CN203260626U - Novel automation complete equipment for LED module group packaging - Google Patents

Abstract

Disclosed in the utility model is novel automation complete equipment for LED module group packaging. The automation complete equipment comprises a feed mechanism, a cover lens mechanism, a blanking mechanism, a flanging mechanism, a glue injection mechanism, a transmission mechanism, thereby realizing various packaging processes, including conversion and integration of feeding, lens covering, blanking, flanging, and glue injection processes, of an LED substrate. On the basis of the traditional LED module group flanging, lens covering, and glue injection devices, the feed mechanism, the blanking mechanism, and the transmission mechanism are added and interfaces among the original devices and the automatic feed, blanking and transmission mechanisms are also arranged, thereby realizing integration of all the devices, packaging automation of the LED module group. Therefore, the packaging efficiency of the LED module group is improved and the labor cost is saved.

Description

New LED module packaging automation complete set of equipments

Technical field

The utility model relates generally to semiconductor application and encapsulation field, relates in particular to LED module packaging technical field.

Background technology

The great power LED volume is little, the life-span is long, electro-optical efficiency is high, is the 4th generation " green illumination light source ".In light source manufacturings such as street lamp, flood lights, be with a wide range of applications, be subject to increasing attention.The encapsulation of LED module is the terminal critical process that the LED light fixture is made.

Be illustrated in figure 1 as LED disjunctor lens module, 11 are the LED disjunctor lens carrier before cutting edge, and 12 is the substrate of LED module, comprises aluminium base, ceramic wafer etc., 13 is led chip, 14 are LED lens installation groove, and 15 are the LED disjunctor lens carrier after cutting edge, and 16 is simple grain LED lens, 17 is the LED hole for injecting glue, 18 is the LED steam vent, and Fig. 1 a is the schematic diagram before the LED lid lens, and Fig. 1 b is the schematic diagram after the LED lid lens.

The packaging technology of LED module comprises: the material loading of LED disjunctor lens, substrate, lid lens, the blanking of LED disjunctor lens carrier after cutting edge, a plurality of techniques such as the flanging of LED lens and injecting glue.The encapsulation of tradition LED module, manual mode is all adopted in the blanking of the material loading of LED disjunctor lens, substrate and the rear LED disjunctor lens carrier of cutting edge; And lid lens, side cut and injection process adopt independently equipment, and effectively not integrated each other, the percent of automatization of LED module packaging is not high.

The utility model content

For above-mentioned technical problem, the utility model is intended to solve the problems of the technologies described above at least to a certain extent.

The utility model provides a kind of New LED module packaging automation complete set of equipments, comprises connecting gear, the feed mechanism that sets gradually along this connecting gear, lid lens mechanism, cutting agency, blank body and gum-filling mechanism,

Described connecting gear comprises 2 transmission guide rails that are arranged in parallel, the arranged outside of this transmission guide rail one end has disjunctor lens carrier magazine and LED substrate magazine, Timing Belt moves along transmitting guide rail under the driving of servomotor, described transmission guide rail inboard is provided with the normal direction briquetting that regulating wheel, described transmission guide rail top are provided with the loading and unloading station, and the bottom is provided with support;

The feed mechanism of described LED module packaging and cutting agency all adopt the single armed truss structure, comprise the horizontal cross-arm that supported by charging and discharging mechanism bracing frame 508, described horizontal cross-arm one end is provided with and drives y that y moves to Timing Belt to motor, also be vertically installed with on the described horizontal cross-arm and be subjected to y to drive the upright arm that can move around along horizontal cross-arm to Timing Belt, described upright arm is provided with the first feed screw nut pair, the first feed screw nut pair is connected to motor-driven with the z on upright arm top, and the upright arm bottom is provided with sucker;

Described lid lens mechanism comprises vertical the first fixing sub-truss, the first positioning baseplate, the lens that from bottom to top are arranged on the first sub-truss are cut edge upper masterplate, the first top board, a z to motor, a described z drives cut edge upper masterplate, the first top board of the first positioning baseplate, lens to motor by feed screw nut pair and moves up and down, and described the first positioning baseplate below also is provided with lens and cuts edge lower masterplate, the first location Double Tops pin and a z to positioning support;

