WO2020075982A1 - Edge light-emitting type display device, and game device having same - Google Patents

Abstract

The present invention relates to a display device for displaying an image, and to an edge light-emitting type display device capable of increasing the frequency of use by using light effects, and a game device having same. An edge light-emitting type display device according to one embodiment of the present invention comprises: a display panel for displaying an image; a light source for emitting light from the perimeter of the display panel; a back cover having an open front in which the display panel is accommodated; a finishing panel arranged at the front of the display panel so as to protect the display panel; and a light transfer member which is provided along an opened edge of the back cover so as to seal the gap between the back cover and the finishing panel, and which receives the light emitted by the light source and emits same. Therefore, the frequency of use can be increased by focusing a light ray.

Description

Edge emitting display device and game machine equipped with the same

The present invention relates to a display device for displaying an image, and relates to an edge-emitting display device capable of increasing the frequency of use by using a visual effect of light and a game machine having the same.

In general, a display device is a device that outputs an image, and receives an image source from an image device to output an image.

On the other hand, since the display device can display various images, it is generally used in various industries as a touch device that induces manipulation by simply avoiding the purpose of viewing the image.

An example in which such a display device is used is a game machine, and since the game machine has a visual splendor due to its characteristics, the participation of the game increases, so a display device capable of providing visual splendor is registered in Korean Patent Publication No. 10 -"Border light emitting display device" of 1796709 (Nov. 10, 2017) has been disclosed.

The above-described conventional border light emitting display device is a display panel for displaying an image, an LED module that is installed on the edge of the display panel to emit light from the edge of the display panel, and the light emitted from the LED module is spaced apart from the display panel. The optical waveguide plate formed of a transparent body so that light emitted from the LED module is emitted to the inner edge and emitted to the outer edge so as to emit light from the border, and the background is transmitted through the outer edge and the display panel. A transparent cover plate to which the display panel and the optical waveguide plate are attached on the same plane so that the display panel and the optical waveguide plate have a sense of unity, and is installed on the edge of the cover plate and radiated through the edge of the optical waveguide plate When diffusing point light It consisted of a light conversion member formed with a diffused space to turn it into natural gradation light.

In the conventional rim-emitting display device, since the light is separated from the periphery of the display panel by the optical waveguide plate, it is possible to increase the concentration of the gaze and improve the participation of the game.

However, the conventional edge light emitting display device simply appears to emit light spaced apart from the periphery of the display panel, but since the light is reflected from the optical waveguide plate, the spaced-out effect is low, and thus there is a problem that it is somewhat insufficient to improve the concentration of gaze. .

The present invention has been devised to solve the above-described problems, and the problem to be solved by the present invention is to increase the concentration of gaze according to the effect of visual light and to increase the frequency of use of the border-emitting display device. It is an object to provide a game machine equipped.

A frame-emitting display device according to an embodiment of the present invention for solving the above problems is a display panel for displaying an image, a light source that emits light around the display panel, a back cover with an open front in which the display panel is accommodated, A finishing panel disposed in front of the display panel to protect the display panel, and installed along an open rim of the back cover to seal between the back cover and the finishing panel and provide light emitted by the light source It includes a light-transmitting member to receive light.

The light transmitting member receives the light emitted from the light source, and the first light emitting part outputs toward the outside of the side surface of the display panel, and is bent at the end of the first light output part, and the light of the light source toward the front of the display panel is bent. It may include a second exit portion for exiting.

The light source is installed on a side surface of the display panel to emit light toward the outside of the side surface of the display panel, and the first emission portion extends to a portion facing the light source so that light emitted from the light source is directly through the first emission portion. It can be incident and emit light.

The light source is installed on the side surface of the display panel to emit light toward the outside of the side surface of the display panel, and the light-transmitting member extends to the side surface of the light source so that light emitted from the light source is incident through the side surface of the light source. It may include an incident projection for providing the light to the first exit portion and the second exit portion.

The light source is installed on the inner surface of the back cover to emit light from the back cover toward the finishing panel, and the light transmitting member extends to the side of the light source so that light emitted from the light source is incident through the side surface of the light source. It may include an incident projection that provides the incident light to the first exit portion and the second exit portion.

It is formed on the finishing panel and includes a masking unit that covers an outside of the boundary of the image display area in which the image is displayed on the display panel with a predetermined width, and a part of the masking portion is covered by the light emitted from the second emitting unit and is covered. The end of the second exit portion may be formed to extend from an edge of the finishing panel to a portion where the masking portion is positioned to implement a narrow bezel with a minimum width.

The end of the second exit portion may extend from the edge of the finishing panel to the boundary of the image display area of the display panel to implement a zero bezel in which the bezel is not visually visible by the light emitted from the second exit portion.

When looking at the display panel from the front, the first exit portion may be formed to be inclined outwardly at a predetermined angle with respect to the second exit portion such that the first exit portion and the second exit portion are visually visible together.

The finishing panel may be a touch panel including a touch sensor that receives a touch signal.

A border-emitting display device according to another embodiment of the present invention includes a display panel displaying a game image, a light source emitting light from a border of the display panel, a first area emitting light by the light source in front of a border of the display panel, and And a light-transmitting member that receives light from the light source and emits light as a second area emitting light at a border side of the display panel at a brightness different from that of the first area by the light source.

A game machine having a border-emitting display device according to an embodiment of the present invention includes a border-emitting display device according to the above-described embodiment, and a game body in which the border-emitting display device is installed to perform a game.

According to the present invention, light according to different luminance differences is generated in the first region and the second region in one light source, thereby improving the visual effect of the light.

In addition, light can be emitted from the edge of the display panel to improve the effect of visual attention, thereby increasing the frequency of use.

1 is a perspective view showing a border-emitting display device according to a first embodiment of the present invention.

2 is an exploded perspective view showing a border-emitting display device according to a first embodiment of the present invention.

3 is a cross-sectional plan view showing a border-emitting display device according to a first embodiment of the present invention, showing one side end of the cross section.

4 is a cross-sectional plan view showing a border-emitting display device according to a second embodiment of the present invention, showing one side end of the cross section.

5 is a planar cross-sectional view showing a border-emitting display device according to a third embodiment of the present invention, showing one side end of the cross section.

6 is a planar cross-sectional view showing a border-emitting display device according to a fourth embodiment of the present invention, showing one side end of the cross section.

7 is a planar cross-sectional view showing a border-emitting display device according to a fifth embodiment of the present invention, showing one side end of the cross section.

8 is a planar cross-sectional view showing a border-emitting display device according to a sixth embodiment of the present invention, showing one side end of the cross section.

9 is a front view showing a border-emitting display device according to embodiments 7 to 9 of the present invention.

10 is a planar cross-sectional view showing an edge-emitting display device according to a seventh embodiment of the present invention, showing one side end of the cross section.

11 is a planar cross-sectional view showing an edge-emitting display device according to an eighth embodiment of the present invention, showing one side end of the cross section.

12 is a cross-sectional plan view showing a border-emitting display device according to a ninth embodiment of the present invention, showing one side end of the cross section.

13 is a front view showing a border-emitting display device according to embodiments 10 to 14 of the present invention.

14 is a cross-sectional plan view showing a border-emitting display device according to a tenth embodiment of the present invention, showing one side end of the cross section.

