CN212846011U - Backlight module, anti-drop pre-assembly and vehicle-mounted display device thereof - Google Patents

Backlight module, anti-drop pre-assembly and vehicle-mounted display device thereof Download PDF

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Publication number
CN212846011U
CN212846011U CN202021871993.7U CN202021871993U CN212846011U CN 212846011 U CN212846011 U CN 212846011U CN 202021871993 U CN202021871993 U CN 202021871993U CN 212846011 U CN212846011 U CN 212846011U
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guide plate
light guide
light
groove
led lamp
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CN202021871993.7U
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张安福
王武
李燕
游仕兴
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Huizhou Longli Technology Development Co ltd
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Huizhou Longli Technology Development Co ltd
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Abstract

The utility model relates to a backlight module and anticreep is organized subassembly in advance thereof, anticreep is organized the subassembly in advance by light guide plate and LED lamp plate and is accomplished, and the light guide plate is provided with inlays the catching groove, and the periphery of inlaying the catching groove forms the fringe-in the example, the fringe is by light guide plate integrated into one piece. The LED lamp panel is embedded in the embedding and buckling groove of the light guide plate, the protective edge covers the lateral edge of the LED lamp panel, and the back of the LED lamp panel can be exposed out of the embedding and buckling groove. The utility model discloses basic technical scheme has the effect that prevents that the LED lamp plate from receiving vibrations friction influence the luminous light efficiency of light guide plate, and the concrete application occasion of an example is vehicle-mounted display device.

Description

Backlight module, anti-drop pre-assembly and vehicle-mounted display device thereof
Technical Field
The utility model relates to a backlight unit's technical field specifically can be applied to on-vehicle demonstration, vibrations adverse circumstances under or the products such as military project grade display, especially relates to a backlight unit and anticreep are organized subassembly, on-vehicle display device in advance thereof.
Background
The backlight module is used as a light source of the display screen, and the light guide plate and the LED lamp panel are respectively assembled and fixed in the backlight module. The light guide plate is the sidelight that sends the LED chip through reflection guide for the face light, generally adopts and is used for side income formula backlight unit, but some straight following formula backlight unit also can use the light guide plate, no matter that backlight unit, and light guide plate and LED lamp plate all install backlight unit's backplate or shell seat individually in the tradition, adopt spacing light guide plate of silica gel pad and backplate, and the silica gel pad has elasticity. When the vehicle-mounted display is used or applied to industries with a plurality of vibration occasions, the problem of backlight abnormity is found in an RA (color rendering index) experiment, and the analysis reason is that friction phenomenon is generated between the light guide plate and the LED lamp plate due to vibration displacement of relative motion of the light guide plate and the LED lamp plate, so that the light source cannot be uniformly emitted from the light emitting surface of the light guide plate. In severe cases, abnormal phenomena such as abrasion of the surface of the lamp strip and collision of the light guide plate with the lamp occur, so that backlight is not bright, and the lamp panel is prone to heating.
For example, patent application publication No. CN109870760A discloses a vehicle-mounted backlight module for improving fixation of a light guide plate, which includes a back plate, wherein the back plate is provided with a square assembly groove, the back plate is provided with a reflective sheet, and one side of the back plate is provided with a rubber frame for fixing and supporting. The abnormal sound gasket card prevents that the abnormal sound gasket from rocking in square assembly groove, fixes the light guide plate simultaneously.
The applicant discloses a backlight module and a liquid crystal display device in an invention patent application publication number CN110646975A, wherein the backlight module comprises an LED light source; the light guide plate is arranged on one side of the LED light source; and an optical film set. The optical film group comprises a diffusion film arranged above the light guide plate, a prism sheet arranged above the diffusion film, and a reflecting sheet arranged below the light guide plate. The LED light source comprises an LED chip main body and at least one retaining wall. The LED chip and the at least one retaining wall are integrally connected to form an accommodating space with an opening, the light guide plate is clamped in the accommodating space, and light emitted by the LED chip main body is transmitted to the light guide plate through the opening. The utility model discloses it is firm to realize that LED light source and light guide plate are connected, strengthens LED light source and flexible printed circuit board (FPC)'s joint strength simultaneously. The structure is to clip the light guide plate by retaining walls at two sides of the LED chip.
The applicant discloses in utility model patent grant publication No. CN204313125U a backlight module for improving the effect of a light guide plate lamp socket, including: the flexible printed circuit board comprises an iron frame (equivalent to a back plate), a light guide plate, a backlight source, a reflection sheet, an optical film group, a rubber frame and a flexible printed circuit board, wherein a flexible printed circuit board mounting groove is formed in the back face of the rubber frame, and the flexible printed circuit board is attached to the reflection face of the emission sheet or the iron frame through a flexible printed circuit board double-faced adhesive tape so as to be mounted in the flexible printed circuit board mounting groove. The backlight source (being equivalent to the LED lamp plate) is arranged in the iron frame and is arranged relative to the light guide plate, the backlight source comprises a PCB and a plurality of LED lamps welded on the PCB, and the PCB provides working power supply for the LED lamps.
