CN106405928A - Light source module - Google Patents

Abstract

The invention discloses a light source module, which comprises a frame, at least one light source, a diffusion sheet, at least one lens structure and at least one supporting unit. The light source is configured in the frame. The diffusion sheet is arranged on an optical path of the light emitted by the light source. The lens structure is arranged between the light source and the diffusion sheet and comprises a top surface facing the diffusion sheet. The supporting unit is arranged between the lens structure and the diffusion sheet. The support unit includes at least one support member disposed along a periphery of the top surface. The support comprises a support surface and a joint surface which are opposite, the support surface contacts the diffusion sheet, and the joint surface is opposite to the top surface. The area of the engagement surface is A ', the area of the top surface of the lens structure is A, and 0.03A ≦ A' ≦ 0.5A. The light source module provided by the invention is provided with the supporting unit on the lens structure for supporting the diffusion sheet, so that the effects of reducing the cost and improving the picture quality are achieved under the condition of shortening the optical distance.

Description

Light source module

Technical field

The present invention relates to a kind of light source module, more particularly, to a kind of configuration support unit on lens arrangement Light source module.

Background technology

The assemblies such as backlight module, display floater, housing are mainly included in liquid crystal display.According to light The difference in source direction, backlight module can be divided into sidelight type backlight module and down straight aphototropism mode set again. Taking down straight aphototropism mode set as a example, down straight aphototropism mode set include backboard, light source assembly, reflector plate, Diffusion sheet, blooming piece and housing, wherein light source assembly by circuit board, be configured on circuit board Light emitting diode and secondary lens combine, and the function of secondary lens is light emitting diode The diffusion profile of the light wide-angle degree being sent, so that backlight module brightness integrally homogenizes.

In order to support the weight of diffusion sheet and maintain spacing (the namely light between reflector plate and diffusion sheet Learn apart from optical distance, abbreviation OD) it will usually support in the upper configuration of backboard (Back cover) Post, as the component carrying diffusion sheet, uses the spacing maintaining between reflector plate and diffusion sheet.But chasing after Ask under the trend of slimming, reflector plate is more and more narrow with the spacing of diffusion sheet, and this makes diffusion sheet micro Fluctuations (e.g. diffusion sheet inclination), will impact planar light source the uniformity a lot of, therefore, It is necessary to increase the quantity of support column in the case that the spacing of reflector plate and diffusion sheet narrows, use maintenance Light source assembly and the distance of diffusion sheet.

However, in the case that support column quantity increases, the structure that support column is engaged with backboard increases, In addition to the cost of manufacture that meeting leads to backlight module improves, also result in follow-up formation picture over the display Planar defect.Therefore, how to be improved for above-mentioned problem, actually this area related personnel is closed The focus of note.

" background technology " paragraph is used only to help understand present invention, therefore in " background technology " paragraph Disclosed content may comprise some and not constitute known to those of ordinary skill in art Known technology.In the content disclosed by " background technology " paragraph, do not represent this content or the present invention one Individual or multiple embodiment problem to be solved, before the present patent application by art in general Logical technical staff is known or cognitive.

Content of the invention

An object of the present invention is to provide a kind of light source module, and it configures support on lens arrangement Unit, in order to support diffusion sheet, uses in the case that optical distance (OD) shortens, reaches and reduce into Basis and effect of lifting picture quality.

A further object of the present invention is to provide a kind of lens arrangement, configures support unit thereon, in order to Support diffusion sheet, use in the case that optical distance (OD) shortens, reach reduces cost and lifting Effect of picture quality.

It is still another object of the present invention to provide a kind of support unit, in order to support diffusion sheet, use In the case that optical distance (OD) shortens, reach reduces cost and effect of lifting picture quality.

For reaching part or all of above-mentioned purpose or other purpose, the present invention provides a kind of light source die Group, including framework, at least one light source, diffusion sheet, at least one lens arrangement and at least one Support unit.Light source is configured in framework.Diffusion sheet is configured at the light ways for education of the light that light source is sent On footpath.Lens arrangement is configured between light source and diffusion sheet, and lens arrangement includes the top towards diffusion sheet Face.Support unit is configured between lens arrangement and diffusion sheet.Support unit includes at least one along top The support member of the periphery configuration in face.Support member includes relative supporting surface and composition surface, and supporting surface contacts Diffusion sheet, composition surface is with respect to top surface.The area on composition surface is A ', the area of the top surface of lens arrangement For A, and 0.03A A ' 0.5A.

