JP3203967U - Display device - Google Patents

Abstract

A display device including a light source unit that can be used for a display panel with various display contents and that can be easily manufactured at low cost. A display device includes a pedestal substrate 3 in which a plurality of through holes 5 are arranged in a matrix, and a plurality of light emitting element modules 4 that are detachably attached to the through holes 5 of the pedestal substrate 3. 2 and the display panel 1 disposed to face the surface of the base substrate 3 on which the light emitting element module 4 is attached. [Selection] Figure 1

Description

  The present invention relates to a display device.

  In a display device that constitutes a display unit such as an electronic device, in order to obtain good display quality, light is incident on the display panel that displays symbols, characters, etc. from the back side to improve visibility and production effect. There is something to plan. As a light source for irradiating the display panel with light from the back side, a cold cathode tube has been mainly used in the past. However, in recent years, a light emitting diode (LED) with high space efficiency and low power consumption is often used. Since normal LEDs are line light sources or point light sources, it is difficult to uniformly brighten the entire display panel. Therefore, as in Patent Document 1, it is attempted to make the entire display panel uniform brightness by making light incident on the display panel via a light guide plate or a multilayer optical film.

JP 2011-90020 A

  If a light guide plate or multilayer optical film having the same size as the display panel is arranged between the display panel and the light source, the entire display device becomes expensive. It is difficult to achieve uniform brightness of the entire display panel without using a large light guide plate or multilayer film that causes an increase in cost.

  In addition, in order to improve the visibility and effects of the display on the display panel, not only the entire display panel is made to have uniform brightness, but also a bright place and a dark place are generated according to the display content of the display panel. Can be considered. However, the light source unit in which the LEDs are arranged so that the brightness varies depending on the display contents of the display panel cannot be diverted to the light source units of display panels having different display contents. That is, there is no light source unit that is generally used for display panels with various display contents, and it is necessary to manufacture a light source unit in a custom-made manner according to the display contents. Therefore, the manufacturing cost becomes very high especially when manufacturing various types of display devices.

  SUMMARY OF THE INVENTION An object of the present invention is to provide a display device that includes a light source unit that can be used universally for display panels with various display contents and can be easily manufactured at low cost.

  The display device of this connection includes a light source unit including a pedestal substrate having a plurality of through holes arranged in a matrix, and a plurality of light emitting element modules that are detachably attached to the through holes of the pedestal substrate, and light emission of the pedestal substrate. And a display panel arranged to face the surface on which the element module is attached.

  ADVANTAGE OF THE INVENTION According to this invention, the display apparatus which contains the light source unit which can be used universally with respect to the display panel of various display contents, and can be manufactured easily at low cost can be provided.

It is a partially exploded perspective view which shows the display apparatus of this invention. It is a perspective view of the base board of the light source unit of the display apparatus shown in FIG. (A) is a perspective view of the light emitting element module of the light source unit of the display apparatus shown in FIG. 1, (b) is the disassembled perspective view. It is a perspective view of the fixing | fixed part of the light emitting element module shown in FIG. (A) is a perspective view of the light emitting element substrate of the light emitting element module shown in FIG. 3, (b) is the circuit diagram. (A) is a perspective view of the light emitting element chip | tip of the light emitting element module shown in FIG. 3, (b) is the circuit diagram. (A) is explanatory drawing which shows typically the principal part of the light source unit by which the light emitting element module is arrange | positioned according to the display content of a display panel, (b) is a principal part of the light source unit which illuminates a display panel equally. It is explanatory drawing shown typically. (A) is a perspective view of the light source unit of the display apparatus shown in FIG. 1, (b) is the circuit diagram.

