CN204303764U - A kind of intelligent card chip sealed in unit - Google Patents

Abstract

The utility model discloses a kind of intelligent card chip sealed in unit, comprise workbench, card conveying device, chip packaging device and chip feedway, described card conveying device comprises card transport card to be packaged being transported to one by one encapsulation station with one rack system, described chip feedway comprises the chip belt conveying mechanism, blanking die and the blanking mechanism that to be one by one transported to by the chip on chip belt on stamping-out station, and described chip packaging device comprises the packaging mechanism being transplanted on by the chip cut and card carrying out encapsulate; The throughput direction of described chip belt conveying mechanism and the throughput direction of card transport perpendicular, and described chip belt passes from the below of the encapsulation station card conveying device, the stamping-out station in described chip feedway is located at the position of the encapsulation station be close in card conveying device.Intelligent card chip sealed in unit of the present utility model shortens the stroke of chip movement, improves package speed.

Description

A kind of intelligent card chip sealed in unit

Technical field

The utility model relates to the production equipment of smart card, is specifically related to a kind of intelligent card chip sealed in unit.

Background technology

In smart card production process, need packaged chip on card, the encapsulation of chip is completed by continuous productive process, encapsulation process is: card to be packaged is transported in encapsulation station one by one, simultaneously chip feedway provides the chip cut continuously, and chip packaging device is from chip feedway absorption chip and be encapsulated in the encapsulation groove of card.The course of work of chip feedway is: the chip before encapsulation is arranged on chip belt by certain spacing, need during encapsulation to cut from chip belt by large young pathbreaker's chip of setting, the chip cut is drawn by chip packaging device and is moved on card and encapsulates; Cutting of chip is completed by blanking die and blanking mechanism, blanking die is provided with punching hole, chip to be cut is transplanted on and punching hole corresponding position by chip belt under power set traction, and then chip is pressed the shape of punching hole by its stamping-out out by blanking mechanism.

In existing chip feedway, the throughput direction of chip belt is usually parallel with the throughput direction of card, it has the following disadvantages: 1, in order to arrange chip feedway, between chip stamping-out station and chip package station, there is larger distance, make packaging system stroke when being moved to chip package station from stamping-out station by chip comparatively large, and then the speed of impact encapsulation; 90 ° are differed between the attitude of the chip 2, cut with the attitude of the encapsulation groove of the card of chip package station, half-twist is needed when being therefore transplanted on by chip in encapsulation groove, not only affect chip screen, but also affect positional precision when chip is placed in encapsulation groove.In addition, also the throughput direction of chip belt is had perpendicular to the technical scheme of the throughput direction of card in existing chip feedway, this chip feedway is arranged on the side of card pipeline, chip belt is positioned at the side of card pipeline and by the arranged in form of vertical card throughput direction, is provided with traction wheel the chip belt having cut chip is drawn conveying downwards between chip stamping-out station and chip package station.Ensure that in this chip feedway that the attitude of the encapsulation groove of the card of chip attitude and the chip package station cut out is consistent, without the need to half-twist again in transfer process, but still there is following deficiency: 1, owing to needing between chip stamping-out station and chip package station to arrange traction wheel mechanism, therefore the transfer of chip is formed still comparatively large, and package speed is still not high enough; 2, because the blanking die in chip stamping-out station is different with the positioning datum of the card in chip package station, the chip being therefore not easy to ensure to cut is parallel with the encapsulation groove in card, affects encapsulation precision.

Utility model content

The purpose of this utility model is to overcome the deficiencies in the prior art, and provide a kind of intelligent card chip sealed in unit, this sealed in unit not only shortens the stroke of chip movement, improves package speed, but also improves the precision of encapsulation.

The purpose of this utility model is realized by following technical scheme:

A kind of intelligent card chip sealed in unit, comprise workbench and establish card conveying device, chip packaging device and chip feedway on the table, wherein, card conveying device comprises card transport card to be packaged being transported to one by one encapsulation station with one rack system, described chip feedway comprises the chip belt conveying mechanism, blanking die and the blanking mechanism that to be one by one transported to by the chip on chip belt on stamping-out station, and described chip packaging device comprises the packaging mechanism being transplanted on by the chip cut and card carrying out encapsulate; The throughput direction of described chip belt conveying mechanism and the throughput direction of card transport perpendicular, and described chip belt passes from the below of the encapsulation station card conveying device, the stamping-out station in described chip feedway is located at the position of the encapsulation station be close in card conveying device.

