CN201992493U - Backlight module group - Google Patents

Abstract

The utility model discloses a backlight module group used in backlight display equipment. The backlight module group comprises a light source, a first reflecting surface covering a radiant conical surface of the light source, and a second reflecting surface opposite to the first reflecting surface and capable of reflecting light rays reflected by the first reflecting surface to a surface needing to be illuminated. The light rays of the backlight module group are irradiated to the surface needing to be irradiated after being twice reflected by the two reflecting surfaces, and the incident light rays can be effectively controlled through selecting the shapes of the first and the second reflecting surfaces, so that the surface irradiation uniformity can be easily guaranteed.

Description

A kind of module backlight

Technical field

The utility model relates to the module backlight of backlight display device, relates in particular to the module backlight of the display screen of automobile combination meter.

Background technology

On the combination instrument that is applied in automobile widely backlight.The combination instrument of automobile needs various figures or numerals such as the speed, oil mass of display automobile usually, so that the driver can know at any time.Make the combination instrument can be under the situation of illumination condition deficiencies such as night, tunnel, indication or scale still can have good readability, combination instrument backlight very important.

Because the radiation intensity of LED lamp 90 light is along with the increase of light offset from perpendicular angle, and reduce rapidly, therefore, in the circular cone scope of LED lamp 90 light radiations, in vertical direction, the radiation of light source is the strongest, increase with deviation angle decays rapidly, in angle of radiation is 80 when spending, and the radiation intensity of light source is almost nil, as Fig. 1 a.Thereby, only use the LED lamp as module backlight, its backlight uniformity is difficult to reach gratifying effect, can not enough illuminate in the position that offset from perpendicular is far away, is difficult to illuminate whole surface.

In order to illuminate whole surface, mainly be at present to be covered with entire backlight equipment (as Fig. 1 b) by the LED lamp array that uses some, the array that constitutes by a plurality of LED lamps 90 illuminates whole surface.Yet, this design, the uneven illumination on surface is even, can obtain than other regional more rays in the zone over against each LED, and the light that departs from the zone acquisition of LED will lack the situation that it still exists light and shade to differ relatively.

Evenly illuminate for making the surface, the use reflecting surface is also arranged, by reflecting surface the light of radiation of light source is reflexed to the position that needs illumination, because reflecting surface can be controlled the direction of illumination of light, the light of radiation of light source can shine on the display screen after surface of emission reflection relatively more uniformly.Yet, be subjected to the restriction of combination instrument volume, the light of reflection usually all can not be vertical shine the surface that needs irradiation, usually all there is certain angle of inclination, need irradiating surface unequal to the distance of reflecting surface, vary, its less bigger zone of regional relative distance of distance can be shone brightlyer, and the uniformity that whole surface is illuminated is desirable not enough.

Summary of the invention

The shortcoming that the utility model is intended to overcome above-mentioned prior art provides a kind of module backlight that can evenly illuminate whole surface.

Module backlight described in the utility model, comprise light source, facing to first reflecting surface of the radiation of light source conical surface, reflection source radius, it also comprises second reflecting surface, described second reflecting surface is in the face of first reflecting surface, and the light that the reflection of first reflecting surface is come reflexes on the surface that need illuminate.

Module backlight described in the utility model, the light of the first reflecting surface reflection source radiation, second reflecting surface receive the light that the reflection of first reflecting surface comes, and it is shone on the surface that need illuminate.Because, can control its light reflected direction by the shape of selecting reflecting surface.Module backlight of the present utility model by selecting the shape of first reflecting surface and second reflecting surface, can be controlled the direction of light for twice, thereby guarantee its uniformity to the irradiation on surface easily, makes light evenly illuminate the surface that need illuminate.

Described light source can have a plurality of, and it can be light emitting diode (LED), also can be conventional bulb.

Described first reflecting surface can comprise a plurality of reflectings surface, all corresponding light source of each reflecting surface, and these reflectings surface are all faced the radiating surface of each light source.

Described first reflecting surface can be parabolic, ellipsoid, perhaps hyperboloid.

Described second reflecting surface can be parabolic, ellipsoid, perhaps hyperboloid.

