CN101549545A - Energy-efficient semiconductor plastic package die - Google Patents

Abstract

The invention discloses an energy-efficient semiconductor plastic package die, wherein the upper central casting plate of the upper die box (8) and the lower central casting plate of the lower die box (9) form a closed cavity; the upper die box (8) and the lower die box (9) are provided with gel passages (24) which are hollow pipelines connected with the flow passage (25); the gel passages (24) are connected with an integrated component cavity (26) via the flow passage (25); the casting head (4) is connected with the cavity; the liquid resin of the feeding cylinder (31) is infused via the flow passage and the flow passage (25) by the casting head. The invention overcomes the disadvantages of long casting process of current technology, bad air tightness of plastic-casting products, and complication of insert and mandril exchange. The invention provides a semiconductor plastic package die with large density, convenient disassembly and little plastic package material waste, saves 15%-30% resin, and improves utilization rate of the raw material, which can be applied in the field of IC package.

Description

Energy-efficient semiconductor plastic package die

Technical field

The present invention relates to the equipment of injection mo(u)lding, be specifically related to the sealed in unit of integrated circuit.

Background technology

The semiconductor integrated circuit package mould is that microelectronics Packaging is produced indispensable key processing equipment, and the develop rapidly of microelectronics industry has proposed profound high new demand to the design of semiconductor packaging mold with manufacturing.

The semiconductor packaging mold industry to the requirement of mould is: the one, and requirement fine finishining mould, constantly integrated, the miniaturization of electronic product at present, the product trend is high-end, size is also more and more littler, packaging body is more and more thinner, and this requires more and more higher to encapsulation, require very high to mould and die accuracy.Plastic sealed mould technology is one of extremely important process means during operation is produced behind the semiconductor devices, the general single cylinder encapsulation technology of using, its encapsulated object comprises series of products such as DI P, SOP, QFP, SOT, SOD, TR class discrete device and chip tantalum electric capacity, inductance, bridge circuit.Many injection heads encapsulating mould MGP is the extension of single cylinder Tool and Die Technology, is encapsulating mould main product nowadays.It adopts many barrels, many injection heads packing forms, and advantage is can balanced runner, realize closely filling, and resin utilization rate height, packaging technology is stable, and the goods package quality is good.It is applicable to micro semiconductor device products encapsulation such as SSOP, many rows such as TSS OP, LQFP, fine pith, high density integrated circuit and SOT, SOD.

On November 14th, 2007 was announced, and notification number is: CN 200974321Y, name is called " the many injection heads circuit package mould that is used for the aniseed cake " Chinese patent, discloses a kind of multi-cylinder integrated circuit packaging mould.Deficiencies such as but still there is waste material in this many injection heads circuit package mould that is used for the aniseed cake, and complexity when changing mold insert and push rod, and the time that needs is long, the waste material of odd-numbered day cylinder injection moulding simultaneously is more serious.

Summary of the invention

The present invention has overcome the deficiencies in the prior art, provides to solve wastage of material and the underproof integrated circuit packaging mould of encapsulation.

For solving above-mentioned technical problem, the present invention by the following technical solutions:

Energy-efficient semiconductor plastic package die, cope match-plate pattern 6 are fixed with patrix diaphragm capsule system 8, and lower bolster 7 is fixed with counterdie diaphragm capsule 9; Rack-and-pinion 2 is connected drive to change to be advanced on the plate 3, and moves back and forth up and down, and changes and enters on the plate 3 fixedly injecting head system 4; The following central runner plate UNICOM of injecting head system and counterdie diaphragm capsule 9; Commentaries on classics is advanced plate 3 drive counterdie push rod power restoring boards 10 and is moved back and forth up and down, and the counterdie push rod power rail 11 drive push rods that power restoring board 10 passes lower bolster 7 by the lathe release link move up, and eject shaped article and running channel; The patrix push rod dynamical system 12 that resets withstands between baffle plate 13 and the patrix diaphragm capsule 8, and the patrix push rod dynamical system 12 that resets drives the patrix push rods and moves down, and ejects shaped article and running channel; After lower bolster 7 moves up, patrix diaphragm capsule 8 is fitted with counterdie diaphragm capsule 9, it is characterized in that the last central runner plate in the patrix diaphragm capsule 8 and the following central runner plate of counterdie diaphragm capsule 9 form the cavity that seals, in patrix diaphragm capsule 8 and the counterdie diaphragm capsule 9 glue road 24 is arranged, glue road 24 is hollow pipelines, be communicated with runner 25, glue road 24 links by runner 25 and integrated component cave 26; Injecting head 4 and cavity UNICOM; Liquid resin in the casing drum 31 injects liquid resin by glue road 24 through runner 25 by injecting head.