Described blank body comprises vertical the second fixing sub-truss, from bottom to top be arranged on masterplate in the second positioning baseplate on the second sub-truss, the lens hot pressing,, the second top board, the 2nd z be to motor, described the 2nd z drives by feed screw nut pair to motor that masterplate, the second top board move up and down in the second positioning baseplate, the lens hot pressing, and the second positioning baseplate below also is provided with masterplate under the lens hot pressing, the second location Double Tops pin and the 2nd z to positioning support;

Described gum-filling mechanism comprises vertical the 3rd fixing sub-truss, from bottom to top be arranged on positioning pressuring plate on the 3rd sub-truss, guide pad, upper masterplate, the 3rd z to motor, be provided with guiding injecting glue piston rod and glue injecting head between described guide pad, the upper masterplate, described the 3rd z moves up and down by the second feed screw nut pair driving positioning pressuring plate, guide pad, upper masterplate to motor, and described positioning pressuring plate below arranges lower masterplate, the 3rd location Double Tops pin, the 3rd z to positioning support.

Further, described sucker is pneumatic Dual suction cups.

Further, the quantity of described support is more than 6 or 6.

Compared with prior art, the beneficial effects of the utility model are: the utility model is on the flanging of traditional LED module, lid lens and glue injection equipment basis, feed mechanism, cutting agency and connecting gear have been added, designed simultaneously the interface between each existing equipment and automation material loading, blanking and the connecting gear, thereby realized the integrated of each equipment room, realize the encapsulation automation of LED module, so not only improved the packaging efficiency of LED module, also saved labour cost simultaneously.

Description of drawings

Fig. 1 a is the schematic diagram before the LED disjunctor lens module lid lens.

Fig. 1 b is the schematic diagram after the LED disjunctor lens module lid lens.

Fig. 2 is New LED module packaging automation complete set of equipments schematic diagram.

Fig. 3 is the system block diagram of LED module packaging equipment.

Fig. 4 is the connecting gear schematic diagram in the LED module packaging complete set of equipments.

Fig. 5 a is that schematic diagram is looked on material loading, the cutting agency right side in the LED module packaging complete set of equipments.

Fig. 5 b is that material loading, the cutting agency master in the LED module packaging complete set of equipments looks schematic diagram.

Fig. 5 c is material loading, the cutting agency schematic top plan view in the LED module packaging complete set of equipments.

Fig. 6 a is that schematic diagram is looked on the lid lens mechanism right side in the LED module packaging complete set of equipments.

Fig. 6 b is that the lid lens mechanism master in the LED module packaging complete set of equipments looks schematic diagram.

Fig. 6 c is the lid lens mechanism schematic top plan view in the LED module packaging complete set of equipments.

Fig. 7 a is that schematic diagram is looked on the blank body right side in the LED module packaging complete set of equipments.

Fig. 7 b is that the blank body master in the LED module packaging complete set of equipments looks schematic diagram.

Fig. 7 c is the blank body schematic top plan view in the LED module packaging complete set of equipments.

Fig. 8 a is that schematic diagram is looked on the gum-filling mechanism right side in the LED module packaging complete set of equipments.

Fig. 8 b is that the gum-filling mechanism master in the LED module packaging complete set of equipments looks schematic diagram.

Fig. 8 c is the gum-filling mechanism schematic top plan view in the LED module packaging complete set of equipments.

Embodiment

Below in conjunction with drawings and Examples the utility model is described in further detail.

Need to prove that accompanying drawing only is used for exemplary illustration, can not be interpreted as the restriction to this patent; To those skilled in the art, in the accompanying drawing some known configurations and explanation thereof may to omit be understandable.

Below in conjunction with accompanying drawing embodiment of the present utility model is further elaborated.

