CN105070818B

CN105070818B - A kind of morphological control method of LED package lens

Info

Publication number: CN105070818B
Application number: CN201510516022.8A
Authority: CN
Inventors: 郑怀; 郭醒; 楚劲草; 雷翔; 刘胜
Original assignee: Wuhan University WHU
Current assignee: Wuhan University WHU
Priority date: 2015-08-21
Filing date: 2015-08-21
Publication date: 2017-11-10
Anticipated expiration: 2035-08-21
Also published as: CN105070818A

Abstract

The invention discloses a kind of morphological control method of LED package lens, including：Step 1, using spot gluing equipment by the polymer for preparing lens or or melten glass be transferred to LED module, and cover LED chip；Step 2, using spot gluing equipment or micro-syringe by the droplet transfer immiscible with polymer to polymer surfaces；Step 3, using heating solidification polymer, evaporation drop, the lens for having volcano mouth shaped gab are obtained.The present invention is while reducing processing cost, shortening the process-cycle, also greatly improve the surface smoothness of lens, so as to improve LED product optical property, suitable for the various LED packing forms including stent-type, chip on board, array, system encapsulation, printed circuit board (PCB) encapsulation and silicon based package.

Description

A kind of morphological control method of LED package lens

Technical field

The invention belongs to LED encapsulation technologies field, more particularly, to a kind of morphological control method of LED package lens.

Background technology

LED (Light Emitting Diode) is that one kind is based on semiconductor light emitting made of P-N junction electroluminescent principle Device, there is electro-optical efficiency height, service life length, environmental protection and energy saving, small volume, be described as 21 century green illumination Light source.LED, which such as can apply to traditional lighting field, will obtain very significant energy-saving effect, and this is becoming tight in global energy day It is current significant.With the breakthrough using nitride as the third generation semiconductor material technology of representative, based on high-power and high-luminance The semiconductor lighting industry of light emitting diode (LED) is rapidly growing in the whole world, just as the new economy of semi-conductor photoelectronic industry Growth point, and triggered a revolution in traditional lighting field.LED is had begun in many necks due to its unique superiority Domain is used widely, and the main direction of development of following lighting engineering is considered by industry, has huge market potential.

The lens light shape control device main as LED illumination, can not only produce convergent beam, while can also produce diverging Light beam, and the light for all angles that can be sent to LED control effectively, and design freedom is big, implementation is flexible. Especially with the rise of LED illumination free-form surface lens in recent years, the design of various not rounded symmetrical hot spots becomes cleverer It is living with it is convenient.Therefore, lens have obtained increasing application in LED illumination, turn into an important means of optical design, And lens are manufactured as one of key link of LED encapsulation.

To ensure machining accuracy, free-form surface lens generally require to use the accurate Multi-axis Machining with micron order machining accuracy System is processed.However, in actual volume manufacturing process, to improve production efficiency, cost is reduced, often using compression molding Method produces free-form surface lens.The pattern and roughness of lens are determined by the shape and quality of mould completely, to die surface Required precision it is very high.Mould processing is relatively difficult, and cost is higher, and the manufacturing cycle is again long, and easily abrasion, is used for multiple times rear mold Lens are easily damaged when scrapping, and being stripped, residual stress problem can also influence lens use.In addition, temperature, pressure during molding Power, viscosity of polymer fluid etc. may influence the surface topography of free-form surface lens, so as to influence its optical property with shining Obvious results fruit.It can know that traditional moulded lens processing method has wretched insufficiency from the discussion above.Therefore lens pattern control The improvement of method is that current LED illumination industrial quarters realizes the subject matter that low cost, bloom performance products face.

The content of the invention

In view of the deficienciess of the prior art, the invention provides a kind of morphological control method of LED package lens.

The present invention is based on fluid die method, and lens shaped is realized using the immiscible effect for evaporating drop and polymer surfaces The accuracy controlling of looks, while reducing processing cost, improving processing efficiency, it is also ensured that the surface smoothness of lens.

In order to solve the above technical problems, the present invention adopts the following technical scheme that：

A kind of morphological control method of LED package lens, including：

Step 1, using spot gluing equipment by the polymer for preparing lens or or melten glass be transferred to LED module, and cover Firmly LED chip；

Step 2, using spot gluing equipment or micro-syringe by the droplet transfer immiscible with polymer to polymer surfaces；

Step 3, using heating solidification polymer, evaporation drop, the lens for having volcano mouth shaped gab are obtained.

The above-mentioned polymer for preparing lens be silica gel, epoxy resin, makrolon, polymethyl methacrylate, acrylonitrile- SB or polyvinyl chloride.

The above-mentioned and immiscible drop of polymer is water, alcohol, ethylene glycol, cyclohexanol, propane diols or glycerine.

Preferably, in step 2, the droplet size for being transferred to polymer surfaces is not more than 20 microlitres.

