CN209241425U - High speed bubble-cap mounted box all-in-one machine - Google Patents

Abstract

The utility model relates to a kind of high speed bubble-cap mounted box all-in-one machines that can effectively prevent non-clean area strain and enter by conveyer belt clean area.This high speed bubble-cap mounted box all-in-one machine includes bubble-cap machine and box packing machine, bubble-cap machine is connected with discharging grid conveying device conveying, it is characterized by: discharging grid conveying device includes the clean area grid conveying device in clean area and the non-clean area grid conveying device in non-clean area, the position of clean area grid conveying device is higher by the position of non-clean area grid conveying device, and the front end of clean area grid conveying device realizes that conveying is connected by inclined ramp with the rear end of non-clean area grid conveying device.This high speed bubble-cap mounted box all-in-one machine is realized the transition of material using the difference in height of two grid conveying devices, prevents non-clean area strain from entering clean area by conveyer belt by the way that independent grid conveying device is respectively set in clean area and non-clean area.

Description

High speed bubble-cap mounted box all-in-one machine

Technical field

The utility model relates to the bubble-cap mounted box all-in-one machines of a kind of collection bubble cap tray production and mounted box function.

Background technique

High speed bubble-cap mounted box all-in-one machine is made of bubble-cap machine with box packing machine, and bubble-cap machine completes the formation and envelope of bubble-cap medicine plate Dress, box packing machine complete the mounted box of bubble-cap medicine plate.After bubble cap tray is packaged, by the punching of blanking apparatus, a plate plate is entered out Expect grid conveying device, front is then transported to by the grid conveying device that discharges, it then will by bubble cap tray transfer robot arm Bubble cap tray in discharging grid conveying device is passed in charging grid conveying device, will finally be steeped by charging grid conveying device Cover plate is transported to box packing machine and carries out mounted box.In order to make bubble cap tray when filling capsule in gnotobasis, foreign countries colleague now this Class linkage mode of movement mostly passes through clean area and non-clean area, carries out in such a way that clean area is isolated with non-clean area pressure difference Clean area protection, but have non-clean area strain and exist by the risk that clean area is brought in conveying into.

Summary of the invention

In view of the shortcomings of the prior art, the utility model innovation, which provides one kind, can effectively prevent non-clean area strain Enter the high speed bubble-cap mounted box all-in-one machine of clean area by conveyer belt.

This high speed bubble-cap mounted box all-in-one machine includes bubble-cap machine and box packing machine, and the bubble-cap machine and discharging grid conveying fill Conveying linking is set, the box packing machine is connected with charging grid conveying device conveying, the discharging grid conveying device and charging lattice Conveying linking is realized by bubble cap tray transfer robot arm between grid conveying device, it is characterised in that: the discharging grid conveying dress Set includes the clean area grid conveying device in clean area and the non-clean area grid conveying dress in non-clean area It sets, the position of the clean area grid conveying device is higher by the position of non-clean area grid conveying device, the clean area grid The front end of conveying device realizes that conveying is connected by inclined ramp with the rear end of non-clean area grid conveying device, the clean area It is isolated with non-clean area by partition wall, the partition wall has window, and the inclined ramp passes through window.

The air pressure of the clean area is higher than the air pressure of non-clean area.

The front of the non-clean area grid conveying device is equipped with reflux guide channel, the lower section of the reflux guide channel Equipped with reflux conveyer belt, sampling collecting vessel is equipped at the discharge end of the reflux conveyer belt.

The discharging grid conveying device has a plurality of transfer passage, and every transfer passage all conveys chain hook, master by grid Movable sprocket is constituted with by movable sprocket, grid conveying chain hook be wound on drive sprocket with by movable sprocket, the drive sprocket with Convey power source transmission connection.

The discharging grid conveying device has three transfer passages, the drive sprocket of inboard transfer passage and passive chain Wheel is installed on inboard memorial archway, the drive sprocket of intermediate transfer passage and is installed on intermediate memorial archway by movable sprocket, outside The drive sprocket of the transfer passage of side is installed on the memorial archway of outside with by movable sprocket, is equipped with adjusting silk on the intermediate memorial archway Bar, the both ends for adjusting screw rod are threadedly coupled with inboard memorial archway and outside memorial archway respectively, are equipped with a left side on the intermediate memorial archway Right two can relatively move the partition mounting rack of adjusting, be equipped on the partition mounting rack intermediate left clapboard and intermediate right every Plate, intermediate transfer passage are located between intermediate left clapboard and intermediate right clapboard.