Hereinafter, specific embodiments of the present invention will be described. However, the present invention is not limited to the following embodiments.
The display device of the present invention shown in FIG. 1 mainly has a configuration in which a display panel 1 and a light source unit 2 are laminated. The display panel 1 is made of a plate material made of light-transmitting glass, resin, or the like, on which a design or characters are printed with ink or the like. The light source unit 2 mainly includes a pedestal substrate 3 and a plurality of light emitting element modules 4 attached to one surface of the pedestal substrate 3. The display panel 1 is arranged so as to face the surface of the base substrate 3 on which the light emitting element module 4 is attached. The light source unit 2 is connected to a power source 14 via a base board external wiring 13.

  A detailed configuration of the light source unit 2 of the display device will be described. As shown in FIG. 2, a plurality of through holes (through holes) 5 are regularly arranged in a matrix at equal intervals in the vertical direction and the horizontal direction in the base substrate 3. The diameter is 0.5 mm to 10.0 mm. The pedestal substrate 3 having the through holes 5 is formed by injection molding of a heat-resistant thermoplastic resin, for example, a heat-resistant ABS resin.

  As shown in FIG. 3, the light emitting element module 4 attached to the base substrate 3 includes a fixing portion 6 fixed to the base substrate 3, a light emitting element substrate 7 and a diffusion lens 8 attached to the fixing portion 6. including. As shown in FIG. 4, the fixing portion 6 is formed by injection molding of a heat-resistant thermoplastic resin, for example, polyetherimide (PEI), and a slide guide 6 a for mounting the light emitting element substrate 7 and the diffusing lens 8. And a positioning projection 6b and a convex portion (boss) 6c that can be press-fitted into the through hole 5 of the base substrate 3. The slide guide 6a is provided on both sides of the fixed portion 6 to form a housing portion, and the height dimension is substantially equal to the sum of the thickness of the light emitting element substrate 7 and the thickness of the diffusion lens 8 or It has a slightly larger groove. The light-emitting element substrate 7 of the present embodiment shown in FIG. 5 is made of, for example, a plate material made of FR-4 or the like (a plate-like material obtained by dipping an epoxy resin in a glass fiber cloth and subjecting it to thermosetting treatment) One or a plurality (two in this embodiment) of light emitting element chips 9 are mounted on a printed circuit board on which a circuit pattern is formed with foil or the like, and connection terminals (anode terminals and cathode terminals) 10 extend. It is. However, in the case where a reduction in cost is required by allowing a slight decrease in heat resistance, electrical characteristics, etc. when the light emitting element chip 9 is mounted, a plate material made of FR-3 (oil or fat is included in the paper base material) A printed circuit board in which a circuit pattern is formed with copper foil or the like may be used in a plate-like material in which a phenol resin is soaked and thermoset.

  The light emitting element chip 9 of the present embodiment shown in FIG. 6 is two light emitting elements, for example, 3030 series STW9C2SA (trade name) manufactured by Seoul Semicon including two light emitting diodes (LEDs) 9a.

The diffusion lens 8 has a transmittance of 85% or more, and a lens having a desired diffusion angle and diffusion range, which will be described later, is used based on the following mathematical formula. In addition, each dimension described in the following formula | equation is shown by FIG.
Diffusion angle θ = √ {(Diffusion angle of LED 9a) ² + (Diffusion angle of diffusion lens 8) ² }
Diffusion range X = (distance L from diffusion lens 8 to display panel 1) × tan θ × 2

  As shown in FIG. 3, the light emitting element substrate 7 is slid along the groove-shaped portion of the slide guide 6 a of the fixed portion 6 and inserted into the accommodating portion of the fixed portion 6. The positioning protrusion 6b protrudes by a small amount to the extent that the insertion of the light emitting element substrate 7 is not hindered. The pair of connection terminals 10 of the light emitting element substrate 7 extends toward the outside of the fixed portion 6 on the rear end side in the insertion direction. After the light emitting element substrate 7 is inserted into the housing portion of the fixing portion 6 in this manner, the diffusion lens 8 is slid along the groove-shaped portion of the slide guide 6 a so as to overlap the light emitting element substrate 7. And inserted into the accommodating portion of the fixed portion 6. In this way, the light emitting element substrate 7 and the diffusing lens 8 superimposed thereon are mounted in the accommodating portion of the fixing portion 6. The light emitting element substrate 7 thus inserted is prevented from being unintentionally dropped or displaced by the positioning protrusion 6b. The two light emitting element chips 9 mounted on the light emitting element substrate 7 emit light, and the diffusion lens 8 diffuses the light.