The applicant discloses in utility model patent publication No. CN204314573U a backlight module, including: the backlight module comprises an iron frame (equivalent to a back plate), a light guide plate, a backlight source, a reflector plate, an optical diaphragm group, a rubber frame arranged in the iron frame and an annular light shielding film with rubber on one side, wherein a first accommodating groove is formed in the lower end of the rubber frame, the outer edge of the reflector plate is accommodated in the first accommodating groove, the annular light shielding film is attached to the lower surface of the outer edge of the reflector plate, and the lower surface of the annular light shielding film is abutted against the iron frame so as to achieve the light leakage prevention effect. The backlight module also comprises a backlight source (equivalent to an LED lamp panel) which is arranged in the iron frame and is opposite to the light guide plate.
Disclosure of Invention
The utility model discloses a main objective first provides a subassembly is organized in advance to backlight unit's anticreep, and the main progress lies in solving backlight unit in the LED lamp plate receives vibrations damage and LED lamp plate and light guide plate production vibrations deviation arouse the problem that changes at the light guide plate light efficiency. In addition, a backlight module using the anti-drop pre-assembly component is provided, and a vehicle-mounted display device comprising the backlight module is also provided.
The utility model discloses a main objective provides a guarantee method of LED light source at the luminous light efficiency of light guide plate under backlight unit vibrations, assembles the anticreep with the LED lamp plate in advance and organizes the subassembly in advance and realize, and the vibrations of light guide plate do not influence the relative position relation of light guide plate and LED lamp plate.
The utility model discloses a main objective can be realized through following technical scheme:
the utility model provides a subassembly is organized in advance in anticreep of backlight unit, includes: light guide plate and LED lamp plate. The LED lamp panel is arranged in the buckling groove of the light guide plate, the protective edge covers the lateral edge of the LED lamp panel, and the back surface of the LED lamp panel can be exposed or not exposed out of the buckling groove.
Through adopting above-mentioned technical scheme, utilize the knot groove of inlaying of light guide plate to inlay and bury the LED lamp plate and at the periphery formation curb of inlaying the knot groove, the curb coat LED lamp plate's lateral margin, the LED lamp plate need not be fixed in the backplate to the protection of taking precautions against earthquakes is carried out with the LED lamp plate to the pre-assembly mode, and the vibrations that have realized between light guide plate and the backplate can not cause the vibrations friction between LED lamp plate and the light guide plate yet. Therefore, compared with the traditional method that the LED lamp panel is fixed on the back plate of the backlight module, the shock-proof position relation can be formed by the light emitting surface of the LED lamp panel towards the light facing surface of the embedding groove, the positioning mechanism can also play the effect that the light facing surface of the light guide plate does not deflect at the side of the back plate to maintain a fixed gap, the XY axial direction of the light guide plate is the same as the XY axial direction of the back plate connected with the display screen, and the light emitting effect of the LED light source on the light guide plate is ensured under the shock.
The present invention may be further configured in a preferred example to: the light guide plate is also provided with a mesh point surface opposite to the light emitting surface, and the inlaying and buckling groove is positioned on one side edge of the light guide plate between the light emitting surface and the mesh point surface.
By adopting the preferable technical characteristics, the light guide plate side-in light-emitting effect on the light-emitting surface is realized by utilizing one side edge of the embedding groove between the light-emitting surface and the dot surface.
The present invention may be further configured in a preferred example to: the mesh point surface is provided with a positioning structure used for being assembled and positioned towards the back plate, when the side edge extends in the X direction, the positioning structure comprises an XY positioning point and a Y-direction groove limiting structure, and the XY positioning point and the Y-direction groove limiting structure are respectively positioned at two end corners of the light guide plate, which are adjacent to the embedded buckle groove.
By adopting the preferable technical characteristics, the XY positioning points and the Y-direction groove limiting structures are respectively positioned at the corners at two ends, close to the side edge, of the light guide plate, the corner at one end of the embedding and buckling groove is positioned in an XY mode, the corner at the other end of the embedding and buckling groove is limited in a Y direction, under the thermal expansion and contraction of the light guide plate, the same gap is maintained between the embedding and buckling groove for fixing the LED lamp panel and the adjacent side edge of the back plate, the LED lamp panel is kept in the X axial direction connected with the display screen through the back plate, and the technical effect that the XY axis of the light guide plate is maintained to be consistent with the XY axis of the display.
The present invention may be further configured in a preferred example to: the XY positioning point and the Y-direction groove limiting structure are respectively a positioning column and a limiting sliding column which are protruded from the mesh point surface, and the back plate is provided with a corresponding positioning hole and a Y-direction limiting sliding groove which extends in the X direction.