Shown non-clean area grid conveying device and charging grid conveying device are arranged side by side, and the bubble cap tray transfer is mechanical Hand is located at charging grid one side of conveying device, and the bubble cap tray transfer robot arm includes organic block, suction nozzle and suction nozzle bracket, institute The front end that suction nozzle bracket is hinged on oscilaltion arm is stated, the oscilaltion arm is hinged on front and back transfer arm, and the front and back is moved It send the lower end of arm to be installed in rotation on slide, oscilaltion power source is installed on the slide and power is transferred in front and back Source, the front and back transfer power source and front and back transfer arm transmission connection, the lower end of the oscilaltion power source and lifter drawing bar Transmission connection, the upper end of the lifter drawing bar and the rear end of oscilaltion arm are hinged, are equipped with left and right settings on the base Sliding rail, the slide sliding are set on the slide rail, and the horizontal transfer power source that the slide and driving slide move on the slide rail passes Dynamic connection；The slide is equipped with the horizontal holding component for keeping the holding of suction nozzle bracket horizontal.

It is described it is horizontal keep component include horizontal drag link, triangle cantilever, horizontal vertical connecting rod, pull-up rod bearing and under Drag link bearing, triangle cantilever handover on front and back transfer arm, one jiao of the triangle cantilever with the rear end of horizontal drag link Hingedly, the pull-up rod bearing is mounted on suction nozzle bracket, and the front end of the horizontal drag link and pull-up rod bearing are hinged, described Another angle of triangle cantilever and the upper end of horizontal vertical connecting rod are hinged, and the lower drag link bearing is mounted on slide, the horizontal vertical The lower end of pull rod and lower drag link bearing are hinged.

The oscilaltion power source and triangle joint arm are sequentially connected, one jiao and lifter drawing bar of the triangle joint arm Lower end it is hinged, another angle of the triangle joint arm with drive lifter drawing bar toward drop-down extensible member connect.

Synchronous belt component is installed, the synchronous belt component includes driven synchronous pulley, active synchronization on the base Belt wheel and synchronous belt, the synchronous belt are wound in driven synchronous pulley and active synchronization belt wheel, and the synchronous belt and slide connect It connects, the active synchronization belt wheel and horizontal transfer power source transmission connection.

The oscilaltion power source, front and back transfer power source and horizontal transfer power source are speed reducer for servo motor Combination.

According to high speed bubble-cap mounted box all-in-one machine provided by the utility model, by being respectively set in clean area and non-clean area Independent grid conveying device, the transition of material is realized using the difference in height of two grid conveying devices, prevents non-clean area Strain enters clean area by conveyer belt, then by draught head, prevents non-clean area strain by air and enter clean area, pass through The two aspects, thoroughly solve the problems, such as that non-clean area strain enters clean area.

Detailed description of the invention

Fig. 1 is the complete machine figure of the utility model；

Fig. 2 is the utility model discharging grid conveying device and the perspective view for feeding grid conveying device；

Fig. 3 is the perspective view of discharging grid conveying device；

Fig. 4 is the main view of discharging grid conveying device；

Fig. 5 is the partial enlarged view in Fig. 4 at A；

Fig. 6 is the triple channel Structure explosion diagram of clean area grid conveying device；

Fig. 7 is the partial enlarged view in Fig. 6 at B；

Fig. 8 is the working condition chart of bubble cap tray transfer robot arm；

Fig. 9 is the perspective view of bubble cap tray transfer robot arm；

Figure 10 is the main view of bubble cap tray transfer robot arm；

Figure 11 is the side view of bubble cap tray transfer robot arm.

Specific embodiment

As shown in Figure 1, this high speed bubble-cap mounted box all-in-one machine includes bubble-cap machine 1 and box packing machine 3, bubble-cap machine 1 and discharging Grid conveying device 2 conveying linking, box packing machine 3 with charging grid conveying device 4 conveying be connected, discharge grid conveying device 2 and It feeds and conveying linking is realized by bubble cap tray transfer robot arm 5 between grid conveying device 4,

As shown in Figure 2 and Figure 3, discharging grid conveying device 2 passes through clean area C and non-clean area D, clean area C with it is non-clean Net area D is surrounded by glass outer wall, and only clean area C is enclosed construction, is forbidden to open, be required strain content's index in air It is higher, guarantee to enter when bubble cap tray filling capsule without bacterium, to meet the international sanitary standard for drug packages.