  Many light emitting element modules 4 having the above-described configuration are prepared and attached to the base substrate 3 as shown in FIG. Specifically, each light emitting element module 4 is fixed to the base substrate 3 by press-fitting the boss 6 c of the fixing portion 6 into the through hole 5. However, when the boss 6c is not fixed simply by inserting it into the through hole 5, a snap ring (not shown) or the like is attached to the boss 6c that penetrates the through hole 5 on the back surface of the base substrate 3. The fixing part 6 can be firmly fixed to the base substrate 3.

  As an example, the mounting position of the light emitting element module 4 on the pedestal substrate 3 is determined according to the display contents (specific symbols and characters) of the display panel 1 superimposed on the pedestal substrate 3. That is, the light emitting element module 4 is attached at a position facing a place where it is desirable to brighten the display content of the display panel 1. However, the light emitting element module 4 cannot be attached at a position that deviates from the display content or a position that faces a place that is darkly displayed in the display content. In this way, the light emitting element module 4 is arranged only at an appropriate position in consideration of the display contents of the display panel 1 to emit light, thereby adding brightness to the display contents and increasing the illumination with a small number of light emitting element chips 9. An effect (production effect) is obtained. When the brightness of the display content is thus increased, as shown in FIG. 7A, the diffusion angle θ of the light emitting element module 4 is reduced (for example, 5 to 30 degrees), and the diffusion range X is By emitting narrow and strong light, the contrast between the bright part and the dark part is increased. In this configuration, a large light guide plate or the like facing the entire surface of the display panel 1 is unnecessary, and the cost can be kept low.

  The light emitting element module 4 of the present embodiment can be easily attached to and detached from the base substrate 3. Therefore, when the display panel 1 is exchanged or the display content is changed (when the symbols or characters displayed on the display panel 1 are changed), the light emitting element modules 4 are rearranged accordingly. Suitable lighting is easily realized. Of course, the number of light emitting element modules 4 attached to the base substrate 3 can be easily increased or decreased. Since the light emitting element module 4 is fixed by the through holes 5 regularly provided in a matrix in the base substrate 3, the light emitting element module 4 can be freely arranged at an arbitrary position on the base substrate 3. The degree of freedom is high. Therefore, the light emitting element module 4 can be freely arranged without being restricted by the display contents (designs and characters) of the display panel 1, and it is possible to realize illumination that emphasizes light and darkness appropriately for various display contents. Easy to do.

  As described above, in the present embodiment, the light-emitting element can be easily obtained by simply inserting and removing the convex portion such as the boss 6c into the through-hole 5 instead of fixing the fixed portion 6 to the base substrate 3 by welding or adhesion. The modules 4 can be rearranged and increased / decreased. Therefore, the light source unit 2 can be used widely and universally regardless of the display content of the display panel 1. Compared with the case where a light source unit having light emitting elements provided in a pattern suitable for each display panel 1 is newly manufactured in each case according to the display contents of the display panel 1, this embodiment has a very low cost. Thus, an appropriate display device can be manufactured efficiently. In addition, by attaching the small diffusing lens 8 to each light emitting element module 4, light can be efficiently emitted forward in a portion to be brightened. In addition, each light emitting element module 4 can be attached to the base substrate 3 of another display device as long as the size and arrangement of the through holes 5 are close to some extent. That is, the light emitting element module 4 can be used for various display devices in general, and the light emitting element module 4 used in one display device can be reused in another display device.