Further technical scheme is that the section of runner 25 is an arc.

Further technical scheme is that patrix diaphragm capsule 8 16 slips into fast and removes in patrix diaphragm capsule fixed head, and counterdie diaphragm capsule 9 15 slips into fast and removes in counterdie diaphragm capsule fixed head by chute device.

Further technical scheme is that the front of going up on the central plate that embeds between central runner plate and the following central runner plate has air discharge duct, and there is air discharge duct in the front of moulding bar.

Further technical scheme is 0.8 millimeter of an exhaust groove width, dark 0.015 millimeter air discharge duct.

Further technical scheme is that injecting head is one or more.

Further technical scheme is that the interior diameter of casing drum 31 is 45 millimeters, and overall diameter is 55 millimeters.

Further technical scheme is that single cylinder injection moulding central plate width is 70 millimeters.

Energy-efficient semiconductor encapsulating mould according to claim 7 is characterized in that the injection moulding barrel in the described central plate is a hollow pipe, directly is communicated with runner 25.

Compared with prior art, the invention has the beneficial effects as follows that injection cylinder density is big, mounting or dismounting are convenient, and the plastic packaging material less wastage is saved resin 15% to 30%, has improved raw material availability, occur crackle, pore, pinprick, the discontented problem of envelope when having reduced encapsulation.The running channel volume has been accomplished little and reasonable under the assurance product quality premise, because the production of semiconductor products amount is big, waste material has the characteristics of not recyclable property, has not only reduced the semiconductor production cost, has brought good social enviroment protection benefit simultaneously.

The present invention is perfect frame not only, used advanced HGNX design software sunykatuib analysis technology simultaneously, solve single cylinder and the existing main running channel long flow path of multi-cylinder injection moulding, the plastic packaging products air tightness is poor, in bubble, pinprick arranged, lack deficiencies such as envelope, not only improved product quality, simultaneously the plastic packaging material materials are reduced to the most rational degree, energy efficient is remarkable.Reduce the production cost, improve competitive power of product.

Description of drawings

Fig. 1 is a structural representation of the present invention.

Fig. 2 is the running channel schematic diagram of multi-cylinder injection moulding of the present invention.

Fig. 3 is the running channel schematic diagram of single cylinder injection moulding of the present invention.

Fig. 4 is the generalized section of running channel of the present invention.

The specific embodiment

The present invention is further elaborated below in conjunction with accompanying drawing.