Existing discharging grid conveying device is a self-contained unit, and through clean area C and non-clean area D, only passes through pressure Difference guarantees the gnotobasis of clean area C, however, as described in the background art, an independent discharging grid conveying device is also It is that strain can be brought into clean area C(from non-clean area D because grid conveyer belt is cycle rotation by its grid conveyer belt ), clean area C is polluted.In order to solve this problem, as shown in figs. 4 and 5, the discharging grid conveying of the utility model Device is made of two independent conveying devices comprising has clean area grid conveying device 21 and position in clean area C In the non-clean area grid conveying device 22 in non-clean area D, such clean area grid conveying device 21 is only positioned at clean area C Interior, non-clean area grid conveying device 22 is only positioned in non-clean area D, and the two is conveyed by independent grid conveyer belt, It is independent of each other；And in order to make the two realize conveying linking, the position of clean area grid conveying device 21 is higher by non-clean area grid The position of conveying device 22, the front end of clean area grid conveying device 21 and the rear end of non-clean area grid conveying device 22 pass through Inclined ramp 23 realizes conveying linking；Bubble cap tray comes from the conveying of clean area grid conveying device 21, and passes through inclined ramp 23 It slides into non-clean area grid conveying device 22, is achieved in the conveying linking of the two；Certainly, clean area C and non-clean area D it Between be isolated by partition wall 24, partition wall 24 has window 240, and inclined ramp 23 passes through window 240(partition wall 24 and is located at this position Setting can be such that window 240 minimizes, and eliminate strain to the maximum extent and pass through the possibility that window 240 enters clean area, simultaneously because Partition wall 24 does not cause to interfere to the grid conveying device on both sides, thus can make the grid conveying device on both sides be more convenient for installation with Maintenance).By above structure, it can prevent non-clean area D strain from entering clean area C by conveyer belt；In addition, the gas of clean area C Pressure is higher than the air pressure of non-clean area D, then by draught head, prevents non-clean area D strain by air and enter clean area C, pass through The two aspects, thoroughly solve the problems, such as that non-clean area strain enters clean area.

In order to realize sampling check, as shown in figure 4, the utility model is set in the front of non-clean area grid conveying device 22 There is reflux guide channel 25, the lower section of reflux guide channel 25 is equipped with reflux conveyer belt 26, at the discharge end of conveyer belt 26 that flows back Equipped with sampling collecting vessel 260.Under normal circumstances, the bubble cap tray in non-clean area grid conveying device 22 is transferred to by manipulator On the charging grid of box packing machine, mounted box is then carried out；And when needing to be sampled inspection to bubble cap tray, bubble cap tray transfer robot arm 5 just stop suction disc, allow bubble cap tray to keep moving forward, reach rear end when fall, then by reflux guide channel 25, under fall on It flows back on conveyer belt 26, is transported in sampling collecting vessel 260 finally by reflux conveyer belt 26, it thus can be from sampling collecting vessel It takes a sample to check in 260.There are two functions for the sampling observation transportation system tool of this reflux: one, bubble cap tray sealing is realized in non-clean area D Property is leaked hunting inspection；Two, supply feeding-system carries out bubble cap tray, kills two birds with one stone, and sampling collecting vessel 260 is arranged by feeding-system, Bubble cap tray can be arranged at any time to feed to the material library of feeding-system, equipment downtime caused by avoiding because of charging bubble cap tray makes complete Servo high-speed bubble-cap mounted box all-in-one machine realizes the promotion of productivity effect to the full extent.

In order to improve transfer efficiency, discharging grid conveying device 2 has a plurality of transfer passage (clean area grid conveying device 21 is identical as the transfer passage quantity of non-clean area grid conveying device 22), as shown in Fig. 5 and Fig. 7, every transfer passage all by Grid conveying chain hook 224(i.e. grid conveyer belt), drive sprocket constituted with by movable sprocket 223, grid conveying chain hook 224 around In drive sprocket with by movable sprocket 223, drive sprocket and power source 27 are sequentially connected.By conveying the driving of power source 27, Grid conveys chain hook 224 and rotates, so that bubble cap tray be driven to realize conveying.

