TWM412314U - Assembly light unit and light bar and notebook computer therewith - Google Patents

Abstract

An assembly light unit for a light bar includes a first substrate, a first protruding structure disposed on a lateral surface of the first substrate, a first sunken structure disposed on the other lateral surface of the first substrate different to the lateral surface, a plurality of first conductive layers formed on lateral surfaces of the first protruding structure and the first sunken structure, at least one first light source disposed on the first substrate, and a first circuit structure electrically contacting the first light source and the plurality of first conductive layers. The first protruding structure is engaged with a sunken structure of the adjacent assembly light unit, the first sunken structure is engaged with a protruding structure of the adjacent assembly light unit, and the first circuit structure is for transmitting signals between the first light source and the plurality of first conductive layers.

Description

M412314 V. New description: [New technical field] This creation provides a light bar composed of light-emitting units, especially an assembled light-emitting unit and a light bar composed thereof. [Prior Art] A conventional light bar is provided with a plurality of light sources, such as light-emitting diodes, on a circuit board, and electrically electrically turns on the plurality of light sources by a circuit structure to serve as a light-emitting device of the backlight module. However, as the market trend changes, the size of the backlight module is getting larger and larger, the size of the traditional light bar is not enough for the market, and the manufacturing size of the light bar is limited due to processing limitations. In addition, if any of the plurality of light sources of the conventional light bar is damaged, the entire traditional light bar cannot be repaired and scrapped, thereby greatly increasing the production cost. Therefore, how to design a light bar that can replace the light source on the circuit board and change the overall length according to requirements is one of the key development goals. [New content] This creation provides an assembled light-emitting unit and its constituent light bars to solve the above problems. The patent application scope of the present invention discloses an assembled light-emitting unit for assembling a light bar, which comprises a first circuit board and a first protruding node M412314, which are disposed on one side of the first circuit board. a first recessed structure, the second T: the different sides of the side of the board, the plurality of first conductive layers formed on the first convex music side surface, at least the structure and the first recessed structure η ^ The first source is disposed on the first circuit board, and a first circuit structure, and the 1 series electric board is used to guide the thunder. Fang flute, material binder-light source and the plurality of first-= electrical layers, the first-convex structure is used to engage the protruding unit of the light unit, Γ::: snap to adjacent assembly source The circuit structure is used to transmit electrical signals between the first light and the plurality of first conductive layers. The circuit structure includes the claimed patent scope and the first signal is disclosed. a transmission line and a grounding wire. The two convex materials further disclose that the first protruding structure comprises=eight: the structure comprises two grooves, and the plurality of first guiding guides are “knife in the corresponding convex and concave The side surface of the groove. The invention is also disclosed in the patent application. The first circuit board is also disclosed in the patent application. It is further disclosed that the first recess is fitted into the first recessed structure. Out,,,. The structure of the patent can also be disclosed as a cylindrical bump, a prismatic bump or a pyramidal bump. " The scope of the patent application of the present invention also discloses that the first recess is a cylindrical groove, a prismatic groove or a pyramidal groove. . The patent application scope of the edge diode is also disclosed. The first light source is a component of the patent application of the light-emitting unit. I: Specialized: - The seed is made up of a plurality of groups of skirts. The structure is set in the second =: the first: is disposed on the first circuit board phase - layer to: == M412314 on the first circuit board, and the __ first circuit structure, which is electrically connected The first light source and the plurality of first conductive layers are used to transmit electrical signals between the first light source and the plurality of first conductive layers. The second assembled light-emitting unit includes a second circuit board, and a second protruding structure, which is disposed on the H-second recessed structure of the second circuit board, and is disposed on the first circuit board. The other side of the side surface, the plurality of second conductive layers are formed on the side surfaces of the second protruding structure and the second recessed structure, and at least one second light source is disposed on the second circuit board And a first circuit, 纟. And electrically connected between the second light source and the