Embodiment 1

Multi-cylinder injection moulding energy-efficient semiconductor plastic package die as shown in Figure 1, cope match-plate pattern 6 is fixed with patrix diaphragm capsule system 8, and lower bolster 7 is fixed with counterdie diaphragm capsule 9; Rack-and-pinion 2 is connected drive to change to be advanced on the plate 3, and moves back and forth up and down, and changes and enters on the plate 3 fixedly injecting head system 4; The following central runner plate UNICOM of injecting head system and counterdie diaphragm capsule 9; Commentaries on classics is advanced plate 3 drive counterdie push rod power restoring boards 10 and is moved back and forth up and down, and the counterdie push rod power rail 11 drive push rods that power restoring board 10 passes lower bolster 7 by the lathe release link move up, and eject shaped article and running channel; The patrix push rod dynamical system 12 that resets withstands between baffle plate 13 and the patrix diaphragm capsule 8, and the patrix push rod dynamical system 12 that resets drives the patrix push rods and moves down, and ejects shaped article and running channel; After lower bolster 7 moves up, patrix diaphragm capsule 8 is fitted with counterdie diaphragm capsule 9, it is characterized in that the last central runner plate in the patrix diaphragm capsule 8 and the following central runner plate of counterdie diaphragm capsule 9 form the cavity that seals, in patrix diaphragm capsule 8 and the counterdie diaphragm capsule 9 glue road 24 is arranged, glue road 24 is hollow pipelines, be communicated with runner 25, glue road 24 links by runner 25 and integrated component cave 26; Injecting head 4 and cavity UNICOM; Liquid resin in the casing drum 31 injects liquid resin by glue road 24 through runner 25 by injecting head.Glue road 24 is that hollow pipeline and runner 25 is communicated with as shown in Figure 2, and glue road 24 links by runner 25 and integrated component cave 26.Injecting head 4 and cavity UNICOM.The interior diameter of casing drum 31 is 45 millimeters, and overall diameter is 55 millimeters.Liquid resin in the casing drum 31 injects liquid resin by glue road 24 through runner 25 by 1 injecting head.Injection moulding barrel in the central plate is a hollow pipe, directly is communicated with runner 25.As shown in Figure 4, the section of runner 25 is an arc.Patrix diaphragm capsule 8 16 slips into fast and removes in patrix diaphragm capsule fixed head, and counterdie diaphragm capsule 9 15 slips into fast and removes in counterdie diaphragm capsule fixed head by chute device.There is air discharge duct in the central plate width front that embeds between last central runner plate and the following central runner plate, and there is air discharge duct in the front of moulding bar.0.8 millimeter of exhaust groove width, dark 0.015 millimeter air discharge duct.

Patrix diaphragm capsule 8 and counterdie diaphragm capsule 9 are fixed with regard to the structure of drawer-like formula mode, are convenient to the maintenance of large mold, change moulding mold insert and push rod and only need a few minutes, can resume production, and have significantly reduced the maintenance stand-by time, and production efficiency promotes at double.

In actual the use, the present invention uses the HGNX design software, and carry out the cae analysis technology, can analyse in depth and improve mould design as early as possible, realize the emulation of Shooting Technique process simulation, the reasonability of the inject time in the mould product production process, running channel runner and glue-feeder, product weld mark, plastics compactedness etc. are carried out sunykatuib analysis, thereby with minimum plastic packaging materials.Also integrated by shape of product optimization, fitted position analysis optimization, design and processing, and motion simulation, structural strength analysis, analysis of fatigue, plastic flow, hot analysis, TOLERANCE ANALYSIS and optimization, NC emulation and optimization, dynamic simulation etc., the more better optimize designs of the utilization automatic analysis and evaluation of software.

Embodiment 2

Multi-cylinder injection moulding energy-efficient semiconductor plastic package die as shown in Figure 1, cope match-plate pattern 6 is fixed with patrix diaphragm capsule system 8, and lower bolster 7 is fixed with counterdie diaphragm capsule 9; Rack-and-pinion 2 is connected drive to change to be advanced on the plate 3, and moves back and forth up and down, and changes and enters on the plate 3 fixedly injecting head system 4; The following central runner plate UNICOM of injecting head system and counterdie diaphragm capsule 9; Commentaries on classics is advanced plate 3 drive counterdie push rod power restoring boards 10 and is moved back and forth up and down, and the counterdie push rod power rail 11 drive push rods that power restoring board 10 passes lower bolster 7 by the lathe release link move up, and eject shaped article and running channel; The patrix push rod dynamical system 12 that resets withstands between baffle plate 13 and the patrix diaphragm capsule 8, and the patrix push rod dynamical system 12 that resets drives the patrix push rods and moves down, and ejects shaped article and running channel; After lower bolster 7 moves up, patrix diaphragm capsule 8 is fitted with counterdie diaphragm capsule 9, it is characterized in that the last central runner plate in the patrix diaphragm capsule 8 and the following central runner plate of counterdie diaphragm capsule 9 form the cavity that seals, in patrix diaphragm capsule 8 and the counterdie diaphragm capsule 9 glue road 24 is arranged, glue road 24 is hollow pipelines, be communicated with runner 25, glue road 24 links by runner 25 and integrated component cave 26; Injecting head 4 and cavity UNICOM; Liquid resin in the casing drum 31 injects liquid resin by glue road 24 through runner 25 by injecting head.Glue road 24 is that hollow pipeline and runner 25 is communicated with as shown in Figure 3, and glue road 24 links by runner 25 and integrated component cave 26.Injecting head 4 and cavity UNICOM.The interior diameter of casing drum 31 is 45 millimeters, and overall diameter is 55 millimeters.Liquid resin in the casing drum 31 injects liquid resin by glue road 24 through runner 25 by 1 injecting head.Injection moulding barrel in the central plate is a hollow pipe, directly is communicated with runner 25.As shown in Figure 4, the section of runner 25 is an arc.Patrix diaphragm capsule 8 16 slips into fast and removes in patrix diaphragm capsule fixed head, and counterdie diaphragm capsule 9 15 slips into fast and removes in counterdie diaphragm capsule fixed head by chute device.The central plate width that embeds between last central runner plate and the following central runner plate is 70 millimeters, and there is air discharge duct in its front, and there is air discharge duct in the front of moulding bar.0.8 millimeter of exhaust groove width, dark 0.015 millimeter air discharge duct.