As shown in Figures 6 and 7, the discharging grid conveying device 2 of the utility model has three transfer passages, and inboard is defeated It send the drive sprocket in channel and is installed on inboard memorial archway 220 by movable sprocket, the drive sprocket and quilt of intermediate transfer passage Movable sprocket 223 is installed on intermediate memorial archway 221, and the drive sprocket of the transfer passage in outside is installed in outside with by movable sprocket On memorial archway 222；In order to realize the adjustment of transfer passage width, to adapt to the bubble cap tray of different in width, the utility model is in centre Be equipped on memorial archway 221 adjust screw rod 226, adjust screw rod 226 both ends respectively with 222 spiral shell of inboard memorial archway 220 and outside memorial archway Line connection, left and right two is in addition equipped on intermediate memorial archway 221 can relatively move the partition mounting rack 225 of adjusting, partition peace It shelves and intermediate left clapboard 2210 and intermediate right clapboard 2211 is installed on 225, intermediate transfer passage is located at intermediate left clapboard Between 2210 and intermediate right clapboard 2211.When needing to adjust the width of three transfer passages, such as when lengthening width, first The spacing for adjusting two partition mounting racks 225 on intermediate memorial archway 221, the spacing both made become larger, and is installed on it in this way Between the spacing of left clapboard 2210 and intermediate right clapboard 2211 become larger, the width of intermediate transfer passage broadens；Then pass through rotation Adjusting screw rod 226(can be rotated manually or motor 28 drives), allow the inboard memorial archway 220 of two sides and outside memorial archway 222 to move in opposite directions Dynamic, the transfer passage in the outside of inboard transfer passage so also all broadens；Certainly, the width of transfer passage is made to narrow, It is by above-mentioned adjusting method.This adjusting method is easy to operate, adapts to the conveying of the bubble cap tray of different in width.

In order to which the width to two sides transfer passage is finely adjusted, the utility model is equipped on inboard memorial archway 220 can be left The inboard partition 2200 of adjusting is moved right, the outboard partition 2220 that can move left and right adjusting is installed on outside memorial archway 222.It is inboard Memorial archway 220 and outside memorial archway 222 are able to achieve the adjusting of relatively large distance, and inboard partition 2200 then can be carried out with outboard partition 2220 Fine tuning, fine tuning can be very convenient by manually adjusting.

As shown in figure 8, non-clean area grid conveying device 22 is arranged side by side with charging grid conveying device 4, bubble cap tray turns It moves manipulator 5 and is located at charging 4 side of grid conveying device, the function of bubble cap tray transfer robot arm 5 is exactly by non-clean area grid Bubble cap tray in conveying device 22 is transferred in the charging grid conveying device 4 of box packing machine 3, then passes through box packing machine 4, bubble cap tray It is packed into medicine box together with specification.

As shown in figs. 9-11, this bubble cap tray transfer robot arm 5 includes organic block 518, suction nozzle 51 and suction nozzle bracket 52, Suction nozzle 51 is mounted on suction nozzle bracket 52, these all as the prior art, and the difference is that driving suction nozzle bracket 52 before It moves, move left and right and the mode of oscilaltion afterwards.

In order to realize that 52 above-mentioned three kinds of motion modes of suction nozzle bracket, the suction nozzle bracket 52 of the utility model pass through upper bracket 520 are hinged on the front end of oscilaltion arm 53 with connecting shaft, and oscilaltion arm 53 is hinged on front and back transfer arm 54, and arm is transferred in front and back 54 lower end is installed in rotation on slide 519 and (is mounted on slide 519 by main shaft and spindle drum 516), on slide 519 Oscilaltion power source 57 is installed and power source 59 is transferred in front and back, power source 59 is transferred in front and back and the transfer transmission of arm 54 in front and back connects It connects, the lower end of oscilaltion power source 7 and lifter drawing bar 55 is sequentially connected, upper end and the oscilaltion arm 53 of lifter drawing bar 55 Rear end is hinged, and the sliding rail (sliding rail is not drawn into) of left and right settings is equipped on base 518, and the sliding of slide 519 is set on the slide rail, slide 519 are sequentially connected with the horizontal transfer power source 58 that driving slide 519 moves on the slide rail；In addition, slide 519, which is equipped with, to be made to inhale Mouth bracket 52 keeps horizontal horizontal holding component.