Such as Fig. 2, shown in Figure 3, a kind of New LED module packaging automation complete set of equipments comprises connecting gear 26, the feed mechanism 21 that sets gradually along this connecting gear 26, lid lens mechanism 22, cutting agency 23, blank body 24 and gum-filling mechanism 25,

As shown in Figure 4, described connecting gear 26 comprises 2 transmission guide rails 408 that are arranged in parallel, Timing Belt 403 moves along transmitting guide rail 408 under the driving of servomotor 407, described transmission guide rail 408 inboards are provided with the normal direction briquetting 405 that regulating wheel 404, described transmission guide rail 408 tops are provided with the loading and unloading station, and the bottom is provided with supports 406; This connecting gear is from left to right with the feeding station of this corresponding LED module packaging, lid lens station, blanking station, flanging station and injecting glue station;

Connecting gear 26 adopts the mode of synchronous double pulley transmission, guide rail size: 50 mm * 1000mm.Every limit Timing Belt 403 is designed with eight regulating wheels 404, is designed with the locating piece of normal direction compact heap 405 and the direction of motion at feeding station, blanking station, realizes the location of LED lens carrier; At lid lens station, flanging station and injecting glue station, be designed with Double Tops needle construction 409, realize the location of LED substrate and the encapsulation of LED module; Simultaneously, two guide rails of transmission mechanism are fixed in six supports 406.

Such as Fig. 5 a, 5b, shown in the 5c, feed mechanism 21 and the cutting agency 23 of described LED module packaging all adopt the single armed truss structure, comprise and be arranged on disjunctor lens carrier magazine 401 and the LED substrate magazine 402 that transmits guide rail 408 1 end both sides, also comprise the horizontal cross-arm that supported by charging and discharging mechanism bracing frame 508, described horizontal cross-arm one end is provided with and drives y that y moves to Timing Belt 504 to motor 503, also be vertically installed with on the described horizontal cross-arm and be subjected to y to drive the upright arm that can move around along horizontal cross-arm to Timing Belt 504, described upright arm is provided with the first feed screw nut pair 506, the first feed screw nut pair 506 is in transmission connection to motor 505 with the z on upright arm top, the upright arm bottom is provided with sucker 507, feed mechanism is mainly realized the LED substrate is taken out and is put on the conveyer belt from substrate box 402, and LED disjunctor lens are taken out and be put on the LED substrate and its contraposition from disjunctor lens kit 401;

Feed mechanism 21 and cutting agency 23 based on Timing Belt 504, are realized the motion on the y direction on the y direction of front and back; On height z direction, based on 506 transmissions of the first feed screw nut pair, realize the motion on the z direction.Y direction Timing Belt 504 centre-to-centre spacing are 240mm; Y direction and z traversing guide length are 240mm and 100mm, and the y traversing guide adopts square rail.Picking up and locating of LED substrate and LED disjunctor lens adsorbed the mode of locating with the pneumatic Dual suction cups 507 of employing, and sucker 507 diameters are 12mm.

Such as Fig. 6 a, 6b, shown in the 6c, described lid lens mechanism 22 comprises vertical the first fixing sub-truss 603, from bottom to top be arranged on the first positioning baseplate 601 on the first sub-truss 603, the upper masterplate 602 of lens side cut, the first top board 604, the one z is to motor 605, a described z drives the first positioning baseplate 601 to motor 605 by feed screw nut pair, the upper masterplate 602 of lens side cut, the first top board 604 moves up and down, and described the first positioning baseplate 601 belows also are provided with the lower masterplate 606 of lens side cut, the first location Double Tops pin 607 and a z are to positioning support 608.The lid lens mechanism is realized the threshing with LED disjunctor lens mainly based on shaving die, and makes every lens be installed to lens recess in the substrate, realizes physical engagement.

When Timing Belt 403 is sent to LED substrate and disjunctor lens when covering the lens station, the one z is to positioning support 608 along short transverse jack-up, the first location Double Tops pin 607 cooperates with location hole on the LED substrate, and realization is to the Double Tops pin alignment by union of LED substrate and disjunctor lens.The shaving die of lid lens mechanism adopts the traditional structure form, comprises the lower masterplate 606 of lens side cut cope match-plate pattern 602 and lens side cut.After the first Double Tops pin 607 location, a z continues to move upward to positioning support 608 along short transverse at LED substrate and disjunctor lens; Simultaneously, the first top board 604, lens side cut cope match-plate pattern 602, move downward along screw mandrel under motor 605 effects at a z, finally realize the matched moulds of bolster, and LED disjunctor lens are realized the threshing of lens under the effect of side cut bolster.