plurality of second conductive layers. The second protruding structure and the second recessed structure are respectively used to engage the first recessed structure or the first protruding structure of the first assembled light emitting unit. The plurality of second conductive layers are used to When the second protruding structure and the first concave structure are respectively engaged with the first concave structure or the first protruding structure, the plurality of [conductive layers are electrically connected, and the second circuit junction (4) is used An electrical signal is transmitted between the second light source and the plurality of second conductive layers. A created light strip is formed by a plurality of assembled light-emitting units of the same structure and function, and each of the assembled light-emitting units includes at least one light source. The user can arbitrarily lap the appropriate number of assembled light-emitting units according to the different size requirements of the client, and synthesize the corresponding length and shape of the light bar, and further facilitate the user to selectively replace the assembly in the light bar. The pattern glows 7L early. Therefore, the (four) type light-emitting unit of the present invention and the light bar composed of a plurality of assembled light-emitting units have the advantages of easy assembly and cost saving. 7 M412314 [Embodiment] Referring to FIG. 1 and FIG. 2, FIG. 1 is a schematic view showing the explosion of components of the light bar 10 of the present embodiment, and FIG. 2 is a light bar of the present embodiment and 1〇 ( The appearance of the 4!^. The light bar 10 can be composed of a plurality of assembled light-emitting units, and the light bar 10 can be applied to a side-in backlight module or a direct-lit backlight module. The light bar 10 is composed of a first assembled type, and the unit 12, a second assembled light-emitting unit 14 and other assembled light-emitting units are engaged with each other to form a structure and function of the first assembled light-emitting unit 12. The structure and function of the second assembled light-emitting unit 14 are substantially the same. Therefore, the light bar 10 can be combined with a corresponding number of assembled light-emitting units according to user requirements, so that the length of the light bar 1 can be extended to any desired design requirements. Please refer to FIG. 3 , which is a schematic diagram of the first assembled light-emitting unit 12 according to the present embodiment. The first assembled light-emitting unit ρ includes a first circuit board 16 and a first protruding structure 18 . The system is disposed on the first circuit board 1 6 a side surface, a first recess structure 20, which is disposed on the other side of the first circuit board 16 different from the side surface, and a plurality of first conductive layers 22 respectively formed on the first protruding structure 18 and The side surface of the first recess structure 20, at least one first light source 24 is disposed on the first circuit board 16, and the first circuit structure 26. The first circuit structure 26 is selectively formed on the first circuit board The surface of the 16 is embedded in the first circuit board 16. In this embodiment, the first M412314 circuit structure 26 is embedded in the first circuit board 16. The first circuit structure 26 is electrically connected to the first light source 24 and the plurality The first conductive layer 22 is configured to transmit electrical signals between the light source 24 and the plurality of first conductive layers 22. As shown in FIG. 3, the first circuit structure 26 may include a signal line plus and a ground line. 263, the first protruding structure 18 can include two convex blocks. The first recessed structure 20 can include two recesses, and the plurality of first conductive layers 22 can be respectively formed on the corresponding bumps and recesses. The side table is self-contained, and the signal spring transmission line 261 and the ground line 2 are connected to each other. When the first assembled light-emitting unit 12 is coupled to the adjacent assembled light-emitting unit, the signal transmission line 261 and the adjacent assembled light-emitting unit can transmit electrical signals to each other, and the ground line 263 The first protruding structure 18 and the first recessed structure 2 can be provided as the first structural light-emitting unit 12 and the other assembled light-emitting unit. The assembled light-emitting unit 12 and the other assembled light-emitting units transmit the electrical signal to each other. In addition, the first circuit board 16 can be a metal core printed circuit board (Metal Core PCB) and the first light source 24 can be It is a light-emitting diode (LED). Since the light bar 10 is composed of a plurality of assembled light-emitting units having the same structure and function, the shape of the first protruding structure 18 can correspond to the shape of the first concave structure 20, that is, the first convex The protruding structure 18 can be tightly fitted into the first recessed structure 20, so that the first assembled light emitting unit u 9 M412314 can be hunted by the first protruding structure 18 and the first recessed structure 2〇 and adjacently assembled with the same structure