The working principle of bubble cap tray transfer robot arm 5 is as follows: the manipulator is first in non-clean area grid conveying device 22 Upper absorption a row or multi-row bubble cap tray (seeing packing specification), then horizontal transfer power source 58 drives slide 519 mobile, slide 519, which carry suction nozzle bracket 52 and suction nozzle 51, fast moves (X-direction in Fig. 9) along the conveying direction of charging grid conveying device 4, The speed that certain slide 519 moves horizontally will be faster than the conveying speed of charging grid conveying device 4；In the process moved horizontally In, front and back is transferred the driving of power source 59 front and back transfer arm 54 and is rotated, i.e., rotates backward, and such suction nozzle bracket 52 is just toward charging grid (Y direction in Fig. 9) is removed in 4 direction of conveying device, and at the same time, oscilaltion power source 57 drives lifter drawing bar 55 is past to move up Dynamic, this one end that such oscilaltion arm 53 is connect with lifter drawing bar 55 is up moved, and oscilaltion arm 53 and suction nozzle bracket 52 connect This one end connect is just toward moving down (Z-direction in Fig. 9), and such suction nozzle 51 just reaches the surface of charging grid conveying device 4, so Suction nozzle is deflated afterwards, and row's bubble cap tray is just fallen in charging grid conveying device 4；Certainly, during putting plate, slide still with Track charging grid conveying device 4, with charging grid conveying device 4 keep identical movement speed and identical conveying direction, Could allow in this way bubble cap tray can smoothly be placed on charging grid conveying device 4 on, rather than in clean area grid conveying device 22 with Charging grid conveying device 4 can be achieved with being continuously conveyed, to greatly improve packaging efficiency.If suction nozzle bracket 52 is equipped with more Suction nozzle, 1 plate of Yao Shixian/box packaging are arranged, then suction nozzle bracket 52 after discharging a row, rises (Z-direction in Fig. 9) immediately, (X-direction in Fig. 9) is fast moved to feed the opposite direction of 4 conveying direction of grid conveying device simultaneously, it is defeated to come charging grid It send above the subsequent vacancy of device 4, adjusts the front-rear position (Y direction in Fig. 9) of suction nozzle bracket 52 at the same time, allow another row Suction nozzle 51 is in the surface in vacancy behind charging grid conveying device 4, then declines and the bubble cap tray of this row is put down.Certainly The stacking of bubble cap tray (2-5) plate/box can also be completed with the transfer track of optimization and least movement beat by programming Mounted box.Specifically front and back is equipped with three row's suction nozzles 51 to the utility model manipulator on suction nozzle bracket 52, and three row's suction nozzles 51 substantially can Meet the stacking mounted box of bubble cap tray (1-5) plate/box.

It moves anyway, suction nozzle bracket 52 will keep horizontal always, and suction nozzle bracket 52 is exactly by horizontal holding group Part keeps horizontal, and the horizontal holding component of the utility model manipulator includes horizontal drag link 510, triangle cantilever 511, level Vertical connecting rod 512, pull-up rod bearing 5100 and lower drag link bearing 513, the handover of triangle cantilever 511 is on front and back transfer arm 54, and three One jiao of angle cantilever 511 and the rear end of horizontal drag link 510 are hinged, and pull-up rod bearing 5100 is mounted on suction nozzle bracket 52 (such as Shown in Fig. 8), the front end of horizontal drag link 510 and pull-up rod bearing 5100 are hinged, another angle of triangle cantilever 511 and horizontal vertical The upper end of pull rod 512 is hinged, and lower drag link bearing 513 is mounted on slide 519, the lower end of horizontal vertical connecting rod 512 and lower pull rod branch Seat 513 is hinged.Component, as shown in figure 11, the lower interface point of suction nozzle bracket 52 and oscilaltion arm 53 are kept by the level 5200 remain vertical (if two o'clock is not vertical with the upper interface point 5201 of pull-up rod bearing 5100 and horizontal drag link 510 Directly, then to be just to maintain direction constant), since lower interface point 5200 is all located on suction nozzle bracket 52 with upper interface point 5201, because This suction nozzle bracket 52 would not rotate, no matter oscilaltion, or be moved forward and backward, can remain horizontal.