By adopting the preferable technical characteristics, the XY positioning points are formed by the positioning columns protruding from the mesh point surface and the positioning holes corresponding to the back plate, the Y-direction groove limiting structures are formed by the limiting sliding columns protruding from the mesh point surface and the Y-direction limiting sliding grooves corresponding to the back plate, the positioning columns and the limiting sliding columns can be integrally formed by the light guide plate, the manufacturing is convenient, the columns cannot be clamped in the light guide plate when being broken, and the positioning holes and the sliding grooves of the back plate are processed from the outside or the positioning columns and the guiding sliding columns are relatively easy to reconnect.
The present invention may be further configured in a preferred example to: the protective edge is formed by the light guide plate in an integrated mode, and a clamping groove is formed in the inner side of the protective edge.
Through adopting above-mentioned preferred technical characterstic, utilize the flange to be formed by light guide plate integrated into one piece and the flange inboard is formed with the draw-in groove, effectively protect the LED lamp plate not receive the bruise of backplate.
The present invention may be further configured in a preferred example to: the LED lamp panel comprises a printed circuit board, a plurality of LED chips mounted on the printed circuit board and light-transmitting silica gel for sealing the LED chips, the side edge of the printed circuit board is clamped in the clamping groove, so that a fixed gap is kept between the light-transmitting silica gel and the light-facing surface of the light guide plate, and specifically, the side edge of the LED lamp panel, which is coated by the protective edge, comprises a front side edge, a back side edge, an insertion base edge and two insertion side edges of the lamp panel.
Through adopting above-mentioned preferred technical characterstic, utilize the LED lamp plate to include printed circuit board (hardboard) and side clip, realize that printing opacity silica gel and the effect that the light-facing surface of light guide plate keeps fixed clearance, five sides of side by the clip are covered, as long as block, the grafting topside that glues or fix the side etc. can accomplish six fixed sides of side, the LED lamp plate can not receive the vibrations of light guide plate and deviate from.
The present invention may be further configured in a preferred example to: the LED lamp panel comprises a flexible circuit board, a plurality of LED chips mounted on the flexible circuit board and light-transmitting silica gel for sealing the LED chips, wherein the light-transmitting silica gel is tightly attached to the light-facing surface of the light guide plate, specifically, the light-facing surface is positioned on the groove side of the embedding and buckling groove facing the middle of the light guide plate, the other groove side of the embedding and buckling groove is hollow, and the notch of the embedding and buckling groove faces the mesh point surface.
By adopting the preferable technical characteristics, the LED lamp panel comprises a flexible circuit board (flexible board), so that the light-transmitting silica gel of the LED lamp panel is favorably attached to the light-facing surface of the light guide plate, or the light-facing surface is positioned on the groove side of the embedding and buckling groove facing the middle of the light guide plate, the other groove side of the embedding and buckling groove is hollow, and the notch of the embedding and buckling groove faces to the mesh point surface, so that the technical effect of limiting the LED lamp panel to be separated from the notch of the back plate closed embedding and buckling groove is achieved, the mesh point surface of the light guide plate can be attached to the back plate as far as possible, and the hollow groove.
The present invention may be further configured in a preferred example to: the light guide plate the coverage area on play plain noodles includes inlay catching groove and complete the LED lamp plate.
Through adopting above-mentioned preferred technical characterstic, the cover area who utilizes the play plain noodles is including inlaying catching groove and complete LED lamp plate, and the light emitting area can be greater than the net dot face, and there is the breach groove design on one side of net dot face, and the side of light emitting area does not have the design of breach groove, and the surface of light emitting area is complete, and the periphery of light emitting area can attach arbitrary shading pattern, conveniently plans luminous area again for eliminate the defect of side light leak.
The utility model discloses a main objective can realize through following technical scheme secondly:
a method for ensuring the luminous efficiency of an LED light source on a light guide plate under the vibration of a backlight module is provided, which comprises the following steps:
the anti-drop pre-assembly component is pre-assembled into the backlight module of any one of the technical schemes;
installing the anti-drop pre-assembly component and the back plate;
when the anticreep is organized the subassembly in advance with produce the vibrations deviation between the backplate, the LED lamp plate can be in step with the vibrations of light guide plate.
Through adopting above-mentioned technical scheme, utilize anticreep to organize subassembly in advance to make the LED lamp plate fixed in advance by inlaying bury in the light guide plate, the LED lamp plate need not establish only fixed relation with the backplate, and the light guide plate can not arouse the vibrations friction of LED lamp plate and light guide plate for the vibrations of backplate to guarantee under backlight unit vibrations that the LED light source is at the luminous light efficiency of light guide plate.