  With the configuration described above, it is possible to realize illumination with a high production effect by increasing the contrast of light and dark according to the display content of the display panel 1. However, the display device of the present invention can irradiate the entire display panel 1 with uniform light. In that case, as shown in FIG. 7B, the light emitting element module 4 has a large diffusion angle θ (for example, 50 to 80 degrees), and emits light having a wide diffusion range X, thereby causing adjacent light emission. The light can also reach the boundary portion A between the element modules 4 to make the boundary line inconspicuous, and the outline of the light emitting portion by the light emitting element module 4 can be made ambiguous. In this way, using the small diffusing lens 8 arranged in each light emitting element module 4, it is possible to realize illumination with uniform light at a low cost without using a large light guide plate or the like.

  An example of the electric circuit configuration of the light source unit 2 of the display device of the present invention will be described. In each light emitting element chip 9, as shown in FIG. 6, two LEDs 9a are connected in series between a pair of terminals (anode terminal 9c and cathode terminal 9d), and a Zener diode 9b is connected in parallel to these. Yes. The power consumption of the light emitting element chip 9 is about 0.6 W, and the color temperature that can be handled is 2850K to 7000K. The two light emitting element chips 9 are connected in series as shown in FIG. 5, and a current limiting circuit resistor 11 is disposed between the connection terminal (anode terminal) 10 and the two light emitting element chips 9. A circuit of the light emitting element substrate 7 is configured. A plurality of light emitting element modules 4 including the light emitting element substrate 7 having such a circuit is attached to the surface of the base substrate 3, and the connection terminals 10 of the respective light emitting element modules 4 are guided to the back surface through the through holes 5, They are connected to each other by wiring (base board wiring) 12 on the back surface. Accordingly, as shown in FIG. 8, a circuit in which the light emitting element substrate 7 is connected in parallel by the base substrate wiring 12 is configured, and the circuit is connected to the power source 14 via the base substrate external wiring 13. Thereby, each light emitting element module 4 can be lighted using the same electric signal, and uniform light can be emitted to the whole irradiation region. The pedestal board internal wiring 12 and the pedestal board external wiring 13 may be harnesses.

  In the example shown in FIGS. 5 to 8, the light emitting element chip 9 includes two LEDs 9 a, but one or three or more LEDs 9 a may be included. Moreover, light emitting elements other than LED9a may be included. Furthermore, in the example shown in FIGS. 5 to 8, two light emitting element chips 9 are mounted on the light emitting element substrate 7, but one or three or more light emitting element chips 9 may be mounted. . The electrical connection between the light emitting element chips 9 may be in series or parallel, or a combination of series and parallel. In this way, by changing the quantity of the light emitting element chips 9 of the light emitting element modules 4 and implementing the electrical connection by the base board wirings 12 of each light emitting element module 4 in combination of series and parallel, display It is also possible to improve the visibility of the display content of the panel 1 and enhance the production effect. Furthermore, not all the light emitting element modules 4 are turned on at the same time, but in order to improve the production effect, individual electric signals are transmitted to the respective light emitting element modules 4 to turn on and off the light emitting element modules 4. Control may be performed so that the time is shifted.

  As described above, in the conventional display device, in order to perform illumination according to the display contents (designs and characters) of the display panel 1, a dedicated light source unit for the display panel 1 is produced in a custom-made manner. High cost and long manufacturing time. On the other hand, in the display device of the present invention, the light source unit 2 can be used and reused by changing or increasing / decreasing the position of the light emitting element module without being restricted by the display contents (designs and characters) of the display panel 1. Therefore, a display device can be obtained quickly, easily, and at low cost. Moreover, since the light source unit 2 can be diverted or reused for other display devices, the possibility of being discarded as an unnecessary product after use of the display device is small, and the environmental load can be reduced.

  In addition, the light emitting element module 4 of the display device of the present invention has a light emitting element substrate 7 incorporating a plurality of LED 9 circuits, and has high light transmittance, and can efficiently emit forward light while multiply scattering incident light. And a diffusing lens 8 that can be used. If a diffusion lens 8 with an appropriate diffusion angle θ and diffusion range X is used, uniform illumination light can be obtained from the entire exit surface, and the boundary line between adjacent light emitting element modules 4 is made inconspicuous. Can do. Further, the light emitting element substrate 7 can be changed according to the intensity of light and the color temperature.