The light source of module backlight is a plurality of light emitting diodes that are arranged side by side, and with respect to each Light-Emitting Diode first reflecting surface that covers its radiating surface is arranged all, and each first reflecting surface is arranged side by side.

First reflecting surface of the both sides in first reflecting surface that described first reflecting surface is arranged side by side tilts to the inside.

The utility model is controlled the uniformity of light irradiation by the shape of selecting first, second reflecting surface, because the control of shape is difficult to the homogeneous that strictness reaches light, even shape itself can homogeneous, also can make its irradiation still dislike not enough homogeneous because of reasons such as processing, rigging errors.Dark partially or bright partially problem appear relatively still disliking in the regional area that can exist in the surface that need illuminate.For head it off, described module backlight also can be at the regional area of second reflecting surface, the 3rd reflecting surface is set, the 3rd reflecting surface is in the face of first reflecting surface, the light of first reflecting surface reflection is reflexed to local dark partially zone, or the light in the zone that the script part is bright partially reflexes to other zone.By the adjustment to reflection ray of the 3rd reflecting surface, can further increase module backlight shine uniformity.

Described the 3rd reflecting surface can be positioned at the zone of second reflecting surface near a side of light source, it comprise one group by light source side to the striped that the side density away from light source increases successively, be provided with light to surface on each striped away from light source one lateral reflection.Perhaps comprise one group of erosion line that increases successively to a side density by light source side away from light source.Or comprise one group of circular small boss that increases successively to a side density by light source side away from light source.

Can also be optionally light (light that comes from the reflection of first reflecting surface) be reflexed to certain or certain several zones on the surface that need illuminate by the 3rd reflecting surface, strengthening these regional illumination, thereby realize highlighted demonstration these positions of display screen.

Described module backlight also can comprise a brightness enhancement film, and described brightness enhancement film is between the light source and first reflecting surface, and the light of radiation of light source shines on first reflecting surface after brightness enhancement film again.

The surface that described needs illuminate is a display screen, and it can be liquid crystal display, also can be silk-screen screen etc.

Description of drawings

Fig. 1 a is the luminous intensity energy profile of light emitting diode;

Fig. 1 b is a kind of module schematic diagram backlight of prior art;

Fig. 2 is that a kind of module backlight of the present utility model is applied in the schematic diagram in the combination instrument;

Fig. 3 is the A-A profile of Fig. 2;

Fig. 4 is the vertical view of a kind of module backlight of the present utility model;

Fig. 5 a-5c is three kinds of possible structures of first reflecting surface of module backlight described in the utility model;

Fig. 6 is the schematic diagram of a kind of module backlight of the present utility model;

Fig. 7 is the explosive view of a kind of module backlight of the present utility model;

Fig. 8 is the explosive view of a kind of module backlight of the present utility model;

Fig. 9 a-9c is three kinds of possible structures of second reflecting surface;

Figure 10 is the schematic diagram of a kind of module backlight of the present utility model;

Figure 11 a, 11b, 11c are the schematic diagram of three kinds of the third reflectings surface;

Figure 12 is the concrete structure schematic diagram of a kind of module backlight of the present utility model;

Figure 13 is the concrete structure schematic diagram of a kind of module backlight of the present utility model;

Figure 14 a and Figure 14 b are the schematic diagram of two kinds of possible first reflection faces of the present utility model.

The specific embodiment

As Fig. 2, Fig. 3 is the application of module backlight in combination instrument, its light source 10 is fixed on the circuit board 110 of bottom, the top of light source is first reflecting surface 12, first reflecting surface is in the face of light source, it covers the radiating surface of light source, and second reflecting surface 14 is relative with first reflecting surface, and it is positioned at the bottom of the display screen of combination instrument, the light that the emission of first reflecting surface can be come reflexes on the display screen 18, illuminates display screen.

Circuit board is to light source power supply, and light source luminescent gives off light R, through first reflecting surface, 12 reflection R ₁To second reflecting surface 14, again by second reflecting surface reflection R ₂To display screen.By the shape that designs first reflecting surface, the shape of second surface of emission, and the position of relative first, second reflecting surface of light source, the light of radiation of light source is shone on the display screen after first, second reflecting surface emission uniformly, thereby guarantee that display screen 18 is illuminated uniformly.