To sum up, the utility model discloses a following at least one kind makes the technological effect of contribution to prior art:
1. the vibration friction between the LED lamp panel and the light guide plate in the backlight module is avoided, and the specific application of the example is in the field of vehicle-mounted display;
2. the problems that the surface of an LED lamp panel is abraded, a light guide plate hits a lamp and the like under the severe vibration condition of terminal application are solved;
3. if the assembly interference amount is small, the Light Guide Plate (LGP) shrinks when the temperature is low, and further the movement space of the Light Guide Plate (LGP) is enlarged to cause displacement relative to the backboard and the LED lamp plate fixed on the backboard, so that the light emitting surface of the LED lamp plate cannot be aligned to the light receiving surface of the light guide plate, and the light emitting efficiency of the light guide plate is reduced; the utility model adopts the technical scheme that the LED light source can be ensured to emit light in the light guide plate under the vibration of the backlight module;
4. the hidden danger that the circuit substrate of LED lamp plate or hit the LED chip on the lamp plate has wearing and tearing when reducing light guide plate and backplate vibration has solved LED lamp plate and light guide plate among the traditional structure because of the fixed improper abnormality that leads to, can make backlight unit's optical effect more stable simultaneously.
Drawings
Fig. 1 is a schematic perspective exploded view of an anti-disengagement pre-assembly component and a back plate of a backlight module according to some preferred embodiments of the present invention;
FIG. 2 is a schematic bottom view of the anti-separation pre-assembly of some preferred embodiments of the present invention;
fig. 3 is a schematic view of the anti-separation pre-assembly of some preferred embodiments of the present invention, taken along the X-direction of fig. 2;
FIG. 4 is a schematic view of the anti-separation pre-assembly in the direction of the slot of the insert groove and a partially enlarged view of the protective edge according to some preferred embodiments of the present invention;
fig. 5 is a schematic side view of the anti-disengagement preassembly assembly along the X direction of fig. 2 according to some preferred embodiments of the present invention;
FIG. 6 is a schematic view of the anti-separation pre-assembly of some preferred embodiments of the present invention taken along the Y-direction of FIG. 2 from the middle of the insert groove;
FIG. 7 is a schematic view of the anti-separation pre-assembly of some preferred embodiments of the present invention taken along the Y-direction of FIG. 2 at the position of the protective edge;
FIG. 8 is a schematic view of the anti-separation pre-assembly in the direction of the slot of the inserting slot and a partially enlarged view of the protective edge according to another preferred embodiment of the present invention;
fig. 9 is a schematic flow chart illustrating a method for ensuring the luminous efficiency of the LED light source on the light guide plate under the vibration of the optical module according to another preferred embodiment of the present invention.
The LED lamp comprises a light guide plate 10, a light emitting surface 11, a light emitting surface 12, a dot surface 13, a protective edge 20, an LED lamp panel 21, a light emitting surface 22, a back surface 23, a printed circuit board 24, an LED chip 25, a flexible circuit board 26, a reflector plate 30, a back plate 31, a positioning hole 32, a Y-direction limiting sliding groove 40, a buckle groove 40, a light facing surface 41, a clamping groove 42, a positioning column 51, a positioning column 52 and a limiting sliding column.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments for understanding the inventive concept of the present invention, and do not represent all the embodiments, nor do they explain the only embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art on the premise of understanding the inventive concept of the present invention belong to the protection scope of the present invention.
It should be noted that if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture, and if the specific posture is changed, the directional indications are changed accordingly. In order to understand the technical solution of the present invention more conveniently, the following will the backlight module and the anti-dropping pre-assembling component thereof of the present invention will be described and explained in further detail, but not as the protection scope defined by the present invention.
The drawings illustrate only those portions of the embodiments that are common to the various embodiments, and the portions that differ or are distinct are described in text or presented in comparison to the drawings. Therefore, based on the industrial characteristics and technical essence, those skilled in the art should correctly and reasonably understand and judge whether the individual technical features or any combination of a plurality of the technical features described below can be characterized in the same embodiment or whether a plurality of technical features mutually exclusive can be respectively characterized in different variant embodiments.
Fig. 1 is a schematic perspective view illustrating an anti-separation pre-assembly and a back plate of a backlight module according to some preferred embodiments of the present invention, fig. 2 is a bottom surface of the anti-separation pre-assembly, fig. 3 is a schematic perspective view illustrating the anti-separation pre-assembly cut along the X direction of fig. 2, fig. 4 is a schematic perspective view illustrating the anti-separation pre-assembly and a protective edge partially enlarged in the direction of the notch of a button slot, fig. 5 is a schematic perspective view illustrating the anti-separation pre-assembly viewed along the X direction of fig. 2, fig. 6 is a schematic perspective view illustrating the anti-separation pre-assembly cut along the Y direction of fig. 2 from the middle of the button slot, and fig. 7 is a schematic perspective view illustrating the anti.
