystal panel <NUM> to radiate light toward the liquid crystal panel <NUM>. The backlight unit may include a light source module <NUM> including a light source <NUM> and a substrate <NUM> on which the light source <NUM> is mounted, and optical members disposed on a moving path of light emitted from the light source <NUM>.

In the embodiment, the light source module <NUM> may be arranged behind the liquid crystal panel <NUM> in a so-called direct type arrangement. However, unlike the embodiment shown in <FIG>, the light source module <NUM> may be arranged to correspond to at least one side surface of the liquid crystal panel <NUM> in a so-called edge type arrangement.

A blue light emitting diode (LED) may be used as the light source. In addition, a cold cathode fluorescent lamp (CCFL) and an external electrode fluorescent lamp (EEFL) may be used as the light source.

The optical members may be disposed on a moving path of light emitted from the light source <NUM> to guide a traveling direction of light or improve optical characteristics.

The optical members may include a reflector plate <NUM> to reflect light to prevent loss, a diffusor plate <NUM> to evenly diffuse irregular light emitted from the light source <NUM>, a quantum dot sheet <NUM> to improve color reproducibility by changing the wavelength of light, and an optical sheet <NUM> to improve optical properties.

The reflector plate <NUM> may reflect light emitted from the light source <NUM> or light exiting the diffusor plate <NUM> rearward to be directed toward the diffusor plate <NUM>. The reflector plate <NUM> may be disposed on the substrate <NUM> of the light source module <NUM>.

The diffusor plate <NUM> may evenly diffuse irregular light generated from the light source <NUM> and support the quantum dot sheet <NUM> and the optical sheet <NUM>.

The quantum dot sheet <NUM> may be disposed in front of the diffusor plate <NUM> to be spaced apart from the diffusor plate <NUM>. Quantum dots, which are semiconductor crystals having a size of several nanometers and emitting light, may be disposed inside the quantum dot sheet <NUM> in a distributed manner. Quantum dots may receive blue light and generate all colors of visible light according to the size thereof. As the size of the quantum dot is smaller, light with a shorter wavelength may be generated, and as the size of the quantum dot is larger, light with a longer wavelength may be generated.

The optical sheet <NUM> may be disposed in front of the diffusor plate <NUM> to improve optical characteristics of light emitted from the diffusor plate <NUM>. The optical sheet <NUM> may include at least one of a prism sheet that improves luminance by concentrating light, a protection sheet that protects other optical sheets from external impacts or foreign matter inflow, or a reflective polarizing sheet (a dual brightness enhancement film; DBEF) that reflects one polarized light while transmitting other polarized light to improve luminance.

The display module <NUM> may include a chassis assembly that supports and accommodates the liquid crystal panel <NUM>. The backlight unit may also be accommodated and supported by the chassis assembly.

The chassis assembly may include a middle mold <NUM> supporting the liquid crystal panel <NUM> and the diffusor plate <NUM>, a front chassis <NUM> covering sides of the liquid crystal panel <NUM> and the middle mold <NUM>, and a rear chassis <NUM> disposed behind the middle mold <NUM> to support the light source module <NUM> and the middle mold <NUM>.

The middle mold <NUM> may have a frame shape with an opening formed in the center thereof so that light emitted from the light source <NUM> is incident onto the diffusor plate <NUM>. The middle mold <NUM> may include a panel support surface <NUM> that supports the liquid crystal panel <NUM> and a sheet support surface <NUM> that supports the diffusor plate <NUM>.

An adhesive 31a may be provided between the panel support surface <NUM> and the liquid crystal panel <NUM> so as to bond the panel support surface <NUM> to the liquid crystal panel <NUM>. The adhesive 31a may allow the liquid crystal panel <NUM> to be bonded to the middle mold <NUM> without using a separate structure.

An adhesive 32a may be provided between the sheet support surface <NUM> and the diffusor plate <NUM> so as to bond the sheet support surface <NUM> to the diffusor plate <NUM>. The adhesive 32a allows the diffusor plate <NUM> to be coupled to the middle mold <NUM> without using a separate structure.

The middle mold <NUM> may be coupled to the rear chassis <NUM> by a screw S. To this end, a screw fastening hole <NUM> may be formed in the middle mold <NUM>.