A preferred version of the present utility model, wherein, described card transport comprises card conveying and conveyer belt, wherein, described conveyer belt is circulating circulus, described card conveying with the sidewall of encapsulation station corresponding position on be provided with the passage allowing chip belt pass, this passage is arranged in the below of card of encapsulation station.

By said structure, make chip belt conveying mechanism at the part smooth transition crossing with card transport, non-interference, guarantee that orthogonal two strip transmission lines normally run.

A preferred version of the present utility model, wherein, described card conveying is being provided with two is leading fixture block with encapsulation station corresponding position, and described channel setting is being led on fixture block; Described two bottoms of leading between fixture block are provided with cushion block, and cushion block is provided with the via hole for allowing chip belt pass through.

In above-mentioned preferred version, leading fixture block for carrying out guide and limit to the card on encapsulation station, forming a part for card delivery track, being convenient to arrange described passage for described two; Described cushion block, for supporting the card on encapsulation station, to bear impulsive force during encapsulation, by arranging described via hole, allows chip belt pass through cushion block smoothly, non-interference.

A preferred version of the present utility model, wherein, described blanking die comprises die backing plate and is connected to the mold cavity block on die backing plate.Mold cavity block is provided with the die cavity for formed chip, can arrange multiple mold cavity block with the die cavity of different size on die backing plate, thus may be used for carrying out stamping-out to different chips.

Preferably, described mold cavity block is two or more, and these mold cavity block tools arrange along the throughput direction of chip belt and are fixedly connected on mould pad block.

A preferred version of the present utility model, wherein, described encapsulation station place is provided with the encapsulation station support of the parts for installing this station place, described stamping-out station place is provided with the stamping-out station support of the parts for installing this station place, and described encapsulation station support and stamping-out station support link into an integrated entity.

The object of this preferred version is adopted to be, in encapsulation station and stamping-out station, need the location structure arranged for positioning cards and blanking die respectively, to guarantee the position relationship between the encapsulation groove on stamping-out chip out and card, the good chip of stamping-out is made directly to be transplanted on encapsulation groove place by straight path can be accurately placed in encapsulation groove without the need to rotating; After adopting this preferred version, because encapsulation station support and stamping-out station support link into an integrated entity, therefore the location structure of card and blanking die with reference to same design basis, thus can improve positioning precision, and then improves the positional precision of encapsulation; In the utility model, owing to not having miscellaneous part between stamping-out station and encapsulation station, therefore can arrange very near, this provides important condition for encapsulation station support and stamping-out station support being linked into an integrated entity.

Described encapsulation station support is provided with clamping sheet positioning mechanism, this clamping sheet positioning mechanism comprise be positioned at cushion block side stationary positioned post, be positioned at the first activity orientation post of cushion block opposite side and be positioned at the second activity orientation post of cushion block rear and front end, described first activity orientation post and the second activity orientation post are connected with the driving mechanism of the action driving them to clamp and to unclamp card; Described stamping-out station support is provided with the alignment pin for positioning blanking die; Alignment pin on stationary positioned post in described clamping sheet positioning mechanism, the first activity orientation post, the second activity orientation post and stamping-out station support has identical design basis.

In above-mentioned preferred version, because encapsulation station support and stamping-out station support link into an integrated entity, therefore described clamping sheet positioning mechanism and alignment pin is convenient to be undertaken designing, processing by same design basis, thus can guarantee that the location between card and blanking die is more accurate, improve the precision of encapsulation.

A preferred version of the present utility model, wherein, described chip belt conveying mechanism comprises and does not cut chip belt winding wheel, traction power mechanism, traction guiding mechanism and cut chip belt winding wheel, wherein, describedly do not cut the below that chip belt winding wheel is arranged at workbench, cut the top that chip belt winding wheel is positioned at workbench, cut on chip belt winding wheel and be connected with motor; Described traction power mechanism comprises traction electric machine and traction wheel, and this traction power mechanism is positioned at the outside of stamping-out station; Described traction guiding mechanism comprise the outside being arranged on encapsulation station for guiding into level from bottom to top so that from the break-in guide that passes below encapsulation station by not cutting chip belt.