Referring to fig. 1, an anti-releasing pre-assembling assembly for a backlight module disclosed in an embodiment of the present invention includes a light guide plate 10 and an LED lamp panel 20. The light guide plate 10 has a light emitting surface 11 and an opposite dot surface 12, the light guide plate 10 is further provided with an inlay groove 40, a peripheral edge of the inlay groove 40 is formed as a protective edge 13, a first extending direction of the inlay groove 40 is parallel to a second extending direction of a light facing surface 41 of the light guide plate 10 (both of which are compliant with an X-axis direction shown in fig. 2), the LED lamp panel 20 is installed in the inlay groove 40 of the light guide plate 10, the protective edge 13 covers a side edge of the LED lamp panel 20, a back surface 22 of the LED lamp panel 20 is exposed out of the inlay groove 40, specifically, a light emitting surface 21 of the LED lamp panel 20 faces the light facing surface 41 of the inlay groove 40 to form a fixed gap or close contact, in a specific example, when the light facing surface 41 of the inlay groove 40 has a design with a specific shape change relative to the light emitting surface 21 of the LED lamp panel 20, for example, the light facing surface 41 is wavy or zigzag, the light emitting surface 21 of the LED lamp panel 20 may not form a fixed gap toward the light receiving surface 41 of the fastening groove 40. The protective edge 13 may be protruded from the back 22 of the LED lamp panel 20 or not protruded from the back 22 of the LED lamp panel 20. The first extending direction of the embedding groove 40 is determined by a smooth line formed by averaging the groove center lines of the embedding groove 40, and the second extending direction of the light facing surface 41 of the light guide plate 10 is determined by a smooth line formed by averaging the surface middle line of the light facing surface 41. The first extending direction parallel to the second extending direction not only achieves this relationship when the backlight module is installed, but also maintains the relative relationship of the first extending direction parallel to the second extending direction even if the position of the light guide plate 10 and the back plate 30 is fluctuated due to vibration factors when the backlight module is used.
The implementation principle of the embodiment is as follows: the LED lamp panel 20 is embedded in the embedding groove 40 of the light guide plate 10, the protective edge 13 is formed at the periphery of the embedding groove 40, the protective edge 13 covers the side edge of the LED lamp panel 20, the LED lamp panel 20 does not need to be fixed on the back plate 30, the LED lamp panel 20 is protected in a pre-assembly mode in a vibration-proof mode, and vibration friction between the LED lamp panel 20 and the light guide plate 10 cannot be caused by vibration between the light guide plate 10 and the back plate 30. Therefore, compared with the conventional method that the LED lamp panel 20 is fixed to the back plate 30 of the backlight module, the light emitting surface 21 of the LED lamp panel 20 faces the light facing surface 41 of the engaging groove 40 to form a shock-proof position relationship, and the positioning mechanism can also exert the effect that the light facing surface 41 of the light guide plate 10 does not deflect at the side of the back plate 30 to maintain a fixed gap, so that the XY axial direction of the light guide plate 10 is the same as the XY axial direction of the back plate 30 connected with the display screen, and the light emitting efficiency of the LED light source on the light guide plate 10 is ensured under the.
When the light guide plate 10 is used in a backlight module, the light emitting surface 11 faces a display screen device, the dot surfaces 12 face the inner side of the back plate 30, the dot surfaces 12 can be tightly attached to the back plate 30, the surfaces of the dot surfaces 12 are printed or provided with concave-convex light refraction patterns, a reflective film or a heat conducting sheet can be arranged between the dot surfaces 12 and the back plate 30, and the dot surfaces 12 do not emit light but reflect the light to the light emitting surface 11 as much as possible. The light guide plate 10 is an optical acrylic/PC high light transmittance plate, and should have high refractive index and no light absorption, and the material of the light guide plate 10 is usually PMMA (methyl methacrylate). The light guide plate 10 is used to uniformly diffuse the light source of the LED lamp panel 20 on the light emitting surface 11, that is, the side light source is converted into a surface light source, which is used as a backlight source of the display screen.
In the manufacturing of the light guide plate 10, the shape of the engaging groove 40 may be formed at one time by using an extrusion molding technique. The LED lamp panel 20 is pre-assembled in the light guide plate 10 after the light guide plate 10 is manufactured and before the assembly with the backlight module. The LED lamp panel 20 is embedded in the light guide plate 10, and can be adhered to silica gel or curing adhesive, or embedded mechanical fasteners can be used, and mechanical blocking or combination can be used in cooperation. The shape of the light guide plate 10 varies depending on the screen shape of the display, and may be substantially flat, rectangular, or any shape, and when used for a curved display, the shape of the light guide plate 10 is also a corresponding curved shape, and the curved surface includes a general curved surface or an edge curved surface. When the light guide plate 10 is shaped to have two curved edges, the engaging groove 40 is preferably located at the other side edge of the light guide plate 10 opposite to the non-curved edge. In one example, referring to fig. 4, the light-facing surface 41 of the light guide plate 10 may be parallel to the light-emitting surface 21 of the LED lamp panel 20, and in another example, the light-facing surface 41 of the light guide plate 10 may be relatively recessed in the light-emitting surface 21 of the LED lamp panel 20 to collect light emitted from the LED lamp panel 20 as much as possible.