The front chassis <NUM> may have a frame shape to accommodate the liquid crystal panel <NUM>, the middle mold <NUM>, the backlight unit, and the rear chassis <NUM>. The front chassis <NUM> may include a side portion <NUM> formed to cover side surfaces of the liquid crystal panel <NUM>, the middle mold <NUM>, the backlight unit, and the rear chassis <NUM>, and a rear portion <NUM> formed by bending a rear end of the side portion <NUM>.

The rear chassis <NUM> may include a base portion <NUM> supporting the light source module <NUM> and the middle mold <NUM> and a bent portion <NUM> extending forward from an edge of the base portion <NUM> for coupling with the middle mold <NUM>. The bent portion <NUM> may be inserted into an insertion groove <NUM> of the middle mold <NUM>.

The base portion <NUM> may have a curved plate shape, and may include a light source support portion 41a for supporting the light source module <NUM> and a middle mold support portion 41b for supporting the middle mold <NUM>.

The rear chassis <NUM> may serve to dissipate heat generated from a heat generating element, such as the light source <NUM>, to the outside. To this end, the rear chassis <NUM> may be formed of a metal material having high thermal conductivity , such as aluminum or stainless steel (SUS), or a plastic material, such as acrylonitrile butadiene styrene (ABS).

On a rear surface <NUM> of the rear chassis <NUM>, a main board <NUM> including at least one electronic component to perform a process for displaying an image signal, and a power supply <NUM> for supplying power to the display apparatus <NUM>, a driver for allowing an image corresponding to an image signal to be displayed on the liquid crystal panel <NUM>, and a communication module capable of communicating with an external communication device may be provided.

The main board <NUM> may include electronic components, such as a chipset, a memory, and the like, and a substrate on which the electronic components are mounted. A wiring or transmission line may be provided on the substrate to electrically connect the electronic components to each other. The electronic components may include a tuner for tuning a broadcast signal for each channel and an image processor for processing an image signal. The image processor may be provided as individual configurations capable of independently performing each process for processing an image signal, that is, as a group of electronic components, or may be provided as being included in a main System-on-chip (SOC) into which several functions are incorporated. The main SoC may include at least one processor that controls the overall operation of the display apparatus <NUM> and a signal flow between internal components.

The processor may load a control program to perform a control operation and execute the loaded control program. The processor may include at least one of a central processing unit (CPU), a microprocessor, or an application processor (AP).

Signals generated or combined through the image processor may be output to the liquid crystal panel <NUM> through the driver. The driver may be implemented as a control board provided with a timing controller that controls a driving circuit and improves image quality.

The power supply <NUM> may supply power to each component constituting the display apparatus <NUM>. The power supply <NUM> may convert commercial alternating current (AC) power input from the outside into power to be supplied to each component of the display apparatus <NUM>, and supply the converted power, and the power supply <NUM> may include an inverter or a switching mode power supply (SMPS).

A cover <NUM> may be coupled to a rear side of the rear chassis <NUM> to cover the above described various electronic components while forming the rear appearance of the display apparatus <NUM>.

The cover <NUM> includes a cover sheet <NUM> and a cover frame <NUM> attached to the cover sheet <NUM> to couple the cover sheet <NUM> to the display module <NUM>.

The cover sheet <NUM> includes a front surface 71a facing the display module <NUM> and a cover sheet rear surface 71b provided on the opposite side of the front surface 71a to form the rear appearance of the display apparatus <NUM>.

The cover sheet <NUM> may be formed by extruding a plastic material to have a slim thickness. The cover sheet <NUM> may be formed with a thin plate shape having the same thickness as a whole. The cover sheet <NUM> may be formed to be flexible.

Through-holes may be formed in the cover sheet <NUM>. The through-holes may include a vent hole <NUM> for flowing air inside and outside the cover sheet <NUM>, a speaker hole <NUM> through which sound output from a speaker <NUM> (e.g., a main speaker) passes, and a bracket installation hole <NUM> to which a bracket (not shown) is coupled to install the display apparatus <NUM> on a wall.

The through-holes may be formed in the cover sheet <NUM> by applying a design corresponding to the through-holes to a surface of an extrusion roller, so that through-holes may be implemented at the same time as extrusion.