For reaching one of above-mentioned or part or all of purpose or other purposes, another aspect of the present invention provides A kind of lens arrangement, for light source module, light source module includes at least one light source and is configured at light Diffusion sheet on the optical path of the light that source is sent, lens arrangement includes lens body and support Unit.Lens body is configured between light source and diffusion sheet.Lens body includes the top towards diffusion sheet Face.Support unit is configured between lens body and diffusion sheet, and support unit includes at least one along top The support member of the periphery configuration in face.Support member includes relative supporting surface and composition surface, and supporting surface is used for Contact diffusion piece, composition surface is with respect to top surface.The area on composition surface is A ', the top surface of lens arrangement Area is A, and 0.03A A ' 0.5A.

For reaching one of above-mentioned or part or all of purpose or other purposes, further aspect of the present invention provides A kind of support unit, for light source module, light source module includes at least one light source, is configured at light source Diffusion sheet on the optical path of the light being sent and be configured at the lens between light source and diffusion sheet Structure, lens arrangement includes the top surface towards diffusion sheet, and support unit includes at least one support member. Support member is used for being configured at the periphery of the top surface of lens arrangement, and support member includes relative supporting surface and connects Conjunction face, supporting surface is used for contact diffusion piece, and composition surface is with respect to top surface.The area on composition surface is A ', The area of the top surface of lens arrangement is A, and 0.03A A ' 0.5A.

The support unit of the embodiment of the present invention, lens arrangement and light source module, it is in lens arrangement top surface Periphery on configure at least one support member, in order to support diffusion sheet, and maintain diffusion sheet and light source it Between distance, additionally, the area A of the area A ' on support member composition surface and lens arrangement top surface, meet 0.03A this relational expression of A ' 0.5A, under such structure design, need not be on the backboard of framework The traditional support column of additional configuration, saves the structure that traditional support column is engaged with backboard, even and if In the case that optical distance (OD) shortens, also need not increase the usage quantity of traditional support column, effectively Reach reduces cost and effect of lifting display device picture quality.

It is that the above and other objects, features and advantages of the present invention can be become apparent, cited below particularly Preferred embodiment, and coordinate accompanying drawing, it is described in detail below.

Brief description

Fig. 1 is the generalized section of the light source module of one embodiment of the invention.

Fig. 2 is the schematic diagram of the lens arrangement shown in Fig. 1 and the stereochemical structure of support unit.

Fig. 3 is the lens arrangement shown in Fig. 1, the side-looking of support unit, reflector plate and diffusion sheet is illustrated Figure.

Fig. 4 A- Fig. 4 E is the schematic diagram of the face shaping of support member of different embodiments.

Fig. 5 is the cross-sectional schematic of the light source module of another embodiment of the present invention.

Fig. 6 is the schematic diagram of the lens arrangement shown in Fig. 5 and the surface structure of support unit.

Fig. 7 is the schematic side view of the lens arrangement, support unit and reflector plate shown in Fig. 5.

Specific embodiment

For the present invention aforementioned and other technology contents, feature and effect, in following cooperation accompanying drawing In the detailed description of one preferred embodiment, can clearly present.The side being previously mentioned in following examples To term, for example：Upper and lower, left and right, front or rear etc., it is only the direction of refer to the attached drawing.Therefore, The direction term using is used to explanation not for limiting the present invention.