Mesh point surface 12 is equipped with and is used for assembling the location structure of location towards in backplate 30, location structure's effect is the interval that one side that maintains light guide plate 10 and inlay LED lamp plate 20 and backplate 30 adjacent side, is LED lamp plate 20 in FIG 2 promptly for backplate 30 at the adjacent side of LED lamp plate 20 in the axial mutual depth of parallelism of X. The back plate 30 is an iron frame commonly used in the art and is used to combine with a plastic frame of a backlight module.
Referring to fig. 1 and 4, the insert groove 40 is located on a side of the light guide plate 10 between the light emitting surface 11 and the mesh point surface 12 in a preferred example. Therefore, the side edge of the insert groove 40 between the light emitting surface 11 and the dot surface 12 is used to realize the effect that the light guide plate 10 enters light and emits light on the light emitting surface 11.
In a specific example, referring to fig. 1 to 3, when the side edge extends in the X direction, the positioning structure includes an XY positioning point and a Y-direction groove limiting structure, which are respectively located at two end corners of the light guide plate 10 adjacent to the insert groove 40. The XY positioning points and the Y-direction groove limiting structures are respectively positioned at two end corners of the light guide plate 10, which are close to the side edges, one end corner of the embedding and buckling groove 40 is positioned in an XY mode, the other end corner of the embedding and buckling groove 40 is limited in a Y direction, under the thermal expansion and contraction of the light guide plate 10, the embedding and buckling groove 40 for fixing the LED lamp plate 20 and the adjacent side edges of the back plate 30 maintain the same gap, the LED lamp plate 20 is kept in the X axial direction of the display screen connected with the back plate 30, and the technical effect that the XY axis of the light guide plate 10 is kept consistent with the XY axis of the display screen in a thermal cycle environment is achieved.
In a more specific example, referring to fig. 1 to 3 again, in a preferred example, the XY positioning point and the Y-direction groove limiting structure are a positioning column 51 and a limiting sliding column 52 protruding from the mesh point surface 12, respectively, and the back plate 30 is provided with a positioning hole 31 and a Y-direction limiting sliding groove 32 extending in the X direction, respectively. Therefore, by using the XY positioning points formed by the positioning posts 51 protruding from the mesh surface 12 and the positioning holes 31 corresponding to the back plate 30, and the Y-direction groove limiting structures formed by the limiting slide posts 52 protruding from the mesh surface 12 and the Y-direction limiting slide grooves 32 corresponding to the back plate 30, the positioning posts 51 and the limiting slide posts 52 can be integrally formed by the light guide plate 10, the manufacturing is convenient, and the posts are not stuck in the light guide plate 10 when the posts are broken, and it is relatively easy to process the positioning holes 31 and the slide grooves of the back plate 30 from the outside, or reconnect the positioning posts 51 and the guiding slide posts. Therefore, the XY positioning points can realize XY fine positioning of one side corner of the light guide plate 10, and the Y groove limiting structures can realize Y fine positioning of the other side corner of the light guide plate 10.
Referring to fig. 1, 4 and 7, in a preferred example, the protective edge 13 is integrally formed by the light guide plate 10, and a slot 42 is formed inside the protective edge 13. Therefore, the protective edge 13 is integrally formed with the light guide plate 10, and the engaging groove 42 is formed inside the protective edge 13, so as to effectively protect the LED lamp panel 20 from being damaged by the back plate 30.
Regarding the specific description of the LED lamp panel 20, in a preferred example, the LED lamp panel 20 includes a printed circuit board 23, a plurality of LED chips 24 mounted on the printed circuit board 23, and a transparent silica gel sealing the LED chips 24, a side edge of the printed circuit board 23 is clamped in the clamping groove 42, so that a fixed gap is maintained between the transparent silica gel and the light-facing surface 41 of the light guide plate 10, and specifically, a side edge of the LED lamp panel 20 covered by the protective edge 13 includes a front side edge, a back side edge, an insertion bottom edge, and two insertion side edges of the lamp panel. Therefore, the LED lamp panel 20 includes the printed circuit board 23 (hard board) and the side clip, so as to achieve the effect that the transparent silica gel and the light-facing surface 41 of the light guide plate 10 keep a fixed gap, five sides of the side of the clip are covered, six sides of the side can be fixed as long as the inserting top sides of the side are blocked, adhered or fixed, and the LED lamp panel 20 cannot be separated from the light guide plate 10 due to vibration. The transparent silicone gel usually contains quantum dot powder or fluorescent powder, which is used to change the light color of the LED chip 24 to be as white as possible. The LED lamp panel 20 may be in the shape of a bar. The printed circuit board 23 is electrically connected to the LED chip 24. Specifically, the clamping groove 42 for clamping one side of the printed circuit board 23 corresponding to the positioning post 51 is a fixing groove, and the corresponding side of the printed circuit board 23 is fixed by adhesion, a groove depth limiting clamp or mechanical clamping, and the clamping groove 42 for clamping one side of the printed circuit board 23 corresponding to the limiting sliding post 52 is a sliding groove with increased groove depth, so that a movement margin (such as a left clamping groove shown in fig. 4) is reserved in the clamping groove, and the size change caused by mismatch of thermal expansion or different temperatures between the printed circuit board 23 (or the LED lamp panel 20) and the embedding groove 40 of the light guide plate 10 is overcome.
