CN208248668U - Desiccant feeding device and automatic packaging production line - Google Patents

Abstract

The utility model provides a kind of desiccant feeding device, for desiccant is added in the product to be packaged for being located at packaging position, the desiccant feeding device to include vibration loading plate and desiccant conveyer belt；The desiccant conveyer belt includes the inclination feeding section to connect with the feeding end of the vibration loading plate, the blanking section being suspended from above the packaging position, and the conveying section of the connection inclination feeding section and the blanking section；The inclination feeding section is located at the top of the conveying section towards one end of the conveying section, and the blanking section is located at the lower section of the conveying section towards one end of the conveying section.The remote transmission that according to desiccant feeding device provided by the utility model, and can effectively replace manual work, and be suitable between vibration loading plate and upper material position, and then it is convenient for the design and implementation of automatic packaging production line.

Description

Desiccant feeding device and automatic packaging production line

Technical field

The utility model relates to a kind of feeding device more particularly to it is a kind of for packaging product in be added desiccant do Drying prescription feeding device and automatic packaging production line with the desiccant feeding device.

Background technique

Solid state hard disk has the remarkable advantage that size is smaller and reading speed is fast, is easily accepted by a user rapidly, and gradually replace Mechanical hard disk.Although solid state hard disk, compared to mechanical hard disk drop resistant, slight degree of crash not will cause loss of data, service life is also grown It is significantly higher than mechanical hard disk in the price of mechanical hard disk, but one side solid state hard disk, another aspect solid state hard disk is once damaged It is bad, it will cause data and all lose and can not give for change, therefore also need to carry out safe packet when shipment is transported in solid state hard disk Dress.

In the packaging to solid state hard disk, it will usually to desiccant is added in packing case, to avoid humidity mistake in packing case Greatly.For the automatic packaging for realizing solid state hard disk, needing one kind can be to the desiccant feeding for going up desiccant in packing case automatically Device.

Summary of the invention

The purpose of the utility model is to provide it is a kind of can to the desiccant feeding device of upper desiccant automatically in packing case, And then realize the automatic packaging of solid state hard disk.

To achieve the goals above, the utility model provides a kind of desiccant feeding device, for positioned at packaging position Product to be packaged in desiccant is added, the desiccant feeding device includes vibration loading plate and desiccant conveyer belt；It is described Desiccant conveyer belt includes the inclination feeding section to connect with the feeding end of the vibration loading plate, is suspended from above the packaging position Blanking section, and the conveying section of the connection inclination feeding section and the blanking section；The inclination feeding section is towards the conveying section One end be located at the top of the conveying section, one end of the blanking section towards the conveying section is located under the conveying section Side.

Compared with prior art, desiccant feeding device provided by the utility model realizes volume by vibration loading plate The feeding one by one of lesser desiccant, and the desiccant conveying being respectively communicated between the feeding end and upper material position of vibration loading plate Band so that vibration loading plate farther out but not can influence the normal feeding of desiccant at a distance of upper material position, and then increases automatic The freedom degree of packaging production line layout designs；In desiccant conveyer belt, the inclination feeding section, conveying section and the blanking section that connect respectively It is adapted to distance and the position of vibration loading plate and upper material position, and the one end for tilting feeding section towards conveying section is located at conveying section Top, blanking section is located at the lower section of conveying section towards one end of conveying section, can be further simplified the structure of desiccant conveyer belt. According to desiccant feeding device provided by the utility model, and can effectively replace manual work, and be suitable for vibration loading plate and Remote transmission between upper material position, and then it is convenient for the design and implementation of automatic packaging production line.

Preferably, the desiccant feeding device further includes conveying capacity locating part, the conveying capacity locating part is set to institute It states above desiccant conveyer belt, and greater than the thickness of desiccant and is less than desiccant thickness at a distance from the desiccant conveyer belt Twice；Vibration loading plate and inclination feeding section can effectively reduce the stacking phenomenon of desiccant but can not be absolutely avoided, and be This, is arranged conveying capacity locating part above desiccant conveyer belt, further can effectively avoid the stacking of desiccant, and then guarantee The entrance of desiccant one by one is located in the product to be packaged of packaging position.

Preferably, the desiccant feeding device further includes the inclination blanking portion to connect with blanking section, the inclination blanking Portion is located at the lower section of the blanking section towards one end of the blanking section, and the blanking portion that tilts is to the separate blanking section One side extends and tilts down to the packaging position.

Specifically, the inclination blanking portion is provided with induction control valve, the induction control valve detection desiccant passes through shape State, and the desiccant feeding device movement is controlled in turn.

Preferably, one end downside of the inclination feeding section towards the conveying section is additionally provided with striker plate；Striker plate Setting is to continue after crossing inclination feeding section upper end under effect of inertia in order to avoid the desiccant at inclination feeding section with inclination Feeding section is mobile.