Refer to Fig. 1 to Fig. 3, Fig. 1 is the generalized section of the light source module of one embodiment of the invention. Fig. 2 is the schematic diagram of the lens arrangement shown in Fig. 1 and the stereochemical structure of support unit.Fig. 3 is Fig. 1 Shown lens arrangement, the schematic side view of support unit, reflector plate and diffusion sheet.As Fig. 1 and Fig. 2 Shown, the light source module 1 of the present embodiment include framework 11, at least one light source 12, diffusion sheet 13, At least one lens arrangement 14, at least one support unit 15 and reflector plate 16.Light source 12 configures In framework 11.Diffusion sheet 13 is configured at the optical path of the light (not shown) that light source 12 is sent On.Lens arrangement 14 is configured between light source 12 and diffusion sheet 13, and lens arrangement 14 includes Mirror main body 140 and be located at lens body 140 and the top surface 141 towards diffusion sheet 13.Support unit 15 are configured between lens arrangement 14 and diffusion sheet 13, and support unit 15 includes at least one along thoroughly The support member 151 of top surface 141 periphery 144 configuration of mirror structure 14.Support member 151 includes relative Supporting surface 152 and composition surface 153, support member 151, with supporting surface 152 contact diffusion piece 13, is used Support diffusion sheet 13, the composition surface 153 of support member 151 is then with respect to the top surface 141 of lens arrangement 14. Reflector plate 16 is configured on light source 12.As shown in figure 3, the face on the composition surface 153 of support member 151 Amass as A ', the area of the top surface 141 of lens arrangement 14 is A, and composition surface 153 and top surface 141 it Between meet the relational expression of 0.03A A ' 0.5A.Specifically, the area A ' on composition surface 153 is to connect Projected area on diffusion sheet 13 for conjunction face 153 upright projection, in the same manner, the area A of top surface 141 is Projected area on diffusion sheet 13 for top surface 141 upright projection.

Furthermore, when support member 151 size is too little (area on composition surface 153 is that A ' is too little), Support member 151 can support the support force of diffusion sheet 13 not enough and be easily broken off, but works as support member 151 Size too big when (area on composition surface 153 is that A ' is too big), support member 151 can block from lens arrangement The light of 14 outgoing and affect the optical appearance of integrated light source module 1, and the composition surface 153 of the present embodiment Due to meeting the relational expression of 0.03A A ' 0.5A and top surface 141 between, can avoid above-mentioned working as support member Caused problem when too little or too big of 151 size.

Hereinafter the detailed construction being directed to the light source module of the present embodiment again is described in further detail.

As shown in figure 1, the framework 11 of the present embodiment includes backboard (Back cover) 111 and front frame (Front Bezel) 112, and light source 12 is for example disposed on backboard 111, but the present invention is not limited to this.This The light source 12 of embodiment includes substrate 121 (e.g. circuit board) and multiple substrate 121 that is configured at Light-emitting component 122 (e.g. light emitting diode (light emitting diode, abbreviation LED)), reflector plate 16 are for example arranged on substrate 121, but the present invention is not limited to this.The quantity example of lens arrangement 14 Multiple in this way, in the present embodiment, these lens arrangements 14 are, for example, to pass through to prolong from lens body 140 The fixed pin 143 stretched passes through reflector plate 16 to be configured on the substrate 121 of light source 12, but The present invention is not limited to this, and in other embodiments, lens arrangement 14 e.g. passes through fixed pin 143 are directly configured on reflector plate 16, additionally, the configuration quantity of lens arrangement 14 depends on luminous unit The configuration quantity of part 122, and these lens arrangements 14 are corresponded to each other with these light-emitting components 122.

Specifically, in this embodiment, light source module 1 also includes being configured on diffusion sheet 13 Optical diaphragm group 17, but optical diaphragm group 17 be the art known technology means and not this The emphasis of invention, therefore, the structure being just not for optical diaphragm group 17 in explanation is described.

As shown in Figures 1 and 2, the quantity of the support member 151 of the support unit 15 described in the present embodiment E.g. multiple, these support members 151 are joined along the periphery 144 of each lens arrangement 14 top surface 141 Put, and the composition surface 153 of these support members 151 is e.g. engaged in the top surface of each lens arrangement 14 141, but the present invention is not limited with this, in other embodiments, these supports of support unit 15 Part 151 and each lens arrangement 14 be e.g. integrally formed that is to say, that these support members 151 with The lens body 140 of each lens arrangement 14 and fixed pin 143 are formed in one.For another example Fig. 3 Shown, composition surface 153 that these support members 151 are engaged with the top surface 141 of each lens arrangement 14 Area is summed up as A ", and the area on these composition surfaces 153 sum total A " and top surface 141 between equally also Meet 0.03A A " this relational expression of 0.5A.In the present embodiment, the quantity example of support member 151 3 in this way, but the quantity of the present invention without limitation support member 151, the quantity of support member 151 can Increase and decrease depending on the demand of actual conditions.