Shown in Fig. 7 a, 7b, 7c, described blank body 24 comprises vertical the second fixing sub-truss 703, from bottom to top be arranged on masterplate 702 in the second positioning baseplate 701 on the second sub-truss 703, the lens hot pressing,, the second top board 704, the 2nd z be to motor 705, described the 2nd z to motor 705 by feed screw nut pair drive masterplate 702 in the second positioning baseplate 701, the lens hot pressing, the second top board 704 moves up and down, the second positioning baseplate 701 belows also are provided with masterplate 706 under the lens hot pressing, the second location Double Tops pin 707 and the 2nd z to positioning support 708.Blank body is realized the hot pressing of LED rims of the lens is made between every lens and the lens recess and realizes tight fit mainly based on edge pressing mould.

When Timing Belt 403 is sent to the flanging station with LED substrate and disjunctor lens, the 2nd z is to positioning support 708 along short transverse jack-up, the second location Double Tops pin 707 cooperates with location hole on the LED substrate, and realization is to the Double Tops pin alignment by union of LED substrate and disjunctor lens.The edge pressing mould of LED lens adopts the traditional structure form, comprises lens hot pressing cope match-plate pattern 702 and lens hot pressing lower bolster 706.After LED substrate and disjunctor lens Double Tops pin location, the 2nd z continues to move upward to positioning support 708 along short transverse; Simultaneously, the second top board 704, lens side cut cope match-plate pattern 702 are under the 2nd z acts on to motor 705, move downward along screw mandrel, the final matched moulds of realizing bolster, LED disjunctor lens are realized realizing tight fit between every lens and the lens recess under the effect of hot pressing template up and down.

Such as Fig. 8 a, 8b, shown in the 8c, described gum-filling mechanism 25 comprises vertical the 3rd fixing sub-truss 803, from bottom to top be arranged on positioning pressuring plate 804 on the 3rd sub-truss 803, guide pad 805, upper masterplate 808, the 3rd z is to motor 806, described guide pad 805, be provided with guiding injecting glue piston rod and glue injecting head 809 between the upper masterplate 808, described the 3rd z drives positioning pressuring plate 804 to motor 806 by the second feed screw nut pair 807, guide pad 805, upper masterplate 808 moves up and down, and described positioning pressuring plate 804 belows arrange lower masterplate 801, the 3rd location Double Tops pin 802, the 3rd z is to positioning support 810.The main scioptics hole for injecting glue of gum-filling mechanism is toward LED lens the inside injecting glue.

When Timing Belt 403 is sent to the injecting glue station with LED substrate and disjunctor lens, the 3rd z is to positioning support 810 along short transverse jack-up, the 3rd location Double Tops pin 802 cooperates with location on the LED substrate, and realization is to the Double Tops pin alignment by union of LED substrate and disjunctor lens.The injecting glue of LED lens is based on guiding injecting glue piston rod and glue injecting head 809 is realized.After LED substrate and disjunctor lens Double Tops pin location, the 3rd z continues to move upward to positioning support 810 along short transverse; Simultaneously, guiding injecting glue piston rod and glue injecting head 809, move downward along screw mandrel under motor 805 effects at cope match-plate pattern 808 and the 3rd z, finally realize matched moulds and the injecting glue of bolster.

Based on modular design method, the blank body sub-truss is identical with covering lens mechanism, and the main distinction is:

(1) compare lens side cut cope match-plate pattern 602 and lens side cut lower bolster 606 in the lid lens mechanism 22 shown in Fig. 6 a, 6b, the 6c, blank body 24 becomes lens hot pressing cope match-plate pattern 702 and lens hot pressing lower bolster 706, the function of not cutting edge;

(2) compare the lid lens mechanism 22 shown in Fig. 6 a, 6b, the 6c, the lens hot pressing cope match-plate pattern 702 of blank body 24 and the second top board 704 have comprised heating function many, realize the heating of hot pressing sleeve by heating rod.

Based on modular design method, gum-filling mechanism 25 sub-trusses are identical with covering lens mechanism 22, and the main distinction is:

(1) compare and cover lens mechanism 22, in the gum-filling mechanism 25, the lens side cut cope match-plate pattern 602 in the lid lens mechanism shown in Fig. 6 a, 6b, the 6c is replaced by guiding injecting glue piston rod and glue injecting head 809; And guiding injecting glue piston rod and glue injecting head 809 sizes and the accuracy of form and position are all than lens side cut cope match-plate pattern 602 height.