Preferably, after by the droplet transfer immiscible with polymer to polymer surfaces, using the company of hydrophilic material Take over the baton and contact drop and advance downwardly, by the size for promoting deep-controlled lens volcano mouth shaped gab.

Described pitman is copper rod or iron staff.

The termination of described pitman contact drop is rounded head.

Compared to the prior art, the present invention has following features and beneficial effect：

1st, the present invention utilizes the interaction of immiscible drop and polymer surfaces, realizes the accuracy controlling of lens pattern, Alternative traditional lens processing method based on compression molding method.

2nd, the present invention is easy and effective, while reducing processing cost, shortening the process-cycle, also greatly improves lens Surface smoothness, so as to improve LED product optical property.

3rd, lens morphological control method of the present invention is applied to include stent-type, chip on board, array, system encapsulation, print Printed circuit board encapsulates and the various LED packing forms including silicon based package.

Brief description of the drawings

Fig. 1 is dispensing process schematic in embodiment 1；

Fig. 2 be embodiment 1 in immiscible droplet transfer to polymer surfaces schematic diagram；

Fig. 3 is the structural representation of lens prepared by the method for embodiment 1；

Fig. 4 is the vertical view micrograph after immiscible droplet transfer to polymer surfaces in embodiment 1；

Fig. 5 is the side micrograph after immiscible droplet transfer to polymer surfaces in embodiment 1；

Fig. 6 is the lens pattern prepared in embodiment 1 using 5 microlitres of immiscible drops；

Fig. 7 is the lens pattern prepared in embodiment 1 using 10 microlitres of immiscible drops；

Fig. 8 is the lens pattern prepared in embodiment 1 using 15 microlitres of immiscible drops；

Fig. 9 is the lens pattern prepared in embodiment 1 using 20 microlitres of immiscible drops；

Figure 10 is the side micrograph of lens pattern prepared by the method for embodiment 1；

Figure 11 is the micro- enlarged drawing in lens volcano mouth shaped gab shown in Figure 10；

Figure 12 is the central cross-section curve of lens prepared by the method for embodiment 1, wherein, figure (a) is that lens centre section is bent Line, figure (b) are the volcano mouth shaped gab sectional curve and fourth-degree polynomial curve comparison diagram of lens in figure (a)；

Figure 13 is the curve of light distribution of the gained lens of embodiment 1；

Figure 14 be lens prepared by the method for embodiment 1 side surface roughness, R_aIt is to take for profile arithmetic average error The arithmetic mean of instantaneous value of sample length Internal periphery offset distance absolute value；

Figure 15 be lens prepared by the method for embodiment 1 top end surface roughness, R_aFor profile arithmetic average error, be The arithmetic mean of instantaneous value of sample length Internal periphery offset distance absolute value；

Figure 16 be lens prepared by the method for embodiment 1 volcano mouth shaped gab inside surface roughness, R_aPut down for profile arithmetic Equal deviation, it is the arithmetic mean of instantaneous value in sample length Internal periphery offset distance absolute value；

Figure 17 is the use schematic diagram of pitman in embodiment 2；

In figure：1-LED modules, 2- polymer, 3- spot gluing equipments, 4- micro-syringes, the immiscible drops of 5-, 6- pitmans, 7- hot plates, 8-LED chips, 9- supports, 10- volcanoes mouth shaped gab.

Embodiment

The present invention is explained in more detail by embodiment below, but following examples are merely illustrative, it is of the invention Protection domain is not limited to these embodiments restrictions.

Embodiment 1

The present invention forms volcano mouth shaped gab by the gravity and surface tension of immiscible drop itself in polymer surfaces, The pattern control of lens is realized in the solidification of evaporation and polymer through immiscible drop.Volcano mouth shaped gab size is by droplet size Control.Immiscible drop refers to the drop immiscible with polymer.

The present embodiment comprises the following steps that：

Step 1, polymer is transferred to LED module, and covers LED chip.

See Fig. 1, polymer (2) is transferred on LED module (1) with spot gluing equipment (3), and cover LED chip (8). Using the controllable amount of polymers being transferred on LED module (1) of spot gluing equipment (3), make it that natural Lambertian state be presented.This Polymer is silica gel in embodiment.

Step 2, by immiscible droplet transfer to polymer surfaces.

See Fig. 2, immiscible drop (5) is transferred to polymer (2) surface using micro-syringe (4).When it is implemented, can Manual operation micro-syringe (4) makes immiscible drop (5) drop to polymer (2) surface, also can automatically will not using spot gluing equipment The drop (5) that mixes is transferred to polymer (2) surface.The immiscible drop of polymer surfaces is dropped to by micro-syringe (4) regulation Size, due to the effect of immiscible Surface Tension of Liquid Drops and Action of Gravity Field, polymer flow and areal deformation are driven, it is poly- so as to realize The Morphological control on compound surface.