To achieve the above object, the present invention also provides a kind of automatic packaging production line, including rack, the rack upsides It is provided with packaging position, the automatic packaging production line further includes desiccant feeding device above-mentioned.

Detailed description of the invention

Fig. 1 is the flow package schematic diagram of solid state hard disk.

Fig. 2 is the structural schematic diagram of solid state hard disk finished product packing line.

Fig. 3 is that solid state hard disk finished product packing line removes the schematic diagram of internal structure after shell.

Fig. 4 is that solid state hard disk finished product packing line removes schematic diagram of internal structure after shell in another angle.

Fig. 5 is the structural schematic diagram of packaging system.

Fig. 6 is the structural schematic diagram of packing machine.

Fig. 7 is the schematic diagram of internal structure of packing machine.

Fig. 8 is the internal structure top view of packing machine.

Fig. 9 is the enlarged drawing in the portion A in Fig. 7.

Figure 10 is the structural schematic diagram of manipulator mechanism.

Figure 11 is the structural schematic diagram of packing case positioning mechanism.

Figure 12 is the structural schematic diagram of antistatic bag flange body.

Figure 13 and Figure 14 is the structural schematic diagram of the utility model antistatic bag heat-sealing device.

Figure 15 is the structural schematic diagram of desiccant feeding device.

Specific embodiment

For the technology contents of detailed description, construction feature, the objects and the effects, below in conjunction with embodiment and cooperate Attached drawing is explained in detail.

As shown in Figure 1, the packing encapsulation process of solid state hard disk successively includes: that packing case C is unfolded；To packing case C inner sleeve Enter antistatic bag；Identification code is stamped in the lateral wall of packing case C；Lower partition G is put into antistatic bag；Heap charging tray P is put Enter in antistatic bag；Upper partition G and desiccant are put into antistatic bag；Close antistatic bag；It is packaged packing case C.

To realize that the packing to solid state hard disk encapsulates, it is desirable to provide a kind of solid state hard disk finished product packing line, it will be above-mentioned solid The packing encapsulation process of state hard disk is fully completed, to avoid quality caused by manual work unstable, while improving production efficiency. And antistatic bag vacuum heat-seal device, vacuum heat-seal can be carried out to the antistatic bag for being mounted with solid state hard disk or other products, Thus its important component that can be used as solid state hard disk finished product packing line, conducive to realize solid state hard disk packing encapsulation from It is dynamic to be turned into industry.

As shown in Fig. 2, solid state hard disk finished product packing line includes heap disk conveyer system 100, packaging system 200, packing case biography Send system 300 and packing case packaging system 400, packaging system 200 include along straight line arrangement packing case feeder 210, prevent it is quiet Electric bag feeder 220 and packing machine 230, and packaging system 200 be provided with the two sides of one end of packing machine 230 respectively with heap disk Conveyer system 100 and packing case conveyer system 300 connect, and packing machine 230 accepts the heap charging tray P that heap disk conveyer system 100 transmits, And by after heap charging tray P loading packing case C, packing case packaging system 400 is sent to via packing case conveyer system 300；Packing case The sealing of packaging system 400 is equipped with the packing case C of heap charging tray P.In conjunction with shown in Fig. 3-Figure 15, more specifically:

As shown in figs 2-4, in solid state hard disk finished product packing line, heap disk conveyer system 100 and packing case conveyer system 300 Linearly arrangement, packaging system 200 and packing case packaging system 400 are perpendicular in heap disk conveyer system 100 and packing case transmission The setting of 300 ground of system, and packaging system 200 and packing case packaging system 400 are located at heap disk conveyer system 100 and packing case passes Send the same side of system 300.According to the layout structure, so that approximate " F " font of solid state hard disk finished product packing line overall structure, needs It wants heap charging tray P, packing case C and the antistatic bag of feeding and needs the packed solid state hard disk finished packaging box C of blanking, point Not Wei Yu integrally-built " F " font of solid state hard disk finished product packing line each end, to facilitate material disengaging, convenient for operation.

Further, solid state hard disk finished product packing line can further include solid state hard disk set bag system (in figure not Show), single solid state hard disk can be inserted in antistatic bag and it is put into stacking charging tray by solid state hard disk set bag system to be obtained Meet the heap charging tray P of packing demand.Solid state hard disk set bag system can be set the heap disk in solid state hard disk finished product packing line and transmit The other end of system 100, so that approximate " E " font of solid state hard disk finished product packing line overall structure.

It is specific in conjunction with shown in Fig. 5-Figure 15 for packaging system 200:

Packaging system 200 includes packing case feeder 210, antistatic bag feeder 220 and the packing machine along straight line arrangement 230, and packaging system 200 is provided with the two sides of one end of packing machine 230 and transmits respectively with heap disk conveyer system 100 and packing case System 300 connects, and packing machine 230 accepts the heap charging tray P that heap disk conveyer system 100 transmits, and heap charging tray P is packed into packing case C Afterwards, packing case packaging system 400 is sent to via packing case conveyer system 300.