Referring to fig. 1, 5 and 7, in a preferred example, the covering area of the light emitting surface 11 of the light guide plate 10 includes the insert groove 40 and the complete LED lamp panel 20. Therefore, the covering area of the light emitting surface 11 includes the buckle slot 40 and the complete LED lamp panel 20, the light emitting surface 21 can be larger than the mesh point surface 12, one side of the mesh point surface 12 has a notch slot design, the side of the light emitting surface 21 has no notch slot design, the surface of the light emitting surface 21 is complete, and any shading pattern can be attached to the periphery of the light emitting surface 21, so that the light emitting area can be conveniently re-planned to eliminate the defect of side light leakage.
Fig. 8 is a schematic view of the anti-disengagement pre-assembly according to another preferred embodiment of the present invention, including the light guide plate 10 and the LED lamp panel 20 according to the previous embodiment, in the direction of the notch of the inserting groove 40 and a partially enlarged view of the protective edge 13. The LED light panel 20 is installed in the embedding and buckling groove 40 of the light guide plate 10, the protective edge 13 covers the lateral edge of the LED light panel 20, specifically, the back 22 of the LED light panel 20 is exposed out of the embedding and buckling groove 40, and the light emitting surface 21 of the LED light panel 20 faces the light facing surface 41 of the embedding and buckling groove 40 to form a fixed gap or close contact. In an example, the LED lamp panel 20 includes a flexible circuit board 25, a plurality of LED chips 24 mounted on the flexible circuit board 25, and a light-transmitting silicone for sealing the LED chips 24, wherein the light-transmitting silicone is tightly attached to the light-facing surface 41 of the light guide plate 10, specifically, the light-facing surface 41 is located on a groove side of the fastening groove 40 facing the middle of the light guide plate 10, another groove side of the fastening groove 40 is hollowed (as shown in fig. 6) to enhance heat dissipation, and a notch of the fastening groove 40 faces the mesh point surface 12, so as to prevent the LED lamp panel 20 from coming off and increase an area of the light-emitting surface 11 of the light guide plate 10. The other surface of the flexible circuit board 25 opposite to the chip mounting surface can be attached to the reflector 26, and the reflector 26 and the side edge of the flexible circuit board 25 can be clamped into the clamping groove 42 on the inner side of the protective edge 13. But not limited thereto, the reflective sheet may not be attached, and the back surface of the flexible circuit board 25 may be directly exposed. The LED chip 24 or the transparent silicone on the flexible circuit board 25 can also be attached to the light-facing surface 41 of the light guide plate 10 without clamping the side edge into the card slot.
The LED lamp panel 20 comprises a flexible circuit board 25 (flexible board), which is beneficial to the light-transmitting silica gel of the LED lamp panel 20 to be tightly attached to the light-facing surface 41 of the light guide plate 10, or the light-facing surface 41 is positioned on the groove side of the buckle embedding groove 40 facing the middle of the light guide plate 10, the other groove side of the buckle embedding groove 40 is hollow, and the notch of the buckle embedding groove 40 faces the mesh point surface 12, so that the technical effect that the notch of the buckle embedding groove 40 is sealed by the back plate 30 to limit the LED lamp panel 20 to be separated is achieved, the mesh point surface 12 of the light guide plate 10 can be attached to the back plate 30 as far as possible, and the hollow groove. The flexible circuit board 25 is electrically connected to the LED chip 24.
Furthermore, the other embodiments of the present invention further disclose and provide a method for ensuring the light emitting efficiency of the LED light source on the light guide plate 10 under the vibration of the backlight module of the anti-falling pre-assembly corresponding to the above backlight module. Fig. 9 is a block diagram of a method for ensuring the luminous efficacy of an LED light source on a light guide plate 10 under vibration of an optical module according to another preferred embodiment of the present invention, the method includes:
step S1, pre-assembling the anti-drop pre-assembly component of the backlight module according to any one of the above technical schemes to embed the LED lamp panel 20 in the light guide plate 10, and forming the protective edge 13 as an anti-collision protection for the LED lamp panel 20;
step S2, mounting the anti-drop pre-assembly component and the back plate 30;
step S3, assembling the back panel 30 as a connector to form a backlight module;
in the process of using the backlight module, when the anti-dropping pre-assembly component and the backboard 30 generate vibration deviation, the LED lamp panel 20 can be synchronous to the vibration of the light guide plate 10.