Step 3, solidification polymer, immiscible drop is evaporated, obtains the lens of tool volcano mouth shaped gab.

LED module (1) is heated using hot plate (7), evaporates immiscible drop (5), solidification polymer (2), finally The lens for having volcano mouth shaped gab are obtained, see Fig. 3.

Fig. 4~5 are the immiscible droplet transfers of the present embodiment to the vertical view micrograph and side micrograph after Silica Surface.It is logical The immiscible droplet size that micro-syringe control drops to polymer surfaces is crossed, resulting silica-gel lens are shown in Fig. 6~9, Fig. 6 respectively ~9 be the pattern that 5 microlitres, 10 microlitres, 15 microlitres and 20 microlitres of immiscible drop is dropped to lens obtained by Silica Surface respectively. It can be seen that immiscible droplet size is different, driving polymer flow can be variant, as immiscible drop increases, Lens height reduces.

Figure 10~11 are respectively side micrograph and the volcano of the silica-gel lens pattern obtained using the present embodiment method The micro- enlarged drawing of mouth shaped gab.

See Figure 12, the volcano mouth shaped gab sectional curves of the made lens of the present embodiment method fits like a glove quartic polynomial song Line.

Figure 13 is the curve of light distribution that sample is encapsulated using the LED of different-shape lens obtained by the present embodiment method, is schemed In, 0 μ L, 2 μ L, 3 μ L, 4 μ L, 5 μ L represent to drop to the immiscible drop volume of polymer surfaces respectively.The bright the present embodiment of the chart The lens of preparation can make LED light extractions evenly.

Figure 14~16 are respectively the surface roughness of lens diverse location prepared by the present embodiment, using AFM Measurement obtains, surface roughness value R_aLens prepared by respectively less than 4nm, i.e. the present embodiment have very high surface quality.

Embodiment 2

See Figure 17, the present embodiment and the difference of embodiment 1 are：The increase pitman above immiscible drop (5) (6), pitman (6) is hydrophilic material, such as copper rod, iron staff.After immiscible drop (5) drops to polymer (2) surface, connection Rod (6) contacts immiscible drop (5) upper surface, then advances downwardly pitman (6), and immiscible drop is controlled by its adhesion (5) polymer (2) is goed deep into, so as to control the pattern of volcano mouth shaped gab.Pitman (6) contacts one end of immiscible drop (5) For rounded head.

Pitman radius directly determines the size of its lower end absorption drop, and the big absorption drop of its radius is big, the small absorption of radius Drop it is also small, then can change lens surface volcano mouth shaped gab size by changing pitman radius.In addition, pass through the company of control Take over the baton the depth advanced downwardly, also can control lens surface volcano mouth shaped gab size.To sum up, by change pitman radius and Depth is advanced downwardly, the accuracy controlling of lens pattern can be achieved.

The way of contact of drop and polymer surfaces is contact free formula in embodiment 1, drop and polymer in embodiment 2 The way of contact on surface is liquid bridge contact, using different drop contact modes by the different lens patterns of acquisition.

Described above is presently preferred embodiments of the present invention, but the present invention should not be limited to the embodiment and accompanying drawing institute Disclosure.So every do not depart from the lower equivalent or modification completed of spirit disclosed in this invention, guarantor of the present invention is both fallen within The scope of shield.

Claims

A kind of 1. morphological control method of LED package lens, it is characterised in that including：

Step 1, the polymer for preparing lens or melten glass are transferred to by LED module using spot gluing equipment, and cover LED core Piece；

Step 2, using spot gluing equipment or micro-syringe by the droplet transfer immiscible with polymer to polymer surfaces；

Step 3, using heating solidification polymer, evaporation drop, the lens for having volcano mouth shaped gab are obtained.
2. the morphological control method of LED package lens as claimed in claim 1, it is characterised in that：

The described polymer for preparing lens is silica gel, epoxy resin, makrolon, polymethyl methacrylate, acrylonitrile-benzene Ethylene-butadiene copolymer or polyvinyl chloride.
3. the morphological control method of LED package lens as claimed in claim 1, it is characterised in that：

The described drop immiscible with polymer is water, alcohol, ethylene glycol, cyclohexanol, propane diols or glycerine.
4. the morphological control method of LED package lens as claimed in claim 1, it is characterised in that：

In step 2, the droplet size for being transferred to polymer surfaces is not more than 20 microlitres.
5. the morphological control method of LED package lens as claimed in claim 1, it is characterised in that：

After by the droplet transfer immiscible with polymer to polymer surfaces, drop is contacted simultaneously using the pitman of hydrophilic material Advance downwardly, by the size for promoting deep-controlled lens volcano mouth shaped gab.
6. the morphological control method of LED package lens as claimed in claim 5, it is characterised in that：

Described pitman is copper rod or iron staff.
7. the morphological control method of LED package lens as claimed in claim 5, it is characterised in that：

The termination of described pitman contact drop is rounded head.