15 is a planar cross-sectional view showing an edge-emitting display device according to an eleventh embodiment of the present invention, showing one side end of the cross section.

16 is a sectional plan view showing a border-emitting display device according to a twelfth embodiment of the present invention, showing one side end of the cross section.

FIG. 17 is a planar cross-sectional view showing a rim-emitting display device according to a twelfth embodiment of the present invention, showing one side end of the cross section.

17 is a planar cross-sectional view showing a border-emitting display device according to a thirteenth embodiment of the present invention, showing one side end of the cross section.

18 is a planar cross-sectional view showing an edge-emitting display device according to a 14th embodiment of the present invention, showing one side end of the cross section.

* Description of code

100: edge-emitting display device 101: first area

102: second area 110: touch panel

110 ': Finishing panel 111a: Optical member seating groove

111: glass panel 113: touch sensor

115: masking unit 120: light transmission member

121: first exit section 122: second exit section

123: panel mounting groove 123a: protruding jaw

124: cover part 125: fixed jaw

127: diffusion pattern 130: light source

131: transflective mirror 133: reflective mirror

140,140 ': Display panel 141: Panel frame

143: retainer frame 145: adhesive tape

147: backlight unit 149: shield cover

150: back cover 151: cover cover

160: buffer seal 170: backup frame

180: driving circuit board

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

In this specification, the border may be part or all of the border.

For example, the edge of the display panel may be the edge of both sides or top and bottom sides or one side of the display panel, or may be the entire edge of the display panel.

As illustrated in FIGS. 1 to 3, the border-emitting display device 100 according to the first embodiment of the present invention adds the splendor of light to the display device 100 to focus the gaze, thereby displaying the display device ( 100) can be used.

The edge-emitting display device 100 of the first embodiment may include a display panel 140 and a touch panel 110.

The touch panel 110 may generate a touch signal according to body contact, and the touch panel 110 generates a touch signal by an electrostatic touch panel that generates a touch signal by static electricity generated during contact or by a pressure under pressure. It may be a pressurized touch panel.

The touch panel 110 laminates the touch sensor 113 such as ITO or metal mesh that generates a touch signal on the transparent panel 111, or the transparent panel 111 in the form of an electrically conductive material in the shape of the touch sensor 114 ).

As another example, the touch panel 100 may be a finishing panel 110 ′ composed of only the transparent panel 111 without the touch sensor 113.

The display panel 140 is located at the rear of the touch panel 110 and is a panel capable of electronically displaying an image such as a PDP panel, LCD panel, or OLED panel displaying an image for inducing a touch as a video or a still image. Can be implemented.

Here, when the display panel 140 is implemented as an LCD panel, the display panel 140 is located behind the display panel 140 so that the image displayed on the display panel 140 can be clearly viewed. 140) may be further provided with a backlight unit 147 for irradiating light toward the front.

In addition, the display panel 140 may include a panel frame 141.

The panel frame 141 may support the display panel 140 in the back cover 150 by being fitted with the display panel 140 so as to fix the display panel 140 to the back cover 150.

Inside the panel frame 141, a backlight unit 147 providing light to the display panel 140 may be superimposed on the display panel 140 and fitted together.

In the drawing, the panel frame 141 is shown in an open shape in the rear of the display panel 140, but may seal the rear of the display panel 140, and when the display panel 140 is sealed, the display panel 140 ) May have a reflective surface to reflect light provided by the backlight unit 147 or light generated by the display panel 140 toward the front.

The panel frame 141 may include a retainer frame 143.

The retainer frame 143 may be fitted to the inner edge or outer edge of the panel frame 141 to prevent the display panel 140 from leaving the panel frame 140.

In addition, the retainer frame 143 may be fastened to each other by a fastening member such as a bolt or rivet to the panel frame 141, or may be coupled to each other with a fitting structure.

The retainer frame 143 may be formed with a panel seating portion 143a supporting an outer edge of the display panel 140, and a touch panel 110 may be seated with the panel seating portion 143a.

The touch panel 110 seated on the panel seating portion 143a of the retainer frame 143 may be fixed in the form of being attached by an adhesive tape 145 or an adhesive.

1 to 3, the border-emitting display device 100 according to the first embodiment of the present invention may include a light source 130.

The light source 130 may be installed on a side edge of the display panel 140 to emit light from the side of the display panel 140 toward the outside.

The light source 130 may be installed around a side of the display panel 140 with a plurality of LEDs mounted on a bar-shaped PCB.

In addition, the light source 130 may emit light of one color or various colors or emit light in a regular or irregularly lit form.

The light source 130 is attached to a fastening member such as an adhesive or an adhesive tape or a bolt on the outer side of the retainer frame 143 surrounding the side of the display panel 140, or has a fitting structure to each other, so that the display panel 140 is interleaved. Can be installed on.

1 to 3, the border-emitting display device 100 according to the first embodiment of the present invention may include a masking unit 115.

The masking unit 115 is a touch panel 110 positioned in front of the display panel 140 to have a certain width along the periphery of the display panel 140 so that the border portion of the display panel 140 is not visually obscured. Can be formed on.

Here, the masking unit 115 as well as the border portion of the display panel 140, the panel mounting portion 143a of the retainer frame 143 or the panel mounting on the touch panel 110 so that the light of the light source is not visually visible from the front. It is also possible to perform a function of hiding the portion where the light source 143a and the light source are installed so as not to be visually visible.

The masking unit 115 may visually cover the panel seating unit 143a and the light source, such as a bezel, which is an edge of the display device 100.

The masking unit 115 may be configured to be printed, painted, or adhered to a colored adhesive sheet having adhesive properties in a portion where the light source 130 and the panel mounting portion 143a are positioned on the touch panel 110. .

In addition, the masking unit 115 may partition an image display area in which an image displayed on the display panel 140 is visually transmitted through the touch panel 110 and a non-display area in which the image is not displayed. The second region 102 in which light to be described below emits light may be in the non-display region that is not displayed.

1 to 3, the border-emitting display apparatus 100 according to the first embodiment of the present invention includes first and second regions 101 and 2 that emit light at the border of the display panel 140. Region 102 may be included.

The first area 101 may be located on the side of the edge of the display panel 140 to emit light, and the second area 102 may be located in front of the edge of the display panel 140 to emit light. .

The first region 101 and the second region 102 may emit light having different luminance.

In this case, the first region 101 and the second region 102 may emit different luminances using different light sources, but the first region 101 is positioned behind the second region 102 so that it is displayed. Viewers viewing the image displayed on the panel 140 may be visually shown to have different luminance.

In the first embodiment, the second region 102 is positioned on the outer portion of the touch panel 110 partitioned by the masking unit 115 so that the touch panel 110 transmits light and the luminance of the second region 102. The luminance of the first region 101 may be different.

The first region 101 protrudes more than the circumference of the second region 102 and when looking at the display panel 140, the first region 10 and the second region 102 that emit light may be seen together. .

The second region 102 may be an outer portion partitioned from the touch panel 110 into a masking unit 115, and an inner portion of the masking unit 115 may be viewed through an image displayed on the display panel 140. It can be an image display area.