As the plastic materials for the cover sheet <NUM>, polycarbonate (PC), polyphenylene ether (PPE), nylon, polyphenylene sulfide (PPS), polyphthalamide (PPA), acrylonitrile butadiene styrene copolymer (ABS), and poly cyclohexylene dimethylene terephthalate glycol (PCTG)), and polyethylene terephthalate glycol(PETG), etc. may be used.

In addition, the cover sheet <NUM> may be formed by extruding a composite material to reinforce rigidity and increase resistance to heat. As the composite material, carbon fiber, glass fiber, mica, montmorillonite, smectite, etc. may be used. The use of the composite material provides a higher rigidity than using plastic, and provides excellent resistance to local impact compared to using metal.

The cover frame <NUM> is attached to a front surface of the cover sheet <NUM> to reinforce the rigidity of the cover sheet <NUM> while allowing the cover sheet <NUM> to be coupled to the display module <NUM>.

The cover frame <NUM> may be injection-molded of a plastic material, and the cover frame <NUM> may be formed to be rigid. Accordingly, the cover sheet <NUM> may be relatively flexible compared to the cover frame <NUM>, and conversely, the cover frame <NUM> may be relatively rigid compared to the cover sheet <NUM>.

The cover sheet <NUM> and the cover frame <NUM> may be coupled to each other through an adhesive <NUM>. As the adhesive <NUM>, a two-component adhesive, a pressure sensitive adhesive (PSA), an ultraviolet (UV) adhesive, a double-sided tape, or the like may be used.

The cover frame <NUM> has a shape corresponding to only a partial area of the cover sheet <NUM> rather than to the entire area of the cover sheet <NUM>. That is, the cover frame <NUM> may be provided in a frame shape including an edge portion <NUM> having a quadrangular-shape and a reinforcing portion <NUM> extending inward from the edge portion <NUM> such that openings <NUM> are formed between the edge portion <NUM> and the reinforcing portion <NUM>.

The edge portion <NUM> may include an upper edge portion 91a, a lower edge portion 91b, a left edge portion 91c, and a right edge portion 91d, and the reinforcing portion <NUM> may include a central reinforcing portion <NUM> extending between the upper edge portion 91a and the lower edge portion 91b and side reinforcing portions <NUM> extending from the left edge portion 91c and the right edge portion 91d. A bracket fastening hole <NUM> corresponding to the bracket installation hole <NUM> of the cover sheet <NUM> may be formed in the reinforcing portion <NUM>.

As the electronic components of the main board <NUM> and the power supply <NUM>, speakers <NUM> and <NUM>, etc. may be disposed in the openings <NUM>, the thickness of the display apparatus <NUM> may be provided to be slim.

The openings <NUM> of the cover frame <NUM> may include an opening 96a corresponding to the vent hole <NUM> of the cover sheet <NUM> and an opening 96b wider than or corresponding to the speaker hole <NUM> of the cover sheet <NUM>.

The cover frame <NUM> may include a first hook coupling portion <NUM> for engagement with the display module <NUM>. The display module <NUM> may be provided with a second hook coupling portion <NUM> to be engaged with the first hook coupling portion <NUM>. With such a configuration, the cover frame <NUM> may be engaged with the display module <NUM> through the first hook coupling portion <NUM> and the second hook coupling portion <NUM> without using separate fastening members, such as screws, bolts, nuts, pins, rivets, etc..

The first hook coupling portion <NUM> may be integrally formed with the cover frame <NUM>. The first hook coupling portion <NUM> may be formed on the edge portion <NUM> of the cover frame <NUM>. The first hook coupling portion <NUM> may be formed on the upper edge portion 91a and the lower edge portion 91b that are relatively long.

The first hook coupling portion <NUM> may be provided in plural, and the plurality of the first hook coupling portion <NUM> may be formed to be spaced apart from each other by a predetermined distance in a line lengthwise along the edge portion <NUM>.

The second hook coupling portion <NUM> may be formed on the middle mold <NUM> of the display module <NUM>. The second hook coupling portion <NUM> may be integrally formed with the middle mold <NUM>. The second hook coupling portion <NUM> may be formed at a position corresponding to a position of the first hook coupling portion <NUM>.

One of the first hook coupling portion <NUM> and the second hook coupling portion <NUM> may be a hook, and the other one may be a hook locking portion provided to be locked with the hook.