First reflecting surface 12 can not cover the radiating surface of light source 10 fully, light source can not shone directly on the display screen by the radius of its covering, with together illuminate display screen through first, second reflecting surface light reflected, it exerts an influence to the uniformity that display screen illuminates.For reducing this influence, should reduce light source as far as possible and shine directly into light on the display screen, it requires first reflecting surface can cover the radiation of light source face of 40 degree at least, if first reflecting surface can cover the above radiation of light source face of 60 degree certainly, then its influence can be reduced to littler.

Each bar light through first reflecting surface to second reflecting surface apart from the s1 difference, length changes continuously, each bar light is through second reflecting surface to display screen also different apart from s2, length is continually varying equally.For making light after first, second reflecting surface reflection, shine the energy even on the display screen, it requires the light can basically identical through total distance of the Zhongdao display screen of second reflecting surface from first reflecting surface, be that s1+s2 can be basic identical, therefore the geometrical property of first reflecting surface, second reflecting surface, and the relativeness of light source, first reflecting surface and second reflecting surface has determined the uniformity of illumination.

First reflecting surface can be the parabola that is bent upwards, and as Fig. 5 c, second reflecting surface then is reclinate curved surface, and light source then places the paraboloidal focus place of first reflecting surface, as Figure 10, Figure 12, Figure 13.The light that its s1 is big, s2 are then less relatively, and then s1 is relatively large for the less light of s2.Therefore can be good at the uniformity that guarantees that display screen illuminates.

The light source of module backlight can be arranged side by side for a plurality of, as Figure 12, a plurality of light emitting diodes that are arranged side by side 10, corresponding same first reflecting surface, by same reflecting surface with light emission to second reflecting surface, Figure 14 a is met personally in its first reflection.First reflecting surface also can with respect to every light source (10a, 10b, 10c, 10d, 10e), all be provided with first reflecting surface (12a, 12b, 12c, 12d, 12e) that covers its radiating surface separately as Figure 14 b, and each first reflecting surface is arranged side by side.Can reflect the light of each radiation of light source separately more fully at first reflecting surface of each Light-Emitting Diode setting, the utilization rate of light is higher.Especially, when the light source that is arranged side by side at each, when independent parabola being set being first reflecting surface, the light of its first reflecting surface emission can be accomplished more even, needs the light of illuminated surface more even thereby help shining after the reflection of second reflecting surface.The first reflecting surface 10a, the 10e at the two ends in a plurality of first reflectings surface that are arranged side by side can tilt to the inside, as Fig. 4, it can remedy the middle part light problem on the weak side relatively that causes when all first reflectings surface be arranged in parallel, first reflecting surface at two ends is set by sloping inwardly, the light at two ends more can be reflexed to the middle part, thereby strengthen the light irradiation at middle part, make irradiation more even.

Above-mentioned module backlight, though the uniformity of light irradiation is higher, yet it controls the uniformity that its reflection direction to light is controlled irradiation by selecting the shape of two reflectings surface, there is limitation in it, is difficult to the homogeneous of strict assurance light irradiation.Usually this light irradiation that obtains near a side of light source of surface that needs irradiation relatively can be partially more by force, and shine a little less than the relative meeting a bit away from a sidelight line of light source.For this reason, module backlight can be provided with the 3rd reflecting surface 16, as Fig. 2, Fig. 3, the 3rd reflecting surface is the part of second reflecting surface 14 near light source 10 sides, it is in the face of first reflecting surface 12, it comprises one group of striped 160 that is increased successively to the side density away from light source by light source side, and striped is increased to the side density away from light source successively by light source side, is provided with light to the surface away from light source one lateral reflection on each striped.Described striped 160 can be triangular prism shaped, and as Figure 11 a, it is by the light that the inclined-plane of striped comes the reflection of first reflecting surface, and reflection is to the side further from light source direction, thereby increase makes irradiation more even away from the light of light source one side.

Above-mentioned the 3rd reflecting surface 16 also can comprise one group of erosion line that is increased successively to the side density away from light source by light source side, as Figure 11 b.The erosion line that chemical reagent the etches light that reflection comes to first reflecting surface carries out diffuse reflection, and it can reduce the light irradiation that directly reflexes near the light source side part, slightly increases the light irradiation away from the light source side zone simultaneously, makes irradiation more even.