As shown in figure 11, the linkage section of oscilaltion arm 53 and suction nozzle bracket 52 is long-armed, oscilaltion arm 53 and lifting The linkage section of pull rod 55 is galianconism, and according to lever principle, lifter drawing bar 55 will overcome very big pulling force up that could allow suction nozzle Bracket 52 keeps balance, and lifter drawing bar 55 and oscilaltion power source 57 are sequentially connected, therefore the pulling force to be overcome just shifts Onto oscilaltion power source 57, oscilaltion power source 57 will bear bigger load thus.It is dynamic in order to mitigate oscilaltion Oscilaltion power source 57 and triangle joint arm 56 are sequentially connected by the load in power source 57, the utility model, triangle joint arm 56 One jiao it is hinged with the lower end of lifter drawing bar 55, another angle of triangle joint arm 56 with drive lifter drawing bar 55 toward the flexible of drop-down Part 515 connects.Since extensible member 515 gives one jiao of pulling force back of triangle joint arm 56, such triangle joint arm 56 with The connecting pin of lifter drawing bar 55 there is the power toward drop-down, this power just alleviates suction nozzle bracket 52 to lifter drawing bar 55 Pulling force up, this reduces the loads of oscilaltion power source 57, and oscilaltion power source 57 is allowed to possess longer make Use the service life.Certainly, extensible member 515 here can be tension spring or support cylinder.

In order to fast move slide 519, the utility model manipulator is equipped with synchronous belt component on base 518, together Step band component includes driven synchronous pulley, active synchronization belt wheel and synchronous belt 514, and synchronous belt 514 is wound on driven synchronous belt With in active synchronization belt wheel, synchronous belt 514 is connect wheel with slide 519, and level transfer power source 58 is just passed with active synchronization belt wheel Dynamic connection.Power source 58 to be transferred by level to drive, synchronous belt 514 just can quickly move back and forth on the slide rail with slide 519, To enable suction nozzle 51 and suction nozzle bracket 52 to catch up with the conveying of non-clean area grid conveying device 22 with charging grid conveying device 4 Speed.

Finally it is worth mentioning that power source 59 is transferred in the oscilaltion power source 57 of the utility model manipulator, front and back And horizontal transfer power source 58 is speed reducer for servo motor combination.Speed reducer for servo motor combination can be precisely controlled each machine The movement of structure, so that plate work is put in the suction for completing error very little.

Claims (10)

1. high speed bubble-cap mounted box all-in-one machine, includes bubble-cap machine (1) and box packing machine (3), the bubble-cap machine (1) and discharging grid are defeated Device (2) conveying linking is sent, the box packing machine (3) is connected with charging grid conveying device (4) conveying, the discharging grid conveying Realize that conveying is connected by bubble cap tray transfer robot arm (5) between device (2) and charging grid conveying device (4), feature exists In: discharging grid conveying device (2) include clean area grid conveying device (21) in clean area (C) and be located at Non- clean area grid conveying device (22) in non-clean area (D), the position of the clean area grid conveying device (21) are higher by The position of non-clean area grid conveying device (22), the front end of the clean area grid conveying device (21) and non-clean area grid Conveying linking is realized by inclined ramp (23) in the rear end of conveying device (22), and the clean area (C) passes through with non-clean area (D) Partition wall (24) isolation, the partition wall (24) have window (240), and the inclined ramp (23) passes through window (240).

2. high speed bubble-cap mounted box all-in-one machine according to claim 1, it is characterised in that: the air pressure of the clean area (C) is high In the air pressure of non-clean area (D).

3. high speed bubble-cap mounted box all-in-one machine according to claim 1, it is characterised in that: the non-clean area grid conveying dress The front for setting (22) is equipped with reflux guide channel (25), and the lower section of reflux guide channel (25) is equipped with reflux conveyer belt (26), sampling collecting vessel (260) is equipped at the discharge end of reflux conveyer belt (26).

4. high speed bubble-cap mounted box all-in-one machine according to claim 1, it is characterised in that: the discharging grid conveying device (2) there is a plurality of transfer passage, every transfer passage is all by grid conveying chain hook (224), drive sprocket and by movable sprocket (223) It constitutes, grid conveying chain hook (224) is wound on drive sprocket with by movable sprocket (223), and the drive sprocket and conveying are dynamic Power source (27) transmission connection.