As an example, referring to <FIG> and <FIG>, the first hook coupling portion <NUM> formed on the lower edge portion 91b of the cover frame <NUM> may be a hook <NUM>, and the second hook coupling portion <NUM> formed on the middle mold <NUM> to correspond to the first hook coupling portion <NUM> may be a hook locking portion <NUM> provided to be locked with the hook <NUM>.

The hook <NUM> may include an inclined guide surface 101a, a locking surface 101b, and an elastic portion 101c, and the hook locking portion <NUM> may include an inclined guide surface 37a and a locking surface 37b.

When the hook <NUM> approaches the hook locking portion <NUM>, the inclined guide surface 101a of the hook <NUM> and the inclined guide surface 37a of the hook locking portion <NUM> come in contact with each other, and the elastic portion 101c of the hook <NUM> may be elastically deformed in an open direction.

When the hook <NUM> further advances while the elastic portion 101c is open, the elastic portion 101c is restored by the elastic force, and the locking surface 101b of the hook <NUM> and the locking surface 37b of the hook locking portion <NUM> are caused to be locked with each other. Accordingly, the first hook coupling portion <NUM> and the second hook coupling portion <NUM> may be engaged with each other.

In addition, referring to <FIG> and <FIG>, the first hook coupling portion <NUM> formed on the upper edge portion 91a of the cover frame <NUM> may be a hook locking portion <NUM>, and the second hook coupling portion <NUM> formed on the middle mold <NUM> to correspond to the first hook coupling portion <NUM> may be a hook <NUM> provided to be locked with the hook locking portion <NUM>. The hook <NUM> may include an inclined guide surface 36a, a locking surface 36b, and an elastic portion 36c, and the hook locking portion <NUM> may include an inclined guide surface 102a and a locking surface 102b.

When the hook <NUM> approaches the hook locking portion <NUM>, the inclined guide surface 36a of the hook <NUM> and the inclined guide surface 102a of the hook locking portion <NUM> come in contact with each other, and the elastic portion 36c of the hook <NUM> may be elastically deformed in an open direction.

When the hook <NUM> further advances while the elastic portion 36c is open, the elastic portion 36c is restored by the elastic force, and the locking surface 36b of the hook <NUM> and the locking surface 102b of the hook locking portion <NUM> are caused to be locked with each other. Accordingly, the first hook coupling portion <NUM> and the second hook coupling portion <NUM> may be engaged with each other.

However, unlike the embodiment described above, the first hook coupling portion <NUM> formed on the lower edge portion 91b of the cover frame <NUM> may be a hook locking portion, the first hook coupling portion <NUM> formed on the upper edge portion 91a may be a hook, the second hook coupling portion <NUM> formed at a lower portion of the middle mold <NUM> may be a hook, and the second hook coupling portion <NUM> formed on an upper portion of the middle mold <NUM> may be a hook locking portion.

Further, each of the first hook coupling portion <NUM> may be a hook and each of the second hook coupling portion <NUM> may be a hook locking portion, or each of the first hook coupling portion <NUM> may be a hook locking portion and each of the second hook coupling portion <NUM> may be a hook.

The rear chassis <NUM> may be formed with a through hole <NUM> through which the hook <NUM> of the middle mold <NUM> may pass.

The reason for the cover frame <NUM> being coupled to the middle mold <NUM> rather than to the rear chassis <NUM> is that a sufficient distance may need to be secured to ensure smooth deformation and coupling force of the hook, and typically, the rear chassis <NUM>, which may be formed of a metal material, such as aluminum, has poor workability and coupling force of the hook coupling portion, and is liable to be deformed and damaged.

<FIG> is a side cross-sectional view illustrating the display apparatus of <FIG>, which shows a coupling structure of an auxiliary speaker and a cover frame. <FIG> is a side cross-sectional view illustrating the display apparatus of <FIG>, which shows a coupling structure between a main speaker and a cover sheet using a magnet. <FIG> is a perspective view illustrating the display apparatus of <FIG>, which shows a coupling structure between a main speaker and a cover sheet using a magnet.

Speakers <NUM> and <NUM> may be disposed between the display module <NUM> and the cover <NUM>. Specifically, the speakers <NUM> and <NUM> may be installed on the rear surface <NUM> of the rear chassis <NUM>.