The first region 101 and the second region 102 may be divided by a light transmitting member 120 that diffuses and transmits light from a light source.

2 and 3, the border-emitting display device 100 according to the first embodiment of the present invention may include a light-transmitting member 120.

The light transmission member 120 may transmit light from the light source 130 installed in the panel frame 141 to the first area 101 and the second area 102, and the light transmission member 120 may It may be formed of a transparent material such as glass or synthetic resin capable of transmitting light.

The light-transmitting member 120 may be formed of a diffusion material so that light emitted to the first region 101 and the second region 102 diffuses to emit light, or may be formed of a colored translucent body.

The light transmission member 120 is installed on the edge of the back cover 150 to be described below to seal the gap between the back cover 150 and the touch panel 110 and at the same time receive light from the light source 130 to emit light. You can.

The light transmission member 120 may include a first emission unit 121 that emits light to the first region 101 and a second emission unit 122 that emits light to the second region 102.

The first output unit 121 is positioned at a portion facing the light source 130 installed on the side of the panel frame 141, and the incident surface where light from the light source 130 enters is incident with the first output unit 121. Arranged in a straight line, light incident through the light source 130 is emitted through the first emission unit 121 positioned in front of the light source 130 to emit light in the first region 101. have.

In addition, the second emission unit 122 is partially or partially the light incident through the light source 130 installed on the side of the panel frame 141 in a direction orthogonal to the first emission unit 121, the first emission unit 121 The light is emitted from the second region 102 which is in front of the display panel 120 by being emitted through and the other part of the light is transmitted to the second emission unit 122.

A panel mounting groove 123 in which the periphery of the touch panel 110 is seated and spread may be formed in the second exit part 122.

The front edge of the panel mounting groove 123 is formed with a protruding jaw 123a through which the rim of the touch panel 110 seated on the panel mounting groove 123 is fixed, and the touch panel seated on the panel mounting groove 123 ( 110) can also be fixed.

At this time, the outer end of the protruding jaw 123a may be inclined toward the touch panel 110 to prevent the touch panel 110 from being detached toward the front of the light transmission member 120.

A cover catching portion 124 protruding in a direction in which the back cover 150 is positioned may be formed on the light transmission member 120 so that the rim of the back cover 150 to be described below may be crossed.

Meanwhile, the light transmission member 120 may be formed to have a length that protrudes further outward from the edge of the back cover 150 so that light emitted from the light transmission member 120 can be seen from the rear.

As shown in FIG. 3, the border-emitting display device 100 according to the first embodiment of the present invention may include a back cover 150.

The back cover 150 may be sealed to surround the back surface of the display panel 140 in order to protect it from an external force of the display panel 140.

The back cover 150 may be formed of synthetic resin or metal for heat dissipation, and only a portion where the light transmission member 120 is positioned may be partially or entirely formed of metal for heat generation of the light source 130.

Further, a portion of the back cover 150 in contact with the light transmitting member 120 may be formed with a cover hanging part 151 that spans the panel hanging jaw 124 of the light transmitting member 120, and the panel hanging jaw Between the (124)) and the cover mounting portion 151, a buffer seal 160 may be installed to prevent damage to the light transmission member 120.

The buffer seal 160 may be formed of a material having elasticity, and adhesive layers are formed on both sides of the buffer seal 160 to form a gap between the cover 151 and the panel chin 124 by the buffer seal 160. It can be fixed to each other in the form of bonding.

Here, when the display panel 140 seals the display panel 140, the second output unit 122 emits light not only in front of the position where the touch panel 110 is located, but also in the opposite direction to the rear, thereby displaying the display panel ( The outer rim of the back cover 150 may be positioned at a position where the second exit part 122 is partially exposed so as to be seen even at the rear circumference of 140.

The operation and effects between the components described above will be described.

When the light emitted from the light source 130 is emitted from the edge-emitting display device 100 according to the first embodiment of the present invention, a part of the light of the light source 130 is the first emission part 121 of the light transmission member 120 ), The light is emitted around the side of the edge-emitting display device 100, and the rest of the light from the light source 130 is emitted through the second emission part 122 of the light transmission member 120, It is emitted through the touch panel 110.

In this way, light emitted through the first emission unit 121 and the second emission unit 122 constitutes the first region 101 and the second region 102, respectively, and have different luminance, so that one light source 130 ), The light of different luminance can be emitted to increase the usability of the edge-emitting display device 100 according to the concentration of the gaze.

At this time, since the second emitting part 122 partially exposes the surface of the opposite direction in contact with the touch panel 110 from the back cover 150 to emit light, the light source is also emitted from the rear of the edge-emitting display device 100. 130).

In addition, when the image is displayed on the display panel 140 of the edge-emitting display apparatus 100 and a touch is performed according to the displayed image, the touch panel 110 senses it and emits a border signal in the form of generating a touch signal. Type display device 100 may be used.

Therefore, the edge-emitting display device 100 according to the first embodiment of the present invention emits light according to the difference in luminance in the first area 101 and the second area 102, so that the user can feel various aesthetics of light. By transmitting and focusing your eyes, you can increase the frequency of use.

Hereinafter, a border emission type display device 100 according to a second embodiment of the present invention will be described. The second embodiment is a modification of the first embodiment, and the same components as the first embodiment are denoted by the same reference numerals, and the same components have the same action and effects, and thus detailed description of the same components will be omitted.

As illustrated in FIG. 4, the edge-emitting display device 100 according to the second embodiment of the present invention is characterized by a light-transmitting member 120.

The light-transmitting member 120 of the edge-emitting display device 100 according to the second embodiment of the present invention differs in luminance between the first emitting part 121 and the second emitting part 122 of the light transmitting member 120. In order to increase the first exit portion 121 and the second exit portion 122 may be formed of different materials.

For example, the first emitting portion 121 of the light transmitting member 120 is formed of a light emitting body that emits light by the light of the light source, and the second emitting portion 122 may be formed of synthetic resin or glass having light transmissivity, The light source 130 emits light from the edge of the display panel 140 through the first exit unit 121 through the second exit unit 122, and the light emitted through the second exit unit 122 is touched. It may be configured to exit to the front of the display panel 140 through the panel 110.

At this time, the first emitting portion 121 of the light-transmitting member 120 is made of a light-diffusing material such as colored, metal powder, or fluorescent material to emit light by itself to the light source, or a light-diffusing material is mixed Can be produced.

By forming the first and second exit portions 121 and 122 with different materials, the difference in luminance between the first and second exit portions 121 and 122 is increased or smaller. It can provide more aesthetic sense of light according to the difference in luminance.

In addition, a pattern according to the refraction of light may be formed on the second emitting part 122, or a diffusion pattern, for example, a diffuse reflection pattern or a pattern may be formed or printed so that a luminance difference due to diffuse reflection is further generated.

The diffusion pattern formed on the second emitting part 122 may be formed on a surface contacting the touch panel 110 or a surface opposite to the touch panel 110.

In addition, the first and second emission portions 121 and 122 formed of different materials may be attached to each other by an optical adhesive capable of transmitting light to form the light transmission member 120.

In addition, since the second exit portion 122 is formed of a transparent body, the rear side is seen through the second exit portion 122 so that the first exit portion 121 is second border portion 122 at the edge of the display panel 140 ), Which can have a visual effect in a form that is spaced apart and emits light.