In the present embodiment, each lens arrangement 14 is all configured with support unit 15 that is to say, that All it is configured with one or more support members 151 on each lens arrangement 14, but the present invention is not limited to this, In other embodiments, support unit 15 is optionally configured in these lens arrangements 14 At least one, and support unit 15 need not be configured on each lens arrangement 14.Additionally, this reality The material of the lens arrangement 14 and support unit 15 of applying example includes Merlon (Polycarbonate, letter Claim PC) and polymethyl methacrylate (Polymethylmethacrylate, abbreviation PMMA), and lens Structure 14 is, for example, identical with the material of support unit 15 or differs.For example, real one Apply in example, lens arrangement 14 is similarly Merlon (PC) or poly- methyl with the material of support unit 15 Methyl acrylate (PMMA), in another embodiment, the material of lens arrangement 14 and support unit 15 It is respectively polymethyl methacrylate (PMMA) and Merlon (PC), but the present invention is not limited to This.

As shown in Figures 1 and 3, the lens arrangement 14 of the present embodiment is in the direction of vertical proliferation piece 13 On height be X, each support member 151 of support unit 15 is on the direction of vertical proliferation piece 13 Height be Y, and the spacing between reflector plate 16 and diffusion sheet 13 is H, then lens arrangement 14 Height X, the height Y of support member 15 and spacing H meet the relational expression of 0.9H X+Y 1.1H. For example, the species of lens arrangement 14 includes reflective lens structure with refraction type lens arrangement (at this In embodiment, mainly taking reflective lens structure as a example), tie for reflective lens in lens arrangement 14 In the case of structure, the height X scope of lens arrangement 14 is between 5-15 millimeter, and is suitable for The spacing H scope of reflector plate 16 and diffusion sheet 13 between 6-20 millimeter, through above-mentioned relation formula The height Y scope that support member 15 can be calculated is between 1-15 millimeter.Additionally, in lens knot In the case that structure 14 is refraction type lens arrangement, the height X scope of lens arrangement 14 is between 5-15 milli Between rice, and the spacing H scope of the reflector plate 16 that is suitable for and diffusion sheet 13 is between 20-50 millimeter Between, the height Y scope of support member 15 can be calculated between 5-45 millimeter through above-mentioned relation formula Between.

As shown in figure 3, each support member 151 of the support unit 15 of the present embodiment also includes being connected to Outer surface 154 between supporting surface 152 and composition surface 153 and pass through supporting surface 152 and outer surface Junction between 154 the normal L perpendicular to diffusion sheet 13.Between normal L and outer surface 154 There is the first angle theta 1, and 1 45 degree of 0 degree of θ, specifically, normal L and outer surface 154 Between the first angle theta 1 be the angle in support member 151.Wherein first angle theta 1 can represent When the face shaping of support member 151 is, for example, column, the taper of support member 151.In this enforcement In example, supporting surface 152 is, for example, plane, but the present invention is not limited to this, in other embodiments, Supporting surface 152 can be for example curved surface.Additionally, the outer surface 154 of each support member 151 and lens knot There is between the top surface 141 of structure 14 second angle theta 2, and 2 135 degree of 45 degree of θ, specifically, The second angle theta 2 between the outer surface 154 of support member 151 and the top surface 141 of lens arrangement 14 is Angle outside support member 151.Wherein second angle theta 2 can represent support member 151 outwards (towards top Outside face 141) or inside (towards inside top surface 141) inclined degree.

As shown in Figure 1 to Figure 3, the face shaping of the support member 151 of the support unit 15 of the present embodiment E.g. column, but the present invention is not limited to this, and in other embodiments, support member 151 can There are multiple different face shapings.For example, as shown in Figure 4 A, the outward appearance of support member 151a Shape is, for example, plates so that the supporting surface 152 that contacts with diffusion sheet 13 of each support member 151a Area is less, therefore, less likely affects the optical appearance of integrated light source module 1, the wherein second angle theta 2 For example, 90 degree (figure does not indicate).As shown in Figure 4 B, the face shaping of support member 151b is, for example, ring Shape wall body, using the teaching of the invention it is possible to provide the more stable support force of diffusion sheet 13, the wherein second angle theta 2 for example, 90 Degree (figure does not indicate).As shown in Figure 4 C, the face shaping of support member 151c is, for example, circumferential wall and props up Support face 152 is in wavy, and in the present embodiment, the supporting surface 152 of support member 151c is in for example rule Property continuously wavy, the present invention is not limited to this, in other embodiments, support member 151c's Supporting surface 152 is in e.g. the continuously wavy of scrambling, and the supporting surface 152 of support member 151c is In wavy circumferential wall in addition to the more stable support force of diffusion sheet 13 is provided, also can be in diffusion sheet 13 when tilting, by supporting surface 152 continuously wavy adjusting diffusion sheet 13 to horizontality, its In for example, 90 degree of the second angle theta 2 (scheming not indicating).As shown in Figure 4 D, the outward appearance of support member 151d Shape is, for example, outward-dipping plates, and except support member 151d, body less likely affects entirety in the form of sheets Outside the optical appearance of light source module 1, outward-dipping plates also can increase the area supporting diffusion sheet 13 Domain scope, the wherein second angle theta 2 for example, 45 degree (figure does not indicate).As shown in Figure 4 E, support member The face shaping of 151e is, for example, outward-dipping circumferential wall, except providing diffusion sheet 13 more stable Outside support force, outward-dipping circumferential wall also can increase the regional extent supporting diffusion sheet 13, wherein Second angle theta 2 for example, 45 degree (figure does not indicate).