  In the display device of the present invention, the base board wiring 12 or the harness connecting the plurality of light emitting element modules 4 can be fixed on the back surface of the base board 3 through the through hole 5 of the base board 3. Further, the base board wiring 12 or the harness can be fixed on the surface of the base board 3 by a fixing member (not shown) attached using the through holes 5. In any case, the electrical connection portion between the light emitting element substrate 7 and the base substrate wiring 12 of the light emitting element module 4 is held by the through hole 5 so as not to be displaced.

  As a method of adjusting the light intensity according to the display content of the display panel 1, a method of changing the light emitting element module 4 itself, a method of changing a circuit resistance for each light emitting element module 4, and each light emitting element module 4 A method of changing the connection form (series connection or parallel connection) can be selected. That is, the circuit board wiring 12 or the harness is connected in parallel or in series while the circuit resistance is adjusted according to the intensity of light suitable for the display content (symbols and characters) of the display panel 1. By combining these methods, it is possible to obtain effects such as further improving the visibility of the display content of the display panel 1 and enhancing the production effect. The pedestal board wiring 12 or the harness can be connected to a connector or the like attached to the pedestal board 3 in advance. Alternatively, by placing a printed circuit board or the like in which an electronic circuit has been incorporated in advance under the pedestal board 3, the pedestal board wiring 12 or the harness can be simplified.

  The display device of the present invention can be used for a device that displays display contents (symbols and characters) of various known display panels 1, such as a display unit of a game device and a display device such as a guide board.

  While the preferred embodiments of the present invention have been disclosed above, they are in no way intended to limit the invention. The scope of rights of the present invention is determined by the scope of claims for utility model registration, and various changes and modifications may be made to the embodiments described herein without departing from the description of the scope of claims for utility model registration. And within the scope of the present invention.

DESCRIPTION OF SYMBOLS 1 Display panel 2 Light source unit 3 Base board 4 Light emitting element module 5 Through-hole (through hole)
6 Fixed portion 6a Slide guide 6b Positioning projection 6c Convex portion (boss)
7 Light-Emitting Element Substrate 8 Diffuse Lens 9 Light-Emitting Element Chip 9a Light-Emitting Element (Light-Emitting Diode, LED)
9b Zener diode 9c Anode terminal 9d Cathode terminal 10 Connection terminal 11 Circuit resistance 12 Wiring (base board wiring 12)
13 Base board wiring 14 Power supply

Claims (8)

A light source unit including a pedestal substrate in which a plurality of through holes are arranged in a matrix, and a plurality of light emitting element modules that are detachably attached to the through holes of the pedestal substrate;
A display panel disposed opposite to a surface of the base substrate on which the light emitting element module is mounted.   The display device according to claim 1, wherein the base substrate is made of a heat-resistant thermoplastic resin.   The through hole has a diameter of 0.5 mm to 10.0 mm, and the light emitting element module is provided with a convex portion. The convex portion is inserted into the through hole so that the light emitting element module is attached to the base substrate. The display device according to claim 1, wherein the display device is fixed.   The light emitting element module includes a fixing portion attached to the through hole of the base substrate, a light emitting element substrate having one or a plurality of light emitting elements and attached to the fixing portion, and the light emitting element. The display device according to claim 1, further comprising: a diffusion lens that is attached to the fixing portion and covers the light emitting element.   The display device according to claim 4, wherein the light emitting element is a light emitting diode.   The display device according to claim 1, wherein the plurality of light emitting element modules are arranged at positions corresponding to display contents of the display panel.   The display device according to claim 6, wherein the light emitting element modules are rearranged on the base substrate in accordance with replacement of the display panel or change of the display contents.   The display device according to claim 1, wherein an electrical connection portion between the light emitting element module and the wiring attached to the pedestal substrate is held by the through hole.

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