Above-mentioned the 3rd reflecting surface 16 also can comprise one group of circular small boss 161 that is increased successively to the side density away from light source by light source side, as Figure 11 c.Small boss is the same with the erosion line can to carry out diffuse reflection to the next light of first reflecting surface reflection, needs the irradiation of illuminated surface light source side light thereby reduce, and the small size light irradiation that increases away from the light source side zone of appropriateness makes irradiation more even.Simultaneously, it processes simpler, convenient with respect to chemical etching.The easier control of the density of its small boss, when not having chemical etching processing erosion line, the unmanageable problem of density.

First reflecting surface can be an ellipsoid, as Fig. 5 a; Also can be hyperboloid, as Fig. 5 b; Can also be parabolic, as Fig. 5 c.

As Fig. 6, first reflecting surface 12 can comprise completely reflecting mirror 120, between the light source 10 and first reflecting surface.By completely reflecting mirror reflection ray as much as possible.Fully reflecting surface can be a LGP, and it is parallel plane.LGP also may be convex surface or concave surface, this depends on the distribution of first reflecting surface, 12 reflection rays.

Described second reflecting surface 14 as Fig. 7, Figure 12, is a concave surface along the D1 direction, is the plane along the D2 direction.D1 and D2 are orthogonal, and parallel with display screen 18.

Described second reflecting surface 14 as Fig. 8, Figure 13, is the concave surface that the curve by following both direction constitutes.In the D1 direction is parabola, is concave surface 142 in the D2 direction.D1 and D2 are orthogonal, and parallel with display screen 18.

Second reflecting surface 14 can be ellipsoid, as Fig. 9 a; Also can be hyperboloid, as Fig. 9 b; Can also be parabola, as Fig. 9 c.

Figure 10, module backlight also comprise a scattering sheet 180, and described scattering sheet is positioned at the back side of the display screen 18 that need illuminate, and it can carry out the light from the second reflecting surface directive display screen good scattering, thereby further just improve uniformity backlight.Scattering sheet 180 also can use brightness enhancement film (BEF) to substitute, and it can strengthen the light that shines on the display screen, thereby further improves brightness.Module backlight also can have scattering sheet and brightness enhancement film simultaneously, and it can improve brightness backlight can improve uniformity backlight again.Described increment film can adopt twocouese increment film (DBEF), and its effect is better.Also brightness enhancement film can be set between the light source and first reflecting surface, the light of radiation of light source shines on first reflecting surface, as Fig. 5 c after brightness enhancement film again.

Claims (9)

1. module backlight, comprise light source, facing to first reflecting surface of the radiation of light source conical surface, reflection source radius, it is characterized in that: it also comprises second reflecting surface, described second reflecting surface is in the face of first reflecting surface, and the light that the reflection of first reflecting surface is come reflexes on the surface that need illuminate.

2. module backlight according to claim 1 is characterized in that: first reflecting surface can cover the above radiation of light source face of 40 degree.

3. module backlight according to claim 1 is characterized in that: the light source of module backlight is a plurality of light emitting diodes that are arranged side by side, and with respect to each Light-Emitting Diode first reflecting surface that covers its radiating surface is arranged all, and each first reflecting surface is arranged side by side.

4. according to the described module backlight of claim 3, it is characterized in that: first reflecting surface of the both sides in first reflecting surface that is arranged side by side, tilt to the inside.

5. according to any one described module backlight among the claim 1-4, it is characterized in that: described first reflecting surface is an ellipsoid, or hyperboloid, or parabolic.

6. according to any one described module backlight among the claim 1-4, it is characterized in that: described second reflecting surface is an ellipsoid, or hyperboloid, or parabolic.

7. according to any one described module backlight among the claim 1-4, it is characterized in that: module backlight also comprises a scattering sheet, and scattering sheet is positioned at the back side on the surface that need illuminate.

8. according to any one described module backlight among the claim 1-4, it is characterized in that: the back side on the surface that need illuminate is provided with brightness enhancement film.

9. according to any one described module backlight among the claim 1-4, it is characterized in that: be provided with brightness enhancement film between the light source and first reflecting surface.

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