Refer to Fig. 5 and Fig. 6, Fig. 5 is the section of the light source module 1a of another embodiment of the present invention Diagram.Fig. 6 is the surface structure schematic diagram of the lens arrangement 14 shown in Fig. 5 and support unit 15a. As shown in figs. 5 and 6, the light source module 1a of the present embodiment is similar with the light source module 1 shown in Fig. 1, Difference is, the support unit 15a of the present embodiment includes socket part 155 and is configured at socket part Support member 151 on 155.In the present embodiment, support unit 15a is sheathed on socket part 155 The periphery 144 of the top surface 141 of mirror structure 14 is with side 142 so that support member 151 is located at lens knot The periphery 144 of structure 14 top surface 141, wherein side 142 is connected with top surface 141.Additionally, user Suitable lens arrangement 14 can be selected according to actual demand, then by this support unit 15a with socket part 155 It is sheathed on lens arrangement 14, because support unit 15a can be applicable to the lens arrangement 14 of different aspects, There is the practicality being easy to that user selects use.

Refer to Fig. 7, Fig. 7 is the lens arrangement 14 shown in Fig. 5, support unit 15a and reflector plate 16 schematic side view.The socket part 155 of the support unit 15a of the present embodiment is in vertical proliferation piece 13 Direction on height be Z, and the spacing between reflector plate 16 and diffusion sheet 13 be H, then socket part The relational expression of 0.05 (X+Y) Z 0.5 (X+Y) is met between 155 height Z and spacing H.Enter one For step, when the height Z of socket part 155 is too little, support unit 15a is easily separated from lens arrangement 14 and cannot be firmly placed on lens arrangement 14, but when the height Z of socket part 155 is too big, Socket part 155 can be blocked affects the light of integrated light source module 1a from the light of lens arrangement 14 outgoing Learn performance, and due to meeting 0.05 (X+Y) between the height Z of the socket part 155 of the present embodiment and spacing H The relational expression of Z 0.5 (X+Y), when can avoid the above-mentioned height Z when socket part 155 too little or be too big Caused problem.

As shown in Figures 5 to 7, the outward appearance shape of the support member 151 of the support unit 15a of the present embodiment Shape is, for example, column, but the present invention is not limited to this, in other embodiments, support member 151 Can have multiple different face shapings, for example plates, circumferential wall, supporting surface are in wavy Circumferential wall, outward-dipping plates and outward-dipping circumferential wall, above-mentioned support member 151 Different face shapings be analogous respectively to the face shaping of the support member shown in Fig. 4 A to Fig. 4 E, here No longer describe in detail.

In sum, embodiments of the invention can reach at least one of following advantages or effect. The support unit of the embodiment of the present invention, lens arrangement and light source module, it is in the week of lens arrangement top surface At least one support member is configured on edge, in order to support diffusion sheet, and maintains between diffusion sheet and light source Distance, additionally, the area A ' on the support member composition surface and area A of lens arrangement top surface, meets 0.03A This relational expression of A ' 0.5A, under such structure design, need not on the backboard of framework volume The traditional support column of outer configuration, saves the structure that traditional support column is engaged with backboard, even and if in light In the case of learning distance (OD) shortening, also need not increase the usage quantity of traditional support column, effectively reach Become reduces cost and effect of lifting display device picture quality.Additionally, support unit is with socket part It is sheathed on lens arrangement, can be applicable to the lens arrangement of different aspects, have and be easy to user and select The practicality using.