The light-emitting unit is joined, and (4) the light-emitting strip 1 (), the shape of the first-protrusion structure 18 may be a cylindrical bump, a corner-column bump or a pyramid-shaped bump 'and the first-recessed structure 2G The shape can be a corresponding cylindrical groove, a corner cylindrical groove or a pyramid shaped groove. Please refer to Fig. 4'. Fig. 4 is a schematic view showing the second assembly type of the first embodiment of the present invention. The second assembled light-emitting unit U includes a second circuit board 28, a second protruding structure 30, which is disposed on the side of the first circuit board 28, and a second recessed structure 1 is provided = two circuit boards 28 Different from the other side of the side. The second protruding junction (4) ^: the recessed structure is divided into the structure 2G or the first protruding structure 18 of the first assembled light emitting unit ^, so that the second assembled type: =: 4 can be combined with the second The mounted light-emitting units 12 are joined to form a light bar', and the light-emitting single-tau 14 further includes a plurality of second conductive layers 34 respectively formed on the second side surface, at least - first, second, and second: The mouth structure 30 and the second recess structure 32 and m6 are disposed on the second circuit board 28, and the first circuit structure 38. The second circuit structure 38 is selectively immersed in the surface of the circuit board 28 or embedded in the second circuit board 28. In this example, the plurality of second conductive layers 34, = structure 32 and the first recess structure 2, respectively . Or, when the first output is engaged, the second light source 36H is electrically connected to the plurality of first conductive layers=18, and the first circuit structure 38 is turned on, and the plurality of second conductive layers 34 are used for the second M412314 light source 36. The electrical signal is transmitted between the plurality of second conductive layers, and the components of the assembled light-emitting unit 14 have the same structure and function; the components of the group «the core 2 are enchanted, so For details, in this embodiment, the user can select an appropriate number of assembled light-emitting units according to requirements, and the protruding structures and the recessed structures of the assembled light-emitting units are mutually engaged, and (4) the required length is required. Light bar 1G. In addition, since the light bar 10 is composed of a plurality of group I type light emitting units (such as the first assembled light emitting unit 12 and the first, 'and mounted light emitting unit 14), the adjacent assembled light emitting unit will be A gap is formed and the gap can help the light strip 1 () to dissipate the heat generated by the first light source 24 and the second light source 36. It is worth mentioning that the light strips can be combined into corresponding lengths and shapes according to design requirements. For example, as shown in Fig. 5, Fig. 5 is a schematic view showing the appearance of a light bar 50 according to another embodiment of the present invention. The light bar 50 includes a first assembled light emitting unit 52 and a second assembled light emitting unit 54. The first circuit board 521 and the second circuit board 541 of the first assembled light-emitting unit 52 and the second assembled light-emitting unit 54 are respectively a polygonal structure, such as the hexagonal structure shown in FIG. Therefore, the user can combine the assembled light-emitting units with different shapes of circuit boards into the light bars 50 of various shapes and sizes, and when the assembled light-emitting units assemble a large-area light-emitting board, they can be used as a direct-lit moonlight. The planar light source of the module. The components and functions of the first assembled light-emitting unit 52 and the second assembled-type light-emitting unit 54 are the same as those of the foregoing embodiments (11th M412314 1 to 4). No longer detailed. In general, the light bar 1 〇 (or the light bar 50) can be applied to a backlight module of a notebook computer 70. Please refer to FIG. 6. FIG. 6 is a schematic diagram of the notebook computer 70 of the present embodiment. The notebook computer 70 can include a host 72 and a screen 74 for displaying information of the host 72. The screen 74 can include a panel module 76, a light guide plate 78 and a light bar 1 (or light bar 50). The panel module 76 can include a reflector for reflecting the leaked light back to the light guide plate 78, a diffuser plate for providing a uniform surface light source, and a brightness enhancement film for correcting the direction of the light to improve the brightness. And a polarizing conversion film, which is used to perform the conversion of the light polarization state. The light guide plate 78 is used to guide the light emitted by the light bar 1 (or the light bar 50) to the panel module 76. The structure and function of the light bar 10 (or the light bar 50) are as described above, and therefore will not be described in detail herein. Compared with the prior art, the light strip of the present invention is formed by a plurality of assembled light-emitting units of the same structure and function, and each assembled light-emitting unit