Therefore, the border-emitting display device 100 according to the second embodiment of the present invention is formed by forming the first emitting portion 121 and the second emitting portion 122 from different materials to form a first area 101 and a second area. By setting the luminance difference of the two regions 102, not only can a variety of aesthetic senses of light be provided, but also a diffusion pattern is formed in the second emission part 122 to impart a sense of light according to the diffusion pattern. .

Hereinafter, a border light emitting display device 100 according to a third embodiment of the present invention will be described. The third embodiment is a modification of the second embodiment, and the same components as the second embodiment are denoted by the same reference numerals, and the same components have the same action and effects, and thus detailed descriptions of the same components will be omitted.

As shown in FIG. 5, the edge-emitting display device 100 according to the third embodiment of the present invention is characterized by a light-transmitting member 120.

The light-transmitting member 120 of the edge-emitting display device 100 according to the third embodiment of the present invention may further include a transflective mirror 131 and a reflective mirror 133.

The semi-transmissive mirror 131 is configured to transmit some of the light and reflect the rest of the light, and the semi-transmissive mirror 131 is printed on the surface of the second output part 122 that is in contact with the touch panel 110, or Can be attached.

In addition, the reflective mirror 133 may be implemented as a mirror that totally reflects light, and is attached to or printed on a surface positioned in a direction opposite to a surface on which the transflective mirror 131 is located in the second emission part 122. The reflective mirror 133 may be configured to reflect the light of the second exit part 122 toward the surface on which the transflective mirror 131 is located.

On the other hand, the semi-transmissive mirror 131 is installed so that the reflective surface for reflecting light faces the reflective surface of the reflective mirror 133, the light of the light source alternately between the reflective mirror 133 and the semi-transmissive mirror 131. It can be reflected to form an image with a continuous depth.

By installing the semi-transmissive mirror 131 and the reflective mirror 133 in the second emitting unit 122, when the user looks at the display panel 140, the second emitting unit 122 is the reflective mirror 133 And the repetitive reflection of the semi-transmissive mirror 131, it is possible to feel a sense of depth.

Therefore, since the light is double reflected by the thickness of the second emitting part 122 in the second emitting part 122 of the edge-emitting display device 100 according to the third embodiment of the present invention, the second area In (102), it can have more various light effects.

In addition, since the light is emitted by the first emission unit 121 around the second area 102, light is emitted from the air spaced apart from the display panel 140 by the second area 102, resulting in light. The visual effect can be further improved.

Hereinafter, an edge-emitting display device 100 according to a fourth embodiment of the present invention will be described. The fourth embodiment is a modification of the first embodiment, and the same components as the first embodiment are denoted by the same reference numerals, and the same components have the same action and effects, and thus detailed descriptions of the same components will be omitted.

As illustrated in FIG. 6, the edge-emitting display device 100 according to the fourth embodiment of the present invention is characterized by a light-transmitting member 120.

In the light-emitting member 120 of the edge-emitting display device 100 according to the fourth embodiment of the present invention, the first emission part 121 does not protrude from the edge of the touch panel 110 as in the first embodiment. It may be formed in a shape cut into the same size as the rim of the touch panel 110.

The light emitting display device 100 according to the fourth embodiment configured as described above is visible from the front of the display panel 140 through the touch panel 110 and the light emitted from the second emission unit 122 is visible. 121 is not directly visible.

However, since the light of the first emitting portion 121 is diffused around the second emitting portion 122, it is possible to impart a diffusion effect such as gradation around the second emitting portion 122.

Therefore, the edge-emitting display device 100 according to the fourth embodiment of the present invention provides a gradation effect to the periphery of the second emission part 122, thereby providing a more diverse light in the second region 102. Effects can occur.

Hereinafter, a border light emitting display device 100 according to a fifth embodiment of the present invention will be described. The fifth embodiment is a modification of the first embodiment, and the same components as the first embodiment are denoted by the same reference numerals, and the same components have the same actions and effects, and thus detailed descriptions of the same components are omitted.

In the fifth embodiment, the finishing panel 110 'may be installed in place of the touch panel 110 in the first embodiment, and the light transmitting member 120 does not transmit light and emit light, but the light source 130 It can emit light by itself.

The finishing panel 110 ′ according to the fifth embodiment may be a transparent finishing panel 110 ′, and the light transmitting member 120 may be seen through the finishing panel 110 ′.

Here, the finishing panel 110 'may be a panel made of transparent synthetic resin or glass for protecting the display panel 140, and the finishing panel 110' may be more than the perimeter of the display panel 140 '. It can have a large circumference.

The display panel 140 according to the fifth embodiment may be an in-cell or one-cell display panel with a touch sensor embedded therein.

In addition, the light transmitting member 120 may be formed of a light diffusion material, or include light diffusion materials to receive light from the light source 130 and emit light as a whole.

For example, in the first embodiment, the light transmission member 120 transmits light to perform light emission from the first emission unit 121 or the second emission unit 122, but in the fifth embodiment, the light transmission The member 120 may receive light as a whole and emit light.

Here, even in the case of the fifth embodiment, even if the second emitting part 122 of the light transmission member 120 overlaps with the finishing panel 110 ', the difference in luminance hardly occurs because the finishing panel 110' is transparent. Therefore, it can be seen visually in the form of emitting light as a whole around the display panel 140 'without the boundary between the first area 101 and the second area 102.

Accordingly, the edge-emitting display device 100 according to the fifth embodiment of the present invention has an advantage that the display panel 140 is an in-cell display panel with a built-in touch function, which is easier to manufacture than the first embodiment.

Hereinafter, a border light emitting display device 100 according to a sixth embodiment of the present invention will be described. The sixth embodiment is a modification of the fifth embodiment, and since the same configuration as the fifth embodiment has the same reference numerals and the same configuration has the same action and effect, detailed description of the same configuration will be omitted.

As shown in FIG. 8, the sixth embodiment differs from the fifth embodiment in the configuration of the light transmission member 120.

The light transmission member 120 of the sixth embodiment of the border and the finishing panel 110 'of the first exit portion 121 so that the first exit portion 121 does not protrude outside the border of the finishing panel 110' Borders may be formed to the same size.

For example, the second exit portion 122 does not protrude from the first exit portion 121, but the end of the finishing panel 110 ′ and the end of the first exit portion 121 may be formed identically.

In the sixth embodiment, the display panel 140 'may be an in-cell or one-cell display panel.

Accordingly, the edge-emitting display device 100 according to the sixth embodiment can improve the visual effect by emitting light as a whole from the outer circumference of the masking unit 115, and remove it from the edge of the finishing panel 110 '. 1 The exit portion 121 is not protruding, so the volume can be reduced.

Hereinafter, a border light emitting display device 100 according to a seventh embodiment of the present invention will be described. The seventh embodiment is a modification of the first embodiment, and the same components as the first embodiment are denoted by the same reference numerals, and the same components have the same action and effects, and thus detailed descriptions of the same components are omitted.

The edge-emitting display device 100 according to the seventh embodiment is characterized by a light-transmitting member 120 and a touch panel 110.