The foregoing is only the preferred embodiments of the present invention and it is impossible to present invention enforcement is limited with this Scope, all simple equivalence changes made according to claims of the present invention and description and modification, All still fall within the range of patent of the present invention covers.In addition any embodiment of the present invention or claim Be not necessary to reach disclosed herein whole purposes or advantage or feature.Additionally, summary and title are only It is used for assisting patent document retrieval to be used, be not used for limiting the interest field of the present invention.Additionally, this Terms such as " first ", " second " that refer in specification or claim is only in order to name element (element) Title or the different embodiments of difference or scope, and be not used for the quantitative upper limit of restriction element or under Limit.

【Symbol description】

1、1a：Backlight module

11：Framework

12：Light source

13：Diffusion sheet

14：Lens arrangement

15、15a：Support unit

16：Reflector plate

17：Optics face group

111：Backboard

112：Front frame

121：Substrate

122：Light-emitting component

140：Lens body

141：Top surface

142：Side

143：Fixed pin

144：Periphery

151、151a-151e：Support member

152：Supporting surface

153：Composition surface

154：Outer surface

155：Socket part

X、Y：Highly

H：Spacing

Z：Highly

A、A’、A”：Area

θ1、θ2：Angle

L：Normal

Claims (27)

1. a kind of light source module, including：

One framework；

At least one light source, is configured in this framework；

One diffusion sheet, is configured on the optical path of a light that this light source is sent；

At least one lens arrangement, is configured between this light source and this diffusion sheet, this lens arrangement includes One towards this diffusion sheet top surface；And

At least one support unit, is configured between this lens arrangement and this diffusion sheet, this support unit Including the support member of at least one periphery configuration along this top surface, this support member includes a relative support Face and a composition surface, this supporting surface contacts this diffusion sheet, with respect to this top surface, wherein should in this composition surface The area on composition surface is A ', and the area of this top surface of this lens arrangement is A, and 0.03A A ' 0.5A.

2. light source module as claimed in claim 1 is it is characterised in that this support member of this support unit It is engaged in this top surface of this lens arrangement with this composition surface.

3. light source module as claimed in claim 1 is it is characterised in that this support unit is tied with this lens Structure is formed in one.

4. light source module as claimed in claim 1 it is characterised in that this support unit this at least one The quantity of individual support member is multiple, and the area on these composition surfaces of these support members is summed up as A ", and 0.03A≦A”≦0.5A.

5. light source module as claimed in claim 1, also includes a reflector plate being configured on this light source, Wherein height on a direction of this diffusion sheet vertical for this lens arrangement is X, and this support member is in the party Height upwards is Y, and the spacing between this reflector plate and this diffusion sheet is H, and 0.9H X+Y 1.1H.

6. light source module as claimed in claim 1 it is characterised in that this light source include a substrate with many The individual light-emitting component being configured on this substrate, and the quantity of this at least one lens arrangement is multiple, this A little lens arrangements correspond to these light-emitting components, and this support unit is configured at these lens arrangements at least One of them is and this diffusion sheet between.

7. light source module as claimed in claim 1 is it is characterised in that this support member of this support unit Also include the outer surface between this supporting surface of a connection and this composition surface and to pass through this supporting surface and be somebody's turn to do Junction between outer surface the normal perpendicular to this diffusion sheet, have between this normal and this outer surface There is one first angle, this first angle is θ₁, and 0 degree of θ₁45 degree.

8. light source module as claimed in claim 7 it is characterised in that this outer surface of this support member with There is between this top surface of this lens arrangement one second angle, this second angle is θ₂, and 45 degree of θ₂ 135 degree.

9. light source module as claimed in claim 1 it is characterised in that this lens arrangement also include one with The side that top surface connects, this support unit also includes a socket part, and this support member is configured at this socket part, And this support unit is sheathed on this side of this lens arrangement with this socket part.

10. light source module as claimed in claim 9 is configured at this light it is characterised in that also including one Reflector plate on source, wherein this socket part height on a direction of this diffusion sheet vertical is Z, and this is anti- Penetrating the spacing between piece and this diffusion sheet is H, and 0.05 (X+Y) Z 0.5 (X+Y).