The continus convergence of chip belt is achieved by said chip belt conveyor structure, and by cutting chip belt winding wheel by the rolling of chip belt nubbin, avoid other positions of the equipment that is wound into, and the described chip belt winding wheel that do not cut is positioned at below workbench, does not occupy the working space above workbench; By just not cutting in the arranged outside of encapsulation station the break-in guide that chip belt guides into level from bottom to top, realization will not cut chip belt and will guide into level from vertical state, to pass below encapsulation station; By described traction power organization establishes in the outside of stamping-out station, guarantee that stamping-out station and encapsulation station can be fully close, and in prior art, similar traction power organization establishes, between encapsulation station and stamping-out station, makes the distance encapsulated between station and stamping-out station increase.In addition, also said chip belt conveyor structure can be converted, the described chip belt winding wheel that do not cut is arranged to cut chip belt rolling, and cut chip belt rolling be arranged to not cut chip belt winding wheel by described, namely the top that chip belt winding wheel is arranged at workbench is not cut, cut the below that chip belt winding wheel is positioned at workbench, change the throughput direction of chip belt simultaneously, and by the outside of traction power organization establishes to encapsulation station.

Preferably, described workbench is provided with to allow and does not cut the through hole that chip belt passes through, and described break-in guide is arranged on above this through hole.

A preferred version of the present utility model, wherein, described packaging mechanism comprises encapsulation suction nozzle and drives encapsulation to inhale cephalomotor travel mechanism, wherein, described travel mechanism comprises transverse moving mechanism, longitudinal moving mechanism and vertical travel mechanism, and described encapsulation suction nozzle is connected with vacuum plant; Described transverse moving mechanism comprises cross motor and cross lead screw transmission mechanism, described longitudinal moving mechanism comprises longitudinal motor and longitudinal lead screw transmission mechanism, described vertical travel mechanism comprises vertical motor and vertical travel mechanism, described longitudinal motor is arranged on the feed screw nut of cross lead screw transmission mechanism, described vertical motor is arranged on the feed screw nut of longitudinal lead screw transmission mechanism, and described encapsulation suction nozzle is arranged on the feed screw nut of vertical lead screw transmission mechanism.

In above-mentioned preferred version, encapsulation suction nozzle can be accurately driven to move in three dimensions by transverse moving mechanism, longitudinal moving mechanism and vertical travel mechanism, and allow encapsulation suction nozzle be picked up by chip by vacuum plant, realize the absorption of chip, transfer and encapsulation.Above-mentioned preferred version not only increases the precision of chip package, and is very easy to the replacing of mould; Encapsulate suction nozzle in prior art only to be driven by longitudinal moving mechanism and vertical travel mechanism, therefore when more mold exchange, the mould after to replacing is needed to re-start location and calibration, waste time and energy, adopt this preferred version then to make the replacing of mould become easy, only need change driving the control program of above-mentioned three travel mechanisms the movement locus of chip package can be switched to another mould from a mould.

The utility model compared with prior art has following beneficial effect:

1, due to the throughput direction of described chip belt conveying mechanism and the throughput direction of card transport perpendicular, and described chip belt passes from the below of the encapsulation station card conveying device, therefore the stop of miscellaneous part is not had between stamping-out station and encapsulation station, thus stamping-out station is located at the position being close to encapsulation station, thus greatly shorten the stroke of chip movement, drastically increase package speed, improve production efficiency.

2, because stamping-out station is located at the position being close to encapsulation station, therefore encapsulation station support and stamping-out station support directly can be linked into an integrated entity and form same module, the structure (such as alignment pin) being used for positioning cards and location blanking die all can be adopted same design basis on this basis, thus the positional precision improved between the encapsulation groove of card and the chip cut, improve encapsulation precision.

3, the chip belt conveying mechanism that throughput direction is vertical and card transport are conducive to integral arrangement to obtain compacter, save space.

Accompanying drawing explanation

Fig. 1 is the structure diagram of an embodiment of intelligent card chip sealed in unit of the present utility model.

Fig. 2 is the perspective view of Fig. 1 illustrated embodiment.

Fig. 3 is the partial enlarged drawing of Fig. 2.

Fig. 4 is the partial enlarged drawing (clipped parts) of Fig. 2.

Fig. 5 be encapsulate in Fig. 2 station place hide guide pad after partial enlarged drawing.

Fig. 6 is the perspective view of backing plate in Fig. 5.