Therefore, the anti-dropping pre-assembly component is used for enabling the LED lamp panel 20 to be fixed in advance and embedded in the light guide plate 10, the LED lamp panel 20 does not need to establish a unique fixed relation with the back plate 30, the vibration of the light guide plate 10 relative to the back plate 30 cannot cause vibration friction between the LED lamp panel 20 and the light guide plate 10, and therefore the light emitting effect of the LED light source on the light guide plate 10 is guaranteed under the vibration of the backlight module.
The embodiment of this detailed implementation mode is all regarded as convenient understanding or implementation the utility model discloses technical scheme's preferred embodiment, not restrict according to this the utility model discloses a protection scope, all according to the equivalent change that structure, shape, principle were done, all should be covered in the utility model discloses an ask the protection within range.

Claims (10)

1. The utility model provides a subassembly is organized in advance in anticreep of backlight unit which characterized in that includes:
the light guide plate (10) is provided with a light emitting surface (11), the light guide plate (10) is further provided with an embedding and buckling groove (40), the periphery of the embedding and buckling groove (40) is formed into a protective edge (13), and a first extending direction of the embedding and buckling groove (40) is parallel to a second extending direction of a light facing surface (41) of the light guide plate (10);
LED lamp plate (20), install in light guide plate (10) inlay in catching groove (40), the fringe (13) cladding the lateral margin of LED lamp plate (20).
2. The anti-releasing pre-assembly for backlight module according to claim 1, wherein the light guide plate (10) further has a dot surface (12) opposite to the light emitting surface (11), and the insert groove (40) is located on a side of the light guide plate (10) between the light emitting surface (11) and the dot surface (12).
3. The anti-releasing pre-assembly for backlight module according to claim 2, wherein the mesh surface (12) is provided with a positioning structure for positioning toward the back plate (30), and when the side edge extends in the X direction, the positioning structure comprises an XY positioning point and a Y groove limiting structure, which are respectively located at two end corners of the light guide plate (10) adjacent to the side edge.
4. The anti-releasing pre-assembling assembly of backlight module according to claim 3, wherein the XY positioning points and the Y-direction groove limiting structures are positioning posts (51) and limiting sliding posts (52) protruding from the mesh surface (12), respectively, and the back plate (30) is provided with corresponding positioning holes (31) and X-direction extending Y-direction limiting sliding grooves (32).
5. The anti-separation pre-assembly for backlight module according to claim 1, wherein the protective edge (13) is integrally formed by the light guide plate (10), and a slot (42) is formed on the inner side of the protective edge (13).
6. The anti-drop pre-assembly component of the backlight module according to claim 5, wherein the LED lamp panel (20) comprises a printed circuit board (23), a plurality of LED chips (24) mounted on the printed circuit board (23) and light-transmitting silica gel for sealing the LED chips (24), the side edge of the printed circuit board (23) is clamped in the clamping groove (42) to enable the light-transmitting silica gel and the light-facing surface (41) of the light guide plate (10) to keep a fixed gap, and specifically, the side edge of the LED lamp panel (20) covered by the protective edge (13) comprises a front side edge, a back side edge (22), an inserting bottom edge and two inserting side edges of the lamp panel.
7. The anti-drop pre-assembly component of the backlight module according to claim 2, wherein the LED lamp panel (20) comprises a flexible circuit board (25), a plurality of LED chips (24) mounted on the flexible circuit board (25) and a light-transmitting silica gel for sealing the LED chips (24), the light-transmitting silica gel is tightly attached to the light-facing surface (41) of the light guide plate (10), specifically, the light-facing surface (41) is located on the groove side of the buckle-inlaid groove (40) facing the middle of the light guide plate (10), the other groove side of the buckle-inlaid groove (40) is hollow, and the notch of the buckle-inlaid groove (40) faces the mesh point surface (12).
8. The anti-drop pre-assembly of the backlight module according to any one of claims 1 to 7, wherein a covering area of the light emitting surface (11) of the light guide plate (10) comprises the insert groove (40) and the complete LED lamp panel (20).
9. A backlight module, comprising the anti-separation pre-assembly of the backlight module as claimed in any one of claims 1 to 8 and a back plate (30), wherein the side edge of the back plate (30) limits the periphery of the light guide plate (10).
10. A vehicle-mounted display device, characterized by comprising a backlight module as claimed in claim 9.
CN202021871993.7U 2020-08-31 2020-08-31 Backlight module, anti-drop pre-assembly and vehicle-mounted display device thereof Active CN212846011U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202021871993.7U CN212846011U (en) 2020-08-31 2020-08-31 Backlight module, anti-drop pre-assembly and vehicle-mounted display device thereof

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202021871993.7U CN212846011U (en) 2020-08-31 2020-08-31 Backlight module, anti-drop pre-assembly and vehicle-mounted display device thereof

Publications (1)

Publication Number Publication Date
CN212846011U true CN212846011U (en) 2021-03-30

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