Claims (9)

1, a kind of energy-efficient semiconductor plastic package die, cope match-plate pattern (6) is fixed with patrix diaphragm capsule system (8), and lower bolster (7) is fixed with counterdie diaphragm capsule (9); Rack-and-pinion (2) is connected to drive to change to be advanced on the plate (3), and moves back and forth up and down, and commentaries on classics is advanced plate (3) and gone up fixedly injecting head system (4); The following central runner plate UNICOM of injecting head system and counterdie diaphragm capsule (9); Commentaries on classics is advanced plate (3) drive counterdie push rod power restoring board (10) and is moved back and forth up and down, and counterdie push rod power rail (11) the drive push rod that power restoring board (10) passes lower bolster (7) by the lathe release link moves up, and ejects shaped article and running channel; The patrix push rod dynamical system (12) that resets withstands between baffle plate (1 3) and the patrix diaphragm capsule (8), and the patrix push rod dynamical system (12) that resets drives the patrix push rod and moves down, and ejects shaped article and running channel; After lower bolster (7) moves up, patrix diaphragm capsule (8) is fitted with counterdie diaphragm capsule (9), it is characterized in that the last central runner plate in the patrix diaphragm capsule (8) and the following central runner plate of counterdie diaphragm capsule (9) form the cavity that seals, in patrix diaphragm capsule (8) and the counterdie diaphragm capsule (9) Jiao Dao (24) is arranged, Jiao Dao (24) is hollow pipeline, be communicated with runner 25, Jiao Dao (24) links by runner (25) and integrated component cave (26); Injecting head (4) and cavity UNICOM; Liquid resin in the casing drum (31) injects liquid resin by Jiao Dao (24) through runner (25) by injecting head.

2, energy-efficient semiconductor encapsulating mould according to claim 1, the section that it is characterized in that described runner (25) is an arc.

3, energy-efficient semiconductor encapsulating mould according to claim 2, it is characterized in that described patrix diaphragm capsule (8) (16) in patrix diaphragm capsule fixed head slips into fast and removes, counterdie diaphragm capsule (9) slips into fast and removes by chute device (15) in counterdie diaphragm capsule fixed head.

4, energy-efficient semiconductor encapsulating mould according to claim 3 is characterized in that there is air discharge duct in described front of going up the central plate that embeds between central runner plate and the following central runner plate, and there is air discharge duct in the front of moulding bar.

5, energy-efficient semiconductor encapsulating mould according to claim 4 is characterized in that 0.8 millimeter of described exhaust groove width, dark 0.015 millimeter air discharge duct.

6, energy-efficient semiconductor encapsulating mould according to claim 5 is characterized in that described injecting head is one or more.

7, energy-efficient semiconductor encapsulating mould according to claim 6, the interior diameter that it is characterized in that described casing drum (31) is 45 millimeters, overall diameter is 55 millimeters.

8, energy-efficient semiconductor encapsulating mould according to claim 6 is characterized in that described single cylinder injection moulding central plate width is 70 millimeters.

9, energy-efficient semiconductor encapsulating mould according to claim 6 is characterized in that the injection moulding barrel in the described central plate is a hollow pipe, directly is communicated with runner (25).

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