9 and 10, the touch panel 110 of the edge-emitting display device 100 according to the seventh embodiment of the present invention includes a light-transmitting member 120 on the front edge of the touch panel 110. The optical member seating groove 111a to which the end of the seat is seated may be formed.

Referring to the touch panel 110 of the seventh embodiment, in the seventh embodiment, an optical member seating groove 111a may be formed around the outside of the touch panel 110, and the optical member seating groove 111a is a display panel. When viewed from the front 140, it may be formed to have a length (W1) that partially overlaps from the outside to the inside of the masking portion 115.

The optical member seating groove 111a may be formed on the glass panel 111 of the touch panel 110 by chemical etching or mechanical polishing.

In addition, the touch panel 110 may be formed to have the same circumference as the outer circumference of the panel seating portion 143a so as not to protrude around the retainer frame 143.

In this case, when the display panel 140 is viewed from the front, the masking unit 115 may have a width of the touch panel ( 110) may be formed along the circumference.

The panel mounting portion 143a may be formed to protrude further from the retainer frame 143 not only in the direction in which the display panel 140 is positioned to block the light from the light source 130, but also in the opposite direction in which the light source 130 is installed. You can.

The panel frame 141 may be formed in the shape of a plate, and may be configured to engage the retainer frame 143 by fastening by a fastening member such as a mutual bolt to seal the side surface of the panel frame 141.

In addition, a shield cover 149 for shielding electromagnetic waves may be installed at the rear of the panel frame 141, and an AD board for operating the display panel 110 between the shield cover 149 and the panel frame 141. The driving circuit board 180 such as may be accommodated.

The light transmission member 120 is seated in a form in which the second output unit 122 is spread over the optical member mounting groove 111a, and the end of the first output unit 121 connected to the second output unit 122 is back It is coupled to the rim of the cover 150 can seal the rim of the back cover 150 and the touch panel 110.

In addition, the first output portion 121 of the light transmission member 120 is in the form of sailing and bending the rim of the back cover 150 at the end of the second output portion 122 seated in the optical member mounting groove 111a. It is formed to seal the side of the display panel 140 to receive light from the light source 130 to emit light.

The first exit unit 121 may be bent and bent at a predetermined angle (a) at the end of the second exit unit 122 so that the surface from which light is emitted is visible from the front along with the second exit unit 123. have.

The light source 130 is also arranged to be inclined in a direction orthogonal to the first exit unit 121 so that light is emitted through the first exit unit 121 by accurately emitting light in a direction orthogonal to the first exit unit 121. You can.

Here, the light source 130 is formed to bend the retainer frame 143 so as to be orthogonal to the first emission part 121, and the light source 130 is first emitted in the form of installing the light source 130 in the bent portion It may be arranged to be inclined in a direction orthogonal to the portion 121.

The first emission unit 121 extends from a side of the display panel 140 to a direction facing the light source 130 so that the light of the light source 130 passes through the first emission unit 121 to the second emission unit 122 Can be delivered to.

In addition, the light transmitting member 120 may be formed of a colored translucent body to diffuse light from the light source 130 and emit light as a whole, or may be manufactured by mixing a light diffusion material or a light diffusion material, and the light source 130 and A diffusion pattern 127 for diffusing the light of the light source 130 may be formed on the surface of the facing second emission part 122.

The diffusion pattern 127 forms a concave-convex surface through chemical etching or mechanical polishing so that the first exit portion 121 and the light source 130 face diffuse reflection, or a diffuse reflection sheet having a diffuse reflection function When attached, or when the light-transmitting member 120 is injected, the diffusion pattern 127 may be formed in the mold to be integrally molded in the shape thereof, and thus may be formed on the first exit portion 121.

And, between the optical member seating groove (111a) and the second emitting portion 122, the buffer between the touch panel 110 and the light-transmitting member 120 at the same time to perform electrical insulation while buffering the buffer formed of an elastic body Seal 160 may be installed.

The light transmission member 120 is projected to the inside of the first output portion 121 in the first output portion 121 to support the rear of the panel mounting portion 143a of the retainer frame 143 to support the panel mounting portion 143a. A fixed jaw 125 may be formed to prevent the separation from the touch panel 110.

In the rim-emissive display device 100 according to the seventh embodiment of the present invention configured as described above, light from the light source 130 is partially transmitted to the first emission unit 121 through the light transmission member 120. Light is emitted from the first region 101 which is a side surface of the display panel 110, and a portion of the other light is transmitted to the second emission unit to emit light from the second region 102 which is a front edge of the display panel 110.

At this time, the first exit unit 121 is disposed to be inclined at a predetermined angle (a) with respect to the second exit unit 122, when looking at the display panel 110 from the front, the first exit unit 121 and the first 2 The exit section 122 is seen together with different luminance differences.

In addition, the second exit part 122 is formed to have a length W1 partially overlapping with the masking part 115 performing the function of the bezel, and thus partially covers the masking part 115, so that when viewed from the front, the bezel It is possible to implement a narrow bezel (narrow bezel) with a minimum width.

Therefore, the edge-emitting display device 100 according to the seventh embodiment of the present invention can give a visual effect to increase the frequency of use by emitting light from the edge of the display panel 140 by the light-transmitting member 120. In addition, the bezel may be minimized by the second exit part 122.

Hereinafter, an edge-emitting display device 100 according to an eighth embodiment of the present invention will be described. The eighth embodiment is a modification of the seventh embodiment, and the same configuration as the seventh embodiment is denoted by the same reference numerals and the same configuration has the same action and effect, and thus detailed description of the same configuration is omitted.

The edge-emitting display device 100 according to the eighth embodiment has a difference in the light transmission member 120.

9 and 11, the light-transmitting member 120 of the rim-emitting display device 100 according to the eighth embodiment of the present invention includes a light source 130 installed on the side of the retainer frame 143. Light is not incident through the front side, but light is incident through the side surface of the light source 130 so that the light transmitting member 120 can emit light.

The light-transmitting member 120 of the rim-emitting display device 100 according to the eighth embodiment of the present invention is inside the second emitting part 122 so that light from the light source 130 is incident on the side of the light source 130. In the incident protrusion 129 extending to the side of the light source 130 may be formed.

The incident protrusion 129 may be formed to extend from the second emitting portion 122 to the side of the light source 130 so that light is incident on the side of the light source 130.

In addition, a diffusion pattern 127 is formed on the surface of the incident protrusion 129 facing the side surface of the light source 130 to be configured to diffuse light uniformly throughout the light transmission member 120 and emit light. You can.

In the edge-emitting display device 100 according to the eighth embodiment of the present invention configured as described above, light from the light source 130 flows into the incident protrusion 129 from the side of the light source 130, and some of the light that flows in It is transmitted to the first emitting portion 121 and emits light in the first region 101, and a part of the light is transmitted to the second emitting portion and emits light in the second region 102.

At this time, when the light emitting surface of the first emitting unit 121 is disposed at a predetermined angle (a) with respect to the second emitting unit 122 is inclined, when looking at the display panel 110, the first emitting unit The 121 and the second emitting portion 122 are viewed together with different luminance.

In addition, since the second emitting part 122 partially overlaps with the masking part 115 that functions as a bezel, a narrow bezel with a minimum bezel width when viewed from the front can be implemented.