(2) compare lens side cut cope match-plate pattern 602 in the middle cover lens mechanism shown in Fig. 6 a, 6b, the 6c, the guide pad more than 805 of gum-filling mechanism always enter Jiao Kou, and the injecting glue pole pair liquid glue intercommunicating pore of answering.

Obviously, that describes position relationship in the accompanying drawing only is used for exemplary illustration, can not be interpreted as the restriction to this patent; Above-described embodiment of the present utility model only is for the utility model example clearly is described, and is not to be restriction to execution mode of the present utility model.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here need not also can't give all execution modes exhaustive.All any modifications of within spirit of the present utility model and principle, doing, be equal to and replace and improvement etc., all should be included within the protection range of the utility model claim.

Claims (3)

1. New LED module packaging automation complete set of equipments, it is characterized in that: comprise connecting gear (26, along this connecting gear (26 feed mechanisms that set gradually (21), lid lens mechanism (22), cutting agency (23), blank body (24) and gum-filling mechanism (25), described connecting gear comprises the transmission guide rail (408) that (26) root is arranged in parallel, the arranged outside of these transmission guide rail (408) one ends has disjunctor lens carrier magazine (401) and LED substrate magazine (402), Timing Belt (403) is mobile along transmitting guide rail (408) under the driving of servomotor (407), described transmission guide rail (408) inboard is provided with regulating wheel (404), described transmission guide rail (408) top is provided with the normal direction briquetting (405) of loading and unloading station, and the bottom is provided with support (406);

The feed mechanism of described LED module packaging (21) and cutting agency (23) all adopt the single armed truss structure, comprise the horizontal cross-arm that supported by charging and discharging mechanism bracing frame (508), described horizontal cross-arm one end is provided with and drives y to the mobile y of Timing Belt (504) to motor (503), also be vertically installed with on the described horizontal cross-arm and be subjected to y to drive the upright arm that can move around along horizontal cross-arm to Timing Belt (504), described upright arm is provided with the first feed screw nut pair (506), the first feed screw nut pair (506) is in transmission connection to motor (505) with the z on upright arm top, and the upright arm bottom is provided with sucker (507);

Described lid lens mechanism comprises vertical fixing the first sub-truss (603), from bottom to top be arranged on the first positioning baseplate (601) on the first sub-truss (603), the upper masterplate (602) of lens side cut, the first top board (604), the one z is to motor (605), a described z drives the first positioning baseplate (601) to motor (605) by feed screw nut pair, the upper masterplate (602) of lens side cut, the first top board (604) moves up and down, and described the first positioning baseplate (601) below also is provided with the lower masterplate (606) of lens side cut, the first location Double Tops pins (607) and a z are to positioning support (608);

Described blank body comprises vertical fixing the second sub-truss (703), from bottom to top be arranged on the second positioning baseplate (701) on the second sub-truss (703), masterplate in the lens hot pressing (702), the second top board (704), the 2nd z is to motor (705), described the 2nd z drives the second positioning baseplate (701) to motor (705) by feed screw nut pair, masterplate in the lens hot pressing (702), the second top board (704) moves up and down, and the second positioning baseplate (701) below also is provided with masterplate under the lens hot pressing (706), the second location Double Tops pins (707) and the 2nd z are to positioning support (708);

Described gum-filling mechanism comprises vertical fixing the 3rd sub-truss (803), from bottom to top be arranged on positioning pressuring plate (804) on the 3rd sub-truss (803), guide pad (805), upper masterplate (808), the 3rd z is to motor (806), described guide pad (805), be provided with guiding injecting glue piston rod and glue injecting head (809) between the upper masterplate (808), described the 3rd z drives positioning pressuring plate (804) to motor (806) by the second feed screw nut pair (807), guide pad (805), upper masterplate (808) moves up and down, and described positioning pressuring plate (804) below arranges lower masterplate (801), the 3rd location Double Tops pins (802), the 3rd z is to positioning support (810).

2. described LED module packaging automation complete set of equipments according to claim 1, it is characterized in that: described sucker (507) is pneumatic Dual suction cups.

3. described LED module packaging automation complete set of equipments according to claim 1, it is characterized in that: the quantity of described support (406) is more than 6 or 6.

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