Embodiment

Below in conjunction with embodiment and accompanying drawing, the utility model is described in further detail, but execution mode of the present utility model is not limited thereto.

See Fig. 1 ~ Fig. 5, intelligent card chip sealed in unit of the present utility model comprises workbench 1 and is located at card conveying device, chip packaging device and the chip feedway on workbench 1.

See Fig. 1 ~ Fig. 5, described card conveying device comprises card transport card 2 to be packaged being transported to one by one encapsulation station 6 with one rack system, the conveying of this card comprises card conveying, conveyer belt 8 and conveying motor, wherein, described conveyer belt 8 is circulating circulus, totally two, every bar conveyer belt 8 is provided with the moving tooth carrying out movement for actuating card 2, and during work, two conveyer belts 8 actuating card 2 is intermittently fed forward.Described card conveying comprises two parallel guide rails 17, described card 2 is carried in this card conveying, be provided with encapsulation station 6 in described card conveying, card 2 to be packaged is delivered to after on this encapsulation station 6, carries out chip package by chip packaging device.

See Fig. 1 ~ Fig. 5, described chip feedway comprises the chip belt conveying mechanism be one by one transported to by the chip 4 on chip belt 3 on stamping-out station 5, comprises the blanking die and blanking mechanism that are arranged at stamping-out station 5 place in addition.Described chip belt conveying mechanism comprises and does not cut chip belt winding wheel 11, traction power mechanism, traction guiding mechanism and cut chip belt winding wheel 9, wherein, describedly do not cut the below that chip belt winding wheel 11 is arranged at workbench 1, cut the top that chip belt winding wheel 9 is positioned at workbench 1; Described traction power mechanism comprises traction electric machine, traction wheel 10 and contact roller 16, this traction power mechanism is positioned at the outside of stamping-out station 5, described traction wheel 10 is driven by motor, described traction wheel 10 is provided with the traction teeth corresponding with the towing pad on chip belt 3, chip 4 is driven to be fed forward when traction wheel 10 rotates, chip belt 3 is pressed on traction wheel 10 by described contact roller 16, guarantees that chip belt 3 does not depart from traction wheel 10; Described traction guiding mechanism comprise the outside being arranged on encapsulation station 6 for guiding into level from bottom to top so that from the break-in guide 19 that passes below encapsulation station 6 by not cutting chip belt.Described workbench 1 is provided with to allow and does not cut the through hole 1-1 that chip belt 3 passes through, and described break-in guide 19 is arranged on the top of this through hole 1-1.

See Fig. 1 ~ Fig. 5, described blanking die comprises die backing plate 21 and is connected to the mold cavity block 7 on die backing plate 21, wherein, mold cavity block 7 is provided with the die cavity 7-1 for formed chip, multiple mold cavity block 7 with the die cavity 7-1 of different size can be set on die backing plate 21, thus may be used for carrying out stamping-out to different chips.Particularly, described mold cavity block 7 is connected by screw on die backing plate 21, and this mold cavity block 7 is two, is respectively used to the chip 4 of stamping-out two kinds of different sizes, and these two mold cavity block 7 arrange along the throughput direction of chip belt 3.Above-mentioned blanking die is located at the position contiguous with the encapsulation station 6 in card conveying device, wherein, that mold cavity block 7 near encapsulation station 6 is closely attached on described guide pad 15, thus allows stamping-out station 5 as far as possible near encapsulation station 6, to shorten the transfer stroke of chip 4.Described blanking mechanism is positioned at the below of blanking die, comprises drift and power set, and during work, chip belt 3 is positioned at the below of blanking die, and chip 4 is gone out by drift from bottom to top.