In the eighth embodiment, since light is incident from the side of the light source 130 by the incident projection 129, there is no need to position the light transmission member 120 in front of the light source 130 as in the seventh embodiment. By minimizing the space between the 130 and the light transmitting member 120, it is possible to provide a border-emitting display device 100 having a narrower border than the sixth embodiment.

Therefore, the border-emitting display device 100 according to the eighth embodiment of the present invention can give a visual effect to increase the frequency of use by emitting light from the border of the display panel 140 by the light-transmitting member 120. In addition, the bezel is minimized by the second exit part 122 and the border of the display panel 140 can be manufactured with a minimized width.

Hereinafter, a border emission type display device 100 according to a ninth embodiment of the present invention will be described. The ninth embodiment is a modification of the eighth embodiment, and the same configuration as the eighth embodiment has the same reference numerals and the same configuration has the same action and effect, and thus detailed description of the same configuration will be omitted.

9 and 12, the border-emitting display device 100 according to the ninth embodiment of the present invention is characterized by the installation position of the light source 130.

The light source 130 of the edge-emitting display device 100 according to the ninth embodiment may be installed in the back cover 150, not in the retainer frame 143.

The light source 130 may be installed on the inner circumference of the back cover 150 facing the incident protrusion 129, and the incident protrusion 129 of the light transmission member 120 is the light source 130 installed on the back cover 150 ) Can be formed to extend to the installed portion.

In the rim-emitting display apparatus 100 according to the ninth embodiment configured as described above, light from the light source 130 is incident on the incident protrusion 129 facing the light source 130, and some of the incident light is first-exit It is emitted through 121 to emit the first region 101.

Then, the remaining light is emitted to the second emitting portion 122 to emit light in the second region 10.

Accordingly, in the edge-emitting display device 100 according to the ninth embodiment, the incident projections 129 face each other, so that the light on the side of the light source 130 is not incident on the light transmitting member 120, but the light source 130 ), The light in front of the light-transmitting member 120 is incident, and more light is incident than the eighth embodiment to provide a brighter light.

Hereinafter, a border light emitting display device 100 according to a tenth embodiment of the present invention will be described. The tenth embodiment is a modification of the seventh embodiment, and since the same configuration as the seventh embodiment has the same reference numerals, and the same configuration has the same action and effect, detailed description of the same configuration will be omitted.

13 and 14, the edge-emitting display device 100 according to the tenth embodiment of the present invention is characterized by a light-transmitting member 120.

The light transmitting member 120 of the tenth embodiment extends the end of the second emitting part 122 of the light transmitting member 120 to the inside of the retainer frame 143 so that the masking part 115 does not need to be formed. It may be formed to have (W2).

For example, by extending the end of the second output unit 122 toward the center of the display panel 140 by a width to form the masking unit 115, the second output unit 122 is visually displayed by the masking unit 115. Components that are obscured to be invisible may be covered in place of the masking unit 115.

In addition, a buffer seal 160 is installed between the optical member seating groove 111a and the second emitting part 122 to simultaneously buffer the gap between the light transmission member 120 and the touch panel 110 by elastic force. Electrical insulation can be performed.

In the edge-emitting display apparatus 100 according to the tenth embodiment configured as described above, light from the light source 130 is incident through the first emission unit 121, and incident light is transmitted to the second emission unit 122. As the light transmission member 120 emits light as a whole, a visual effect may be imparted.

At this time, since the second emitting portion 122 is formed with a length W2 extending to a portion to form the masking portion 115, the retainer frame 143 is covered by light emitting light to form the masking portion 115. There is no need, and when looking at the display panel 140 from the front, since light is emitted around the image display area displaying the image of the display panel 140, a zero bezel without a bezel can be implemented. have.

Therefore, the edge-emitting display device 100 according to the tenth embodiment of the present invention emits light in the vicinity of an image display area where an image is displayed on the display panel 140 by the light-transmitting member 120. A visual effect may be given to increase the frequency, and a zero bezel in which the bezel is not visually visible may be implemented.

Hereinafter, an edge-emitting display device 100 according to an eleventh embodiment of the present invention will be described. The eleventh embodiment is a modification of the eighth embodiment, and the same configuration as the eighth embodiment has the same reference numerals and the same configuration has the same action and effect, and thus detailed description of the same configuration will be omitted.

13 and 15, the border-emitting display device 100 according to the eleventh embodiment of the present invention is characterized by a light-transmitting member 120.

The light transmitting member 120 of the eleventh embodiment extends the end of the second emitting part 122 of the light transmitting member 120 to the inside of the retainer frame 143 so that the masking part 115 does not need to be formed. It may be formed to have (W2).

For example, by extending the end of the second output unit 122 toward the center of the display panel 140 by a width to form the masking unit 115, the second output unit 122 is visually displayed by the masking unit 115. Components that are obscured to be invisible may be covered in place of the masking unit 115.

In addition, a buffer seal 160 is installed between the optical member seating groove 111a and the second emitting part 122 to simultaneously buffer the gap between the light transmission member 120 and the touch panel 110 by elastic force. Electrical insulation can be performed.

In the edge-emitting display device 100 according to the eleventh embodiment configured as described above, light from the light source 130 is incident through the first emission unit 121, and incident light is transmitted to the second emission unit 122. As the light transmission member 120 emits light as a whole, a visual effect may be imparted.

At this time, since the second emitting portion 122 is formed with a length W2 extending to a portion to form the masking portion 115, the retainer frame 143 is covered by light emitting light to form the masking portion 115. There is no need, and when looking at the display panel 140 from the front, since light is emitted around the image display area displaying the image of the display panel 140, a zero bezel without a bezel can be implemented. have.

Therefore, the border-emitting display device 100 according to the eleventh embodiment of the present invention emits light in the vicinity of an image display area where an image is displayed on the display panel 140 by the light transmission member 120. A visual effect may be given to increase the frequency, and a zero bezel in which the bezel is not visually visible may be implemented.

Hereinafter, a border emission type display device 100 according to a twelfth embodiment of the present invention will be described. The twelfth embodiment is a modification of the eleventh embodiment, and the same configuration as the eleventh embodiment has the same reference numerals, and the same configuration has the same action and effect, and thus detailed description of the same configuration will be omitted.

13 and 16, the border-emitting display device 100 according to the eleventh embodiment of the present invention is light-transmitted so that light from the light source 130 is irradiated to the front and rear of the display panel 140. The member 120 may be installed at the front and rear, respectively, around the light source 130.

The edge-emitting display device 100 according to the eleventh embodiment protrudes to the side surface of the light source 130 on the inner surface of the first emission part 121 like the light-transmitting member 120 of the eighth embodiment, and the light source 130 ), An incident protrusion 129 through which light is incident may be formed.

The incident projections 129 are installed on both sides of the light source with the light sources 130 interposed therebetween so as to face each of the both sides of the light source 130, and the light of the light source 130 is transmitted through the light transmitting member 120 positioned in front. Light is emitted from the front edge of the display panel 110.

At the same time, the light of the light source 130 emits light from the rear edge of the display panel 110 through the light transmission member 120 located at the rear.

The incident protrusions 129 of the light-transmitting member 120 located on both sides of the light source 130 are formed to extend to a portion adjacent to the side surface of the light source 130 to receive light from the side of the light source 130 and emit light. Can be.