11. light source modules as claimed in claim 1 are it is characterised in that this support of this support unit The face shaping of part includes plates, a column and a circumferential wall.

A kind of 12. lens arrangements, for a light source module, this light source module include at least one light source with And one be configured at diffusion sheet on the optical path of a light that this light source is sent, this lens arrangement bag Include：

One lens body, is configured between this light source and this diffusion sheet, this lens body include one towards The top surface of this diffusion sheet；And

One support unit, is configured between this lens body and this diffusion sheet, this support unit include to The support member of the few one periphery configuration along this top surface, this support member includes a relative supporting surface and Composition surface, this supporting surface is used for contacting this diffusion sheet, and this composition surface connects with respect to this top surface, wherein this The area in conjunction face is A ', and the area of this top surface of this lens arrangement is A, and 0.03A A ' 0.5A.

13. lens arrangements as claimed in claim 12 are it is characterised in that this support of this support unit Part is engaged in this top surface of this lens arrangement with this composition surface.

14. lens arrangements as claimed in claim 12 are it is characterised in that this support unit and this lens Main body is formed in one.

15. lens arrangements as claimed in claim 12 it is characterised in that this support unit this at least The quantity of one support member is multiple, and the area on these composition surfaces of these support members is summed up as A ", and 0.03A≦A”≦0.5A.

16. lens arrangements as claimed in claim 12 are it is characterised in that this support of this support unit Part also includes an outer surface being connected between this supporting surface and this composition surface and and passes through this supporting surface Junction and this outer surface between the normal perpendicular to this diffusion sheet, this normal and this outer surface it Between there is one first angle, this first angle is θ₁, and 0 degree of θ₁45 degree.

17. lens arrangements as claimed in claim 16 are it is characterised in that this outer surface of this support member There is and this top surface of this lens body between one second angle, this second angle is θ₂, and 45 degree θ₂135 degree.

18. lens arrangements as claimed in claim 12 are it is characterised in that this lens body also includes one The side being connected with top surface, this support unit also includes a socket part, and this support member is configured at this socket Portion, and this support unit is sheathed on this side of this lens body with this socket part.

19. lens arrangements as claimed in claim 18 are it is characterised in that this socket part is in this expansion vertical Height on one direction of discrete piece is Z, and this lens body height in this direction is X, this support member Height in this direction is Y, and 0.05 (X+Y) Z 0.5 (X+Y).

20. lens arrangements as claimed in claim 12 are it is characterised in that this support of this support unit The face shaping of part includes plates, a column and a circumferential wall.

A kind of 21. support units, for a light source module, this light source module include at least one light source, One diffusion sheet and being configured on the optical path of a light that this light source is sent is configured at this light Lens arrangement between source and this diffusion sheet, this lens arrangement include one towards this diffusion sheet top surface, This support unit includes：

At least one support member, for being configured at the periphery of this top surface of this lens arrangement, this support member Including a relative supporting surface and a composition surface, this supporting surface is used for contacting this diffusion sheet, this composition surface With respect to this top surface, the wherein area on this composition surface is A ', and the area of this top surface of this lens arrangement is A, and 0.03A A ' 0.5A.

22. support units as claimed in claim 21 are it is characterised in that this support member is with this composition surface It is engaged in this top surface of this lens arrangement.

23. support units as claimed in claim 21 are it is characterised in that this at least one support member Quantity is multiple, and the area on these composition surfaces of these support members is summed up as A ", and 0.03A A " 0.5A.

24. support units as claimed in claim 21 are it is characterised in that this support member also includes one even Be connected to outer surface between this supporting surface and this composition surface and pass through this supporting surface and this outer surface it Between junction and the normal perpendicular to this diffusion sheet, have one first between this normal and this outer surface Angle, this first angle is θ₁, and 0 degree of θ₁45 degree.

25. support units as claimed in claim 24 are it is characterised in that this outer surface of this support member There is and this top surface of this lens arrangement between one second angle, this second angle is θ₂, and 45 degree θ₂135 degree.

26. support units as claimed in claim 21 are it is characterised in that this lens arrangement also includes one The side being connected with top surface, this support unit also includes a socket part, and this support member is configured at this socket Portion, and this support unit is sheathed on this side of this lens arrangement with this socket part.

27. support units as claimed in claim 21 are it is characterised in that the face shaping of this support member Including plates, a column and a circumferential wall.