See Fig. 1 ~ Fig. 6, the throughput direction of described chip belt conveying mechanism and the throughput direction of card transport perpendicular, and described chip belt 3 passes from the below of the encapsulation station 6 card conveying device, the stamping-out station in described chip feedway is located at the position of the encapsulation station be close in card conveying device.Particularly, described card conveying is being provided with two guide pads 15 and clamping sheet positioning mechanism with encapsulation station 6 corresponding position, wherein, two guide pads 15 dock with the guide rail 17 of card conveying, for carrying out guide and limit to the card 2 on encapsulation station 6, two guide pads 15 are provided with and allow chip belt wear the 3 passage 15-1 (see Fig. 5) crossed; Described two bottoms of leading between fixture block 15 are provided with cushion block 20, this cushion block 20 is provided with the via hole 20-1 (see Fig. 6) for allowing chip belt 3 pass through, described passage 15-1 and via hole 20-1 is all arranged in the below of the card 2 of encapsulation station 6, and be positioned at the inner side of ring-type conveyer belt 8, thus realize chip belt 3 at the smooth transition encapsulating station 6 place and card transport, non-interference, guarantee that orthogonal two strip transmission lines normally run.Described clamping sheet positioning mechanism comprises the stationary positioned post 23 being positioned at cushion block 20 side, be positioned at the first activity orientation post (not shown) of cushion block 20 opposite side and be positioned at the second activity orientation post 22 of cushion block 20 rear and front end, described first activity orientation post and the second activity orientation post 22 are connected with the driving mechanism of the action driving them to clamp and to unclamp card 2, this driving mechanism and can order about the actuating unit that the first activity orientation post and the second activity orientation post 22 rotate to unclamp card 2 and forms by the spring impelling the first activity orientation post and the second activity orientation post 22 to be under normality to clamp card 2, wherein, the structure that described actuating unit can adopt cylinder to promote fork swing realizes.The operation principle of above-mentioned clamping sheet positioning mechanism is: before entering card, described first activity orientation post and the second activity orientation post 22 are in the state of unclamping card 2, after card 2 is sent to encapsulation station 6, driving mechanism drives the first activity orientation post and the second activity orientation post 22 pairs of cards 2 to clamp, wherein, stationary positioned post 23 and the Width of the first activity orientation post to card 2 position, and the length direction of the second activity orientation post 22 pairs of cards 2 positions.

See Fig. 2 ~ Fig. 5, described encapsulation station place is provided with the encapsulation station support 25 of the parts (such as guide pad 15, clamping sheet positioning mechanism and cushion block 20 etc.) for installing this station 6 place, described stamping-out station 5 place is provided with the stamping-out station support 24 of the parts (such as blanking die, blanking mechanism etc.) for installing this station place, and described encapsulation station support 25 and stamping-out station support 24 link into an integrated entity.Described stamping-out station support 24 is provided with the alignment pin 26 for positioning blanking die, this alignment pin 26 has identical design basis with stationary positioned post 23, the first activity orientation post in described clamping sheet positioning mechanism, the second activity orientation post 22, be conducive to like this improving the positional precision between card and blanking die, improve the precision of encapsulation.

See Fig. 1 ~ Fig. 5, described chip packaging device comprises the chip 4 cut is transplanted on packaging mechanism card 2 carrying out encapsulate, the travel mechanism that this packaging mechanism comprises encapsulation suction nozzle 18 and drives encapsulation suction nozzle 18 to move, wherein, described travel mechanism comprises transverse moving mechanism, longitudinal moving mechanism and vertical travel mechanism, wherein, described encapsulation suction nozzle 18 is connected with vacuum plant.Described transverse moving mechanism comprises cross motor 13 and cross lead screw transmission mechanism, described longitudinal moving mechanism comprises longitudinal motor 13 and longitudinal lead screw transmission mechanism, described vertical travel mechanism comprises vertical motor 14 and vertical travel mechanism, described longitudinal motor 13 is arranged on the feed screw nut of cross lead screw transmission mechanism, described vertical motor 14 is arranged on the feed screw nut of longitudinal lead screw transmission mechanism, and described encapsulation suction nozzle 18 is arranged on the feed screw nut of vertical lead screw transmission mechanism.During work, encapsulation suction nozzle 18 can be accurately driven to move in three dimensions by transverse moving mechanism, longitudinal moving mechanism and vertical travel mechanism, and allow encapsulation suction nozzle 18 be picked up by chip 4 by vacuum plant, realize the absorption of chip 4, transfer and encapsulation.

Above-mentioned is the utility model preferably execution mode; but execution mode of the present utility model is not by the restriction of foregoing; change, the modification done under other any does not deviate from Spirit Essence of the present utility model and principle, substitute, combine, simplify; all should be the substitute mode of equivalence, be included within protection range of the present utility model.