comprises at least one light source. The user can arbitrarily lap the appropriate number of assembled light-emitting units according to the different size requirements of the client to combine the light bars of corresponding length and shape. In addition to being able to join a light strip of any length and shape by a plurality of assembled light-emitting units, the present invention can also facilitate the user to selectively replace the assembled light-emitting unit in the light strip. For example, when a light source (or other component) in the light bar fails or is damaged, the user can remove the assembled light-emitting unit including the damaged light source for replacement, so the 12 M412314 button illumination of the present creation The unit and the combination of a plurality of assembled-type 'light units' or the light bar have the advantages of easy assembly and saving production cost. The above-mentioned fans are only the dance examples of this creation. All the changes and (4) that are made according to the scope of this creation should belong to the scope of this creation: [Simple description of the diagram] The diagram is a schematic diagram of the explosion of the components of the light bar of the present embodiment. Fig. 2 is a schematic view showing the appearance of a light bar of the present embodiment. = Figure is a schematic diagram of the first assembled light unit of the present embodiment. The figure is a schematic view of the second assembled light-emitting unit of the present embodiment. The fifth figure of the month is a schematic diagram of a notebook computer which is a schematic diagram of the appearance of the light bar of the embodiment of the present invention. 〇

[Main component symbol description] 10 light bar 14 second assembled light emitting unit 18 first protruding structure 22 first conductive layer 26 first circuit structure 12 first assembled light emitting X3V - early TG 16 first circuit board 20 first Recessed structure 24 First light source 261 Signal transmission line. 13 M412314 263 Ground line 30 Second protruding structure 34 Second conductive layer 38 Second circuit structure. 52 First assembled type 〇0 Early 兀54 Second assembled type luminescence - Early兀70 Notebook 74 Screen 78 Light guide plate 28 Second circuit board 32 Second recess structure 36 Second light source 50 Light strip 521 First circuit board 541 Second circuit board 72 Main unit 76 Panel module

Claims (1)

M412314 VI. Patent Application Range 1. An assembled light-emitting unit for combining light bars, comprising: a first circuit board; a first protruding structure, which is disposed on the first circuit One side of the plate, the first protruding structure is used for engaging a recessed structure of the adjacent assembled light-emitting unit; In another aspect, the first recessed structure is configured to be engaged with a protruding structure of one of the adjacent assembled light-emitting units; a side surface of a recessed structure; The assembled lighting unit of claim 1, wherein the first circuit structure comprises a signal transmission line and a ground line. A plurality of first conductive layers are respectively formed in the phase k亢 7L, wherein the first recessed structure comprises two s with two grooves, and the corresponding surface of the corresponding bump and the groove 5 W12314 side surface The group I type illuminating unit described in 1 is a polygonal structure. And the (4)-type light-emitting unit described in the first circuit board, wherein: -::: corresponds to the first recessed structure ‘ = the protruding structure can be fitted into the first recessed structure. The m-type light-emitting unit of the first month of claim 5, wherein the shape of the structure is a cylindrical bump and a corner-column bump 7. As claimed in claim 6, the shape of the material is The shape is a rounded groove, a corner-shaped groove or a corner knot 8. 9· ^ The county-type lighting unit described in Item 1, wherein the first circuit is formed in the material-- A light bar consisting of a plurality of assembled light-emitting units, comprising: 16 a group t-type light-emitting unit, comprising: a first circuit board; the output structure is disposed on the first circuit a first recessed structure, the recessed structure is disposed on the other side of the first circuit board different from the side surface; the plurality of first conductive layers are engaged in the first protruding structure and the first recessed structure a side surface; a first light source disposed on the first circuit board; and a circuit structure electrically connecting the first light source and the plurality: the first conductive layer, the first circuit structure is used for Transmitting an electrical signal between the first light source and the plurality of first conductive layers; and the second assembled light emitting unit The method includes: a second circuit board; a second protruding structure, the surface is disposed on one side of the second circuit board: the second circuit board is disposed on the opposite side of the second circuit board And the second recess=冓: respectively for engaging the first assembled light-emitting singular plural::: recessed structure or the first protruding structure; a plurality of second conductive layers formed on the first 17 M412314 the side surface of the second recessed