Here, the light-transmitting member 120 positioned on the rear edge of the display panel 120 may be formed of either the first emitting portion 121 emitting light on the rear side or the second emitting portion 122 emitting light on the rear front side. It may be formed in a diagonal shape as shown in the drawing, it may be configured to emit light in the border portion without the rear side partition.

The rim-emissive display device 100 according to the twelfth embodiment configured as described above is incident on the front of the incident protrusion 129 of the light-transmitting member 120 in which the light of the light source 130 is located on the front side of the light source. Light is partially emitted to the first emitting portion 121 and the remaining light is emitted to the second emitting portion 122 by the light transmitting member 120, so that the front edge of the display panel 110 emits light.

At the same time, it is incident on the incidence protrusion 129 of the light-transmitting member 120 located on the rear side of the light source 130 and is emitted to the first exit portion 121 or the second exit portion 122 to be displayed at the rear edge of the display panel. Emits light.

Therefore, the border-emitting display device 100 according to the twelfth embodiment of the present invention can emit light from the front and rear edges of the display panel 140 to increase the frequency of use according to visual effects and masking. Since the second emission part 122 covers the part to form the part 115, a zero bezel in which the bezel is not visually visible can be implemented.

Hereinafter, the border-emitting display device 100 according to the thirteenth embodiment of the present invention will be described. The thirteenth embodiment is a modification of the tenth embodiment, and the same configuration as the tenth embodiment has the same reference numerals and the same configuration has the same action and effect, and thus detailed description of the same configuration will be omitted.

13 and 17, the border-emitting display device 100 according to the thirteenth embodiment of the present invention installs a finishing panel 110 'instead of the touch panel 110 in the tenth embodiment, Instead of the display panel 140 ′ displaying an image, an in-cell or one-cell display panel having a touch function may be installed.

The finishing panel 110 ′ may be installed in front of the display panel 140 ′ to protect the display panel 140 ′, and the closing panel 110 ′ may be positioned at the inner end of the light transmission member 120. Can be configured.

For example, the optical member mounting groove 111a is not formed in the finishing panel 110 ', but the backup frame 170 is installed around the finishing panel 110', and the light transmitting member ( The second exit part 122 of 120 may be seated.

The backup frame 170 is formed along the periphery of the finishing panel 110 ′ and fixedly installed in the finishing panel 110 ′, and closed in the form in which the second exit portion 122 is seated in front of the backup frame 170. The light transmission member 120 may be coupled to the panel 110 ′.

At this time, a backup frame 170 having a width of the second exit portion 122 is installed in the second exit portion 122 to support the second exit portion 122, and the backup frame 170 is a finishing panel. The function of supporting 110 'may also be performed.

In addition, a buffer seal 160 may be installed between the backup frame 170 and the second emitting part 122.

The buffer seal 160 buffers between the backup frame 170 and the finishing panel 110 ′ and can be fixed to each other by an adhesive layer of the buffer seal 160.

The finishing panel 110 ′ may be bonded to and bonded to each other by an adhesive layer made of OCA or OCR to the display panel 140 ′ without a gap between the display panel 140 ′ for reducing reflectivity and rigid fixing.

When the finishing panel 110 'is directly attached to the display panel 140 by an adhesive layer, the backup frame 160 may not be installed.

The edge-emitting display apparatus 100 according to the thirteenth embodiment configured as described above is incident with the light from the light source 130 entering the first emission unit 121 facing the light source 130, and the first emission unit 121. The light incident to the light is diffused to the second emission part 122, and the light transmission member 120 emits light as a whole.

In addition, the light-transmitting member 140 is supported on the backup frame 170 without the need to form the panel seating groove 111a on the finishing panel 110 ′, thereby facilitating manufacturing.

Therefore, the border-emitting display device 100 according to the thirteenth embodiment of the present invention is backed up without the need to form the optical member seating groove 111a on which the second exit part 122 is seated on the finishing panel 110 '. Since the frame 170 supports the light-transmitting member 120, it is easy to manufacture, and light is emitted by the light-transmitting member 120 around the display panel 140 ', thereby increasing the visual effect. , The light transmitting member 120 emits light around the image display area of the display panel 140 ′ to implement a visual zero bezel.

In addition, the light-transmitting member 140 is seated on the backup frame 170 has an advantage of easy manufacturing.

Hereinafter, a border light emitting display device 100 according to a fourteenth embodiment of the present invention will be described. The fourteenth embodiment is a modification of the eleventh embodiment, and the same components as the eleventh embodiments have the same reference numerals, and the same components have the same actions and effects, and thus detailed description of the same components will be omitted.

13 and 18, the border-emitting display device 100 according to the fourteenth embodiment of the present invention installs a finishing panel 110 'instead of the touch panel 110 in the eleventh embodiment, Instead of the display panel 140 ′ displaying an image, an in-cell or one-cell display panel having a touch function may be installed.

The finishing panel 110 ′ may be installed in front of the display panel 140 ′ to protect the display panel 140 ′, and the closing panel 110 ′ may be positioned at the inner end of the light transmission member 120. Can be configured.

For example, the optical member mounting groove 111a is not formed in the finishing panel 110 ', but the backup frame 170 is installed around the finishing panel 110', and the light transmitting member ( The second exit part 122 of 120 may be seated.

The backup frame 170 is formed along the periphery of the finishing panel 110 ′ and fixedly installed in the finishing panel 110 ′, and closed in the form in which the second exit portion 122 is seated in front of the backup frame 170. The light transmission member 120 may be coupled to the panel 110 ′.

In addition, a buffer seal 160 is installed between the backup frame 170 and the finishing panel 110 ′ to buffer each other, and at the same time, the buffer seal 160 can be fixed to each other by an adhesive layer of the buffer seal 160.

At this time, a backup frame 170 having a width of the second exit portion 122 is installed in the second exit portion 122 to support the second exit portion 122, and the backup frame 170 is a finishing panel. The function of supporting 110 'may also be performed.

In addition, a buffer seal 160 may be installed in a portion where the backup frame 170 and the finishing panel 110 ′ come into contact with the second exit part 122.

The finishing panel 110 ′ may be bonded to and bonded to each other by an adhesive layer made of OCA or OCR to the display panel 140 ′ without a gap between the display panel 140 ′ for reducing reflectivity and rigid fixing.

When the finishing panel 110 'is directly attached to the display panel 140 by an adhesive layer, the backup frame 160 may not be installed.

The edge-emitting display device 100 according to the fourteenth embodiment configured as described above is incident with the light from the light source 130 entering the incident projection 129 facing the light source 130, and some of the light is emitted from the first emission unit 121 ) To emit light in the first region 121, and the rest of the light is transmitted to the second emission portion 121 to emit light in the second region 122.

In addition, the light-transmitting member 140 is supported on the backup frame 170 without the need to form the panel seating groove 111a on the finishing panel 110 ′, thereby facilitating manufacturing.

Therefore, the border-emitting display device 100 according to the fourteenth embodiment of the present invention is backed up without the need to form the optical member seating groove 111a on which the second exit part 122 is seated on the finishing panel 110 '. Since the frame 170 supports the light-transmitting member 120, it is easy to manufacture, and light is emitted by the light-transmitting member 120 around the display panel 140 ', thereby increasing the visual effect. , The light transmitting member 120 emits light around the image display area of the display panel 140 ′ to implement a visual zero bezel.