Claims (10)

1. an intelligent card chip sealed in unit, comprise workbench and establish card conveying device, chip packaging device and chip feedway on the table, wherein, card conveying device comprises card transport card to be packaged being transported to one by one encapsulation station with one rack system, described chip feedway comprises the chip belt conveying mechanism, blanking die and the blanking mechanism that to be one by one transported to by the chip on chip belt on stamping-out station, and described chip packaging device comprises the packaging mechanism being transplanted on by the chip cut and card carrying out encapsulate; It is characterized in that, the throughput direction of described chip belt conveying mechanism and the throughput direction of card transport perpendicular, and described chip belt passes from the below of the encapsulation station card conveying device, the stamping-out station in described chip feedway is located at the position of the encapsulation station be close in card conveying device.

2. intelligent card chip sealed in unit according to claim 1, it is characterized in that, described card transport comprises card conveying and conveyer belt, wherein, described conveyer belt is circulating circulus, described card conveying with the sidewall of encapsulation station corresponding position on be provided with the passage allowing chip belt pass, this passage is arranged in the below of card of encapsulation station.

3. intelligent card chip sealed in unit according to claim 2, is characterized in that, described card conveying is being provided with two leads fixture block with encapsulation station corresponding position, and described channel setting is being led on fixture block; Described two bottoms of leading between fixture block are provided with cushion block, and cushion block is provided with the via hole for allowing chip belt pass through.

4. intelligent card chip sealed in unit according to claim 3, is characterized in that, described blanking die comprises die backing plate and is connected to the mold cavity block on die backing plate.

5. intelligent card chip sealed in unit according to claim 4, is characterized in that, described mold cavity block is two or more, and these mold cavity block tools arrange along the throughput direction of chip belt and are fixedly connected on mould pad block.

6. intelligent card chip sealed in unit according to claim 4, it is characterized in that, described encapsulation station place is provided with the encapsulation station support of the parts for installing this station place, described stamping-out station place is provided with the stamping-out station support of the parts for installing this station place, and described encapsulation station support and stamping-out station support link into an integrated entity.

7. intelligent card chip sealed in unit according to claim 6, it is characterized in that, described encapsulation station support is provided with clamping sheet positioning mechanism, this clamping sheet positioning mechanism comprise be positioned at cushion block side stationary positioned post, be positioned at the first activity orientation post of cushion block opposite side and be positioned at the second activity orientation post of cushion block rear and front end, described first activity orientation post and the second activity orientation post are connected with the driving mechanism of the action driving them to clamp and to unclamp card; Described stamping-out station support is provided with the alignment pin for positioning blanking die; Alignment pin on stationary positioned post in described clamping sheet positioning mechanism, the first activity orientation post, the second activity orientation post and stamping-out station support has identical design basis.

8. the intelligent card chip sealed in unit according to any one of claim 1 ~ 7, it is characterized in that, described chip belt conveying mechanism comprises and does not cut chip belt winding wheel, traction power mechanism, traction guiding mechanism and cut chip belt winding wheel, wherein, describedly do not cut the below that chip belt winding wheel is arranged at workbench, cut the top that chip belt winding wheel is positioned at workbench, cut on chip belt winding wheel and be connected with motor; Described traction power mechanism comprises traction electric machine and traction wheel, and this traction power mechanism is positioned at the outside of stamping-out station; Described traction guiding mechanism comprise the outside being arranged on encapsulation station for guiding into level from bottom to top so that from the break-in guide that passes below encapsulation station by not cutting chip belt.

9. intelligent card chip sealed in unit according to claim 8, is characterized in that, described workbench is provided with to allow and does not cut the through hole that chip belt passes through, and described break-in guide is arranged on above this through hole.

10. intelligent card chip sealed in unit according to claim 1, it is characterized in that, described packaging mechanism comprises encapsulation suction nozzle and drives encapsulation to inhale cephalomotor travel mechanism, wherein, described travel mechanism comprises transverse moving mechanism, longitudinal moving mechanism and vertical travel mechanism, and described encapsulation suction nozzle is connected with vacuum plant; Described transverse moving mechanism comprises cross motor and cross lead screw transmission mechanism, described longitudinal moving mechanism comprises longitudinal motor and longitudinal lead screw transmission mechanism, described vertical travel mechanism comprises vertical motor and vertical travel mechanism, described longitudinal motor is arranged on the feed screw nut of cross lead screw transmission mechanism, described vertical motor is arranged on the feed screw nut of longitudinal lead screw transmission mechanism, and described encapsulation suction nozzle is arranged on the feed screw nut of vertical lead screw transmission mechanism.