structure, the plurality of second conductive layers are used for the second protruding structure and the second recessed structure _ the first recessed structure or the first protruding structure card Electrically conducting with the plurality of first conductive layers; at least one second light source disposed on the second circuit board; and - a second circuit structure electrically connecting the second light source and the plurality of second The second circuit structure is configured to transmit an electrical signal between the second light source and the plurality of second conductive layers. The light strip of claim 10, wherein the first signal transmission line With a grounding wire. ',, port structure 匕3 has 12. a light strip 'where the first protruding structure includes=' the first recessed structure includes two recesses, and the plurality of first conductive layers are divided into side surfaces of the corresponding bumps and recesses 13. The light bar of claim 10, wherein the first circuit board is -', corresponding to the shape of the first recessed structure, 14. The light strip as claimed in claim 10, The first protruding structure 18 is shaped such that the first protruding node 18 M412314 can be fitted into the first recessed structure. 15. The light bar of claim 14, wherein the first protruding The shape of the structure is a cylindrical bump, a prismatic bump or a pyramidal bump. 16. The light strip of claim 15, wherein the shape of the first recessed structure is a cylindrical recess, a corner cylinder Groove or pyramidal groove. 17. The light strip of claim 10, wherein the first light source is a light emitting diode. 18. The light strip of claim 10, wherein the first circuit structure is formed on a surface of the first circuit board or embedded in the first circuit board. 19. A notebook computer using a light bar composed of a plurality of assembled light-emitting units, comprising: a ® - a host; and a screen electrically connected to the host, the screen being used to display the host Information, the screen comprises: a panel module; a light strip for emitting light, the strip includes:, a first assembled lighting unit comprising: • a first circuit board; a first protruding structure disposed on one side of the first circuit board; a first recessed structure disposed on the other side of the first circuit board different from the side; the plurality of first conductive layers Formed on the side surface of the first protruding structure and the first recessed structure; at least a first light source disposed on the first circuit board; and a first circuit structure electrically connected to the first circuit structure a first light source and the plurality of first conductive layers, wherein the first circuit structure is configured to transmit electrical signals between the first light source and the plurality of first conductive layers; and an assembled light emitting unit includes Have: a second protruding structure, which is disposed on one side of the second circuit board; a second recessed structure disposed on the other side of the second circuit board different from the side, the first The second protruding structure and the second recessed structure are respectively engaged with the first, concave structure or the first protruding structure of the first assembled light emitting unit; feeding a plurality of second conductive layers, which are formed On the side surfaces of the second protruding structure and the second recessed structure, M412314, the plurality of second conductive layers are used for the second f-out structure and the second recessed structure, respectively, and the S-recessed structure or the first - the protruding structure is electrically connected to the plurality of first conductive layers; at least one second light source is disposed on the second circuit board; and the first circuit structure is electrically connected to the second light source Between the plurality of second conductive layers, the second circuit structure is configured to transmit electrical signals between the second light source and the plurality of second conductive layers; and a light guide plate is used to emit the light strips The light material is introduced to the cup mold. 20. The notebook computer of claim 19, wherein the first circuit structure comprises a signal transmission line and a ground line. The notebook computer of claim 19, wherein the first protrusion comprises two protrusions, the first recess structure comprises two grooves, and the first conductive layer is formed in the phase Corresponding to the bump and the concave side, wherein the first circuit board is as described in claim 19, the notebook computer 21 M412314 is a polygonal structure. 23. The notebook computer according to claim 19, and the shape is Corresponding to the first recessed structure: the = convex structure can be fitted to the first recessed structure, so that the first 2* is described as a penis brain, wherein the first protruding structure is Cylindrical bumps, corner post bumps or pyramidal bumps. 2 5 j. The notebook computer of claim 24, wherein the shape of t is a cylindrical groove, a vein groove or an angle _= structure. The notebook computer according to claim 19, wherein the first The circuit is formed on the surface of the first circuit board or embedded in the first circuit board.