5. high speed bubble-cap mounted box all-in-one machine according to claim 4, it is characterised in that: the discharging grid conveying device tool There are three transfer passages, the drive sprocket of inboard transfer passage and is installed on inboard memorial archway (220) by movable sprocket, it is intermediate Transfer passage drive sprocket and be installed on intermediate memorial archway (221) by movable sprocket (223), the master of the transfer passage in outside Movable sprocket is installed on outside memorial archway (222) with by movable sprocket, is equipped with adjusting screw rod on the intermediate memorial archway (221) (226), the both ends for adjusting screw rod (226) are threadedly coupled with inboard memorial archway (220) and outside memorial archway (222) respectively, described Left and right two is equipped on intermediate memorial archway (221) can relatively move the partition mounting rack (225) of adjusting, the partition mounting rack (225) intermediate left clapboard (2210) and intermediate right clapboard (2211) are installed, intermediate transfer passage is located at intermediate left clapboard on (2210) between intermediate right clapboard (2211).

6. high speed bubble-cap mounted box all-in-one machine according to claim 1, it is characterised in that: shown non-clean area grid conveying dress It sets (22) and charging grid conveying device (4) is arranged side by side, the bubble cap tray transfer robot arm (5) is located at charging grid conveying dress (4) side is set, the bubble cap tray transfer robot arm (5) includes organic block (518), suction nozzle (51) and suction nozzle bracket (52), institute The front end that suction nozzle bracket (52) is hinged on oscilaltion arm (53) is stated, the oscilaltion arm (53) is hinged on front and back and transfers arm (54) on, the lower end of front and back transfer arm (54) is installed in rotation on slide (519), is installed on the slide (519) There are oscilaltion power source (57) and front and back transfer power source (59), arm is transferred in front and back transfer power source (59) and front and back (54) it is sequentially connected, the lower end of the oscilaltion power source (57) and lifter drawing bar (55) is sequentially connected, the lifter drawing bar (55) rear end of upper end and oscilaltion arm (53) is hinged, and the sliding rail of left and right settings is equipped on the base (518), described Slide (519) sliding is set on the slide rail, and the slide (519) and the horizontal transfer for driving slide (519) to move on the slide rail are dynamic Power source (58) transmission connection；The slide (519) is equipped with the horizontal holding component for making suction nozzle bracket (52) to keep horizontal.

7. high speed bubble-cap mounted box all-in-one machine according to claim 6, it is characterised in that: described horizontal to keep the component to include Horizontal drag link (510), triangle cantilever (511), horizontal vertical connecting rod (512), pull-up rod bearing (5100) and lower drag link bearing (513), in front and back transfer arm (54), one jiao of the triangle cantilever (511) is horizontal with level for triangle cantilever (511) handover The rear end of pull rod (510) is hinged, and the pull-up rod bearing (5100) is mounted on suction nozzle bracket (52), the horizontal drag link (510) front end and pull-up rod bearing (5100) hingedly, another angle and horizontal vertical connecting rod (512) of the triangle cantilever (511) Upper end it is hinged, the lower drag link bearing (513) is mounted on slide (519), the lower end of the horizontal vertical connecting rod (512) under Drag link bearing (513) is hinged.

8. high speed bubble-cap mounted box all-in-one machine according to claim 6, it is characterised in that: the oscilaltion power source (57) It is sequentially connected with triangle joint arm (56), one jiao of the triangle joint arm (56) is hinged with the lower end of lifter drawing bar (55), institute Another angle for stating triangle joint arm (56) is connect with the extensible member (515) for driving lifter drawing bar (55) toward drop-down.

9. high speed bubble-cap mounted box all-in-one machine according to claim 6, it is characterised in that: be equipped with synchronous belt on the base Component, the synchronous belt component include driven synchronous pulley, active synchronization belt wheel and synchronous belt (514), the synchronous belt (514) it is wound in driven synchronous pulley and active synchronization belt wheel, the synchronous belt (514) connect with slide (519), the active Synchronous pulley and horizontal transfer power source (58) transmission connection.

10. high speed bubble-cap mounted box all-in-one machine according to claim 6, it is characterised in that: the oscilaltion power source (57), front and back transfer power source (59) and horizontal transfer power source (58) are speed reducer for servo motor combination.