If the display module <NUM> and the cover <NUM> do not come in close contact with each other around the speakers <NUM> and <NUM>, and the cover <NUM> is lifted, vibration and noise may occur.

According to the embodiment of the present disclosure, the display apparatus <NUM> may have a structure in which the display module <NUM> and the cover <NUM> come in close contact with each other at a portion adjacent to the speakers <NUM> and <NUM> to prevent such vibration and noise.

First, referring to <FIG>, the cover frame <NUM> may be directly hook-coupled to the speaker <NUM>. To this end, the cover frame <NUM> may include a third hook coupling portion to be coupled to the speaker <NUM>, and the speaker <NUM> may include a fourth hook coupling portion to be engaged with the third hook coupling portion.

The third hook coupling portion may be a hook <NUM>, and the fourth hook locking portion corresponding thereto may be a hook locking portion <NUM> to be engaged with the hook <NUM>.

The hook <NUM> may include an inclined guide surface 106a, a locking surface 106b, and an elastic portion 106c, and the hook locking portion <NUM> may include an inclined guide surface 57a and a locking surface 57b.

When the hook <NUM> approaches the hook locking portion <NUM>, the inclined guide surface 106a of the hook <NUM> and the inclined guide surface 57a of the hook locking portion <NUM> come in contact with each other, and the elastic portion 106c of the hook <NUM> may be elastically deformed in an open direction.

When the hook <NUM> further advances while the elastic portion 106c is open, the elastic portion 106c is restored by the elastic force, and the locking surface 106b of the hook <NUM> and the locking surface 57b of the hook locking portion <NUM> are caused to be locked with each other. Accordingly, the third hook coupling portion and the fourth hook coupling portion may be engaged with each other.

Conversely, the third hook coupling portion may be a hook locking portion, and the fourth hook coupling portion may be a hook corresponding to the hook locking portion.

In addition, referring to <FIG> and <FIG>, the speaker <NUM> includes a speaker magnet <NUM>, and the cover sheet <NUM> may include a sheet magnet <NUM> installed on the cover sheet front surface71a of the cover sheet <NUM> so as to come in close contact with the speaker magnet <NUM> by magnetic attraction.

The sheet magnet <NUM> may be formed at a position corresponding to the position of the speaker magnet <NUM>. That is, the sheet magnet <NUM> may be formed at a position adjacent to the speaker hole <NUM>. The sheet magnet <NUM> may be formed adjacent to an upper side and a lower side of the speaker hole <NUM>.

The sheet magnet <NUM> may be fixed to the front surface 71a of the cover sheet <NUM> by various adhesives.

The speaker <NUM> may be formed with a magnet installation groove <NUM> in which the speaker magnet <NUM> is installed, and the speaker magnet <NUM> may be inserted into the magnet installation groove <NUM>.

The speaker magnet <NUM> and the sheet magnet <NUM> may include rubber permanent magnets. For example, the speaker magnet <NUM> and the sheet magnet <NUM> may include a neodymium magnet, a ferrite magnet, a samarium cobalt magnet, or an alnico magnet.

However, according to embodiments, one of the speaker magnet <NUM> and the sheet magnet <NUM> may include a magnet, and the other one may be a magnetic body on which a magnetic attraction of the magnet is exerted.

As is apparent from the above, the overall thickness of the display apparatus can be reduced by forming the back cover of the display apparatus to be slim.

In addition, the display apparatus can be provided with an improved appearance quality and handling reliability.

In addition, since the back cover may be assembled with the display module without using screws, the back cover can be formed slim, and ease of assembly and aesthetic quality can be improved.

Claim 1:
A display apparatus (<NUM>) comprising:
a display module (<NUM>);
a main board (<NUM>) configured to drive the display module (<NUM>); and
a cover (<NUM>) coupled to a rear side of the display module (<NUM>) such as to cover the display module (<NUM>) and the main board (<NUM>),
characterized in that the cover (<NUM>) comprises:
a cover sheet (<NUM>) formed of an extruded plastic material or an extruded composite material; and
a cover frame (<NUM>) attached to a front surface of the cover sheet (<NUM>) and configured to couple the cover sheet (<NUM>) to the display module, and
wherein the cover sheet (<NUM>) is more flexible than the cover frame (<NUM>) and the cover frame (<NUM>) has a shape corresponding to only a partial area of the cover sheet (<NUM>).