In addition, the light-transmitting member 140 is seated on the backup frame 170 has an advantage of easy manufacturing.

Hereinafter, a game machine (not shown) having a border-emitting display device 100 according to an embodiment of the present invention may include a border-emitting display device 100 according to the first to 14th embodiments described above. have.

The edge-emitting display device according to the embodiment may include a game body and an operation mechanism.

In order to perform the game, the game body is provided with a border-emitting display device 100 that displays game images.

In addition, the game body may further be provided with an operation mechanism that generates an operation signal of the game through the game image displayed on the edge-emitting display device 100, and the operation mechanism generates an operation signal or touches it according to mechanical operation. An operation signal can be generated by a signal.

Of course, the game may be operated by generating an operation signal from the touch panel 110 or the touch sensor embedded in the display panel 110 'through direct touch of the edge-emitting display device 100.

In addition, the game body may be provided with a money input means for inputting a game money, the money input means may be implemented with an electronic input device such as a barcode or NFC or a real-life input mechanism for inputting real coins.

The game device equipped with the edge-emitting display device 100 configured as described above emits light from the light source 130 at the edge of the edge-emitting display device 100 to focus visual attention, thereby increasing participation in the game. .

In addition, it is possible to increase the frequency of use of the game by focusing attention by emitting colorful lights when an event occurs in the game.

At this time, the plurality of light sources 130 may emit light of different colors, or be lighted in a regular pattern or an irregular pattern to improve the visual effect according to the light. You can also improve the effect.

Therefore, a game machine equipped with a border-emitting display device 100 according to an embodiment of the present invention increases the visual participation effect by increasing the visual participation effect as light of different luminance is emitted from the border of the display panel 140 I can do it.

Although the embodiments of the present invention have been described above, the scope of rights of the present invention is not limited to this, and it is easily changed and equalized by those skilled in the art from the embodiments of the present invention. Includes all changes and modifications to the extent possible.

Claims (19)

Display panel for displaying images, A light source that emits light around the display panel, The front cover is opened, the front cover is accommodated, A finishing panel disposed in front of the display panel to protect the display panel, and A border-emitting display device comprising a light-transmitting member installed along the open rim of the back cover to seal between the back cover and the finishing panel, and to receive and emit light emitted by the light source. According to claim 1, The light transmitting member A first emitting part receiving light emitted from the light source and emitting the light toward the outside of the side surface of the display panel, and A border-emitting display device including a second emitting portion which is bent at the end of the first emitting portion and emits light of the light source toward the front of the display panel. According to claim 2, The light source It is installed on the side of the display panel to emit light toward the outside of the side of the display panel, The first emission portion extends to a portion facing the light source, and a light-emitting display device emitting light emitted from the light source is directly incident through the first emission portion and emits light. According to claim 2, The light source It is installed on the side of the display panel to emit light toward the outside of the side of the display panel, The light transmitting member extends to the side surface of the light source so that light emitted from the light source is incident through the side surface of the light source, and includes an incidence protrusion that provides incident light to the first and second output parts. Emissive display device. According to claim 2, The light source It is installed on the inner surface of the back cover to emit light from the back cover toward the finishing panel, The light transmitting member extends to the side of the light source so that the light emitted from the light source is incident through the side surface of the light source, and includes an incidence protrusion that provides the incident light to the first and second emission parts. Emissive display device. According to claim 2, It is formed on the finishing panel and includes a masking unit that covers a portion outside the boundary of the image display area on the display panel with a predetermined width, An end portion of the second exit portion is located at the edge of the finishing panel so that the width of the bezel is minimized and the width of the bezel is minimized by the light emitted from the second exit portion. A rim-emitting display device that extends to the edge. According to claim 2, The edge of the second emitting part extends from the edge of the finishing panel to the boundary of the image display area of the display panel so as to implement a zero bezel in which the bezel is not visually visible by the light emitted from the second emitting part. Display device. According to claim 2, When the display panel is viewed from the front, the first emission unit is formed to be inclined outwardly at an angle preset to the second emission unit so that the first emission unit and the second emission unit are visually visible together. Display device. According to claim 1, The finishing panel A border-emitting display device that is a touch panel including a touch sensor that receives a touch signal. Display panel for displaying game images, A light source that emits light at the edge of the display panel, The first region emitting light by the light source in front of the edge of the display panel, and the second region emitting light from the edge of the display panel at a luminance different from the luminance of the first region by the light source, A rim-emitting display device including a light-transmitting member provided to emit light. A display panel for displaying a game image, a light source emitting from the periphery of the display panel, a back cover in which the front side in which the display panel is accommodated is opened, a finishing panel disposed in front of the display panel to protect the display panel, and the A border-emitting display device including a light-transmitting member installed along an open rim of a back cover to seal between the back cover and the finishing panel and to receive light emitted by the light source to emit light, and A game device having a border-emitting display device including a game body in which the border-emitting display device is installed to perform a game. The method of claim 11, The light transmitting member A first emitting part receiving light emitted from the light source and emitting the light toward the outside of the side surface of the display panel, and A game machine having an edge-emitting display device which is bent at the end of the first emitting portion and includes a second emitting portion emitting light of the light source toward the front of the display panel. The method of claim 12, The light source It is installed on the side of the display panel to emit light toward the outside of the side of the display panel, The first exit portion extends to a portion facing the light source, and a game machine having an edge-emitting display device that emits light emitted from the light source directly through the first exit portion and emits light. The method of claim 12, The light source It is installed on the side of the display panel to emit light toward the outside of the side of the display panel, The light transmitting member extends to the side surface of the light source so that light emitted from the light source is incident through the side surface of the light source, and includes an incidence protrusion that provides incident light to the first and second output parts. Game machine with a light-emitting display device. The method of claim 12, The light source It is installed on the inner surface of the back cover to emit light from the back cover toward the finishing panel, The light transmitting member extends to the side of the light source so that the light emitted from the light source is incident through the side surface of the light source, and includes an incidence protrusion that provides the incident light to the first and second emission parts. Game machine with a light-emitting display device. The method of claim 12, It is formed on the finishing panel and includes a masking unit that covers a portion outside the boundary of the image display area on the display panel with a predetermined width, The end portion of the second exit portion extends from the finishing panel to the portion where the masking portion is located so as to realize a narrow bezel in which the width of the bezel is minimized by covering a part of the masking portion by light emitted from the second exit portion. A game machine having an edge-emitting display device formed. The method of claim 12, The edge emitting type display device is formed such that the end of the second emitting part extends from the finishing panel to the boundary of the image display area of the display panel so as to implement a zero bezel in which the bezel is not visually visible by the light emitted from the second emitting part. Game machine equipped with. The method of claim 12, When the display panel is viewed from the front, the first emission unit is formed to be inclined outwardly at an angle preset to the second emission unit so that the first emission unit and the second emission unit are visually visible together. A game machine with a display device. The method of claim 11, The finishing panel A game machine having a border-emitting display device that is a touch panel that includes a touch sensor that receives a touch signal.

Images