It should be understood that packing case feeder 210, for packing case C to be unfolded, antistatic bag feeder 220 is used for will Antistatic bag is nested into packing case C and antistatic sack flange is set to except packing case C case mouth.The part-structure is more simple It is single, it is not subject to text detailed description herein.It is described in detail below only for the structure of packing machine 230.

As Figure 6-Figure 8, packing machine 230 includes charging tray feeding device 231, packing case transport mechanism 232, partition suction and conveying Device 233, desiccant feeding device 234, antistatic bag vacuum heat-seal device 235 and electric cabinet 236, and packing machine 230 has Pack position 230c；The transmission track of packing case transport mechanism 232 is by packaging position 230c and antistatic bag vacuum heat-seal device 235, and partition suction and conveying device 233 and the upper material position of desiccant feeding device 234 are respectively positioned on above packaging position 230c；Charging tray feeding Device 231 is for being transferred to heap charging tray P in the packing case C of upper material position, partition suction and conveying device 233 and desiccant feeding Device 234 is respectively to partition G and desiccant is put into packing case C, via antistatic bag vacuum heat-seal device 235 to antistatic bag Enter packing case conveyer system 300 after being sealed.

Specifically, packing machine 230 has rack 237, and in the front and rear sides of one end of rack 237, side and pallet blanking Machine 140 connects to accept heap charging tray P, and the other side connects with packing case conveyer system 300, and will pass through packing machine 230, treated Packing case C is transplanted on packing case packaging system 400；Rack 237 away from pallet blanking machine 140 and packing machine 230 the other end with Antistatic bag feeder 220 connects, and the packing case C of antistatic bag is housed with bearing sleeve.

Partition suction and conveying device 233, desiccant feeding device 234 and antistatic bag vacuum heat-seal device 235 are respectively arranged at The upside of rack 237, and be put into partition G and desiccant for convenience of partition suction and conveying device 233 and desiccant feeding device 234 Into packing case C, for the packaging position that partition G and desiccant are put into packing case C can be set it is shorter, lower than partition inhale Send device 233 and desiccant feeding device 234.And electric cabinet 236 is set to the outside of rack 237.

Preferably, being that limited space content is set partition suction and conveying device 233, done at rack 237 in the present embodiment Drying prescription feeding device 234 and antistatic bag vacuum heat-seal device 235, the Transfer pipe of packing case transport mechanism 232 not only limits It, can also be in being transmitted in vertical direction in horizontal and vertical transmission.Specifically in the present embodiment, partition suction and conveying device 233 and dry Drying prescription feeding device 234 is arranged along a long side of rack 237, antistatic bag vacuum heat-seal device 235 and packaging position 230c Positioned at another long side of rack；The packing case transport mechanism 232 for being set with antistatic bag passes from below through antistatic bag vacuum Heat-sealing device 235 comes packaging position 230c, after being sequentially loaded into partition G, heap charging tray P, partition G, desiccant in packing case C, It is moved right upwards to antistatic bag vacuum heat-seal device 235 under the driving of packing case transport mechanism 232, so as to antistatic Bag vacuum heat-seal device 235 is sealed antistatic bag；Subsequent packing case C is moved down in the driving of packing case transport mechanism 232 It moves and is passed through to another long side of rack, below partition suction and conveying device 233 and desiccant feeding device 234, by packing case C It is transferred to packing case conveyer system 300.

More specific: in conjunction with shown in Fig. 9 and Figure 10, a short side of packing machine 237 towards heap disk conveyer system 100 and is wrapped In conveyer system 300 of casing, in the short side of packing machine 237, the side close to heap disk conveyer system 100 is provided with packaging Position 230c is provided with partition accommodating position 230d close to the side of packing case conveyer system 300；Partition suction and conveying device 233 is set to Partition accommodates the upside of position 230d, and the partition adsorbing mechanism of partition suction and conveying device 233 can accommodate partition at the 230d of position The feeding of partition G is realized in the packing case C that partition G is moved at packaging position 230c.

In conjunction with shown in Fig. 9 and Figure 11, partition suction and conveying device 233 be set to partition accommodating position 230d and packaging position 230c it Between, and partition suction and conveying device 233 includes partition adsorbing mechanism 233a and driving adsorbing mechanism 233a in partition accommodating position 230d The partition feeding driving mechanism 233b moved between packaging position 230c；Partition adsorbing mechanism 233a includes being connected to partition feeding The horizontal bearing plate 233a1 of the driving mechanism 233b output end and suction nozzle 233a2 being set on the downside of horizontal bearing plate 233a1；It inhales Mouth 233a2 is connected with negative pressure generating mechanism.More specifically:

As shown in figures 9 and 11, partition accommodating position 230d and packaging position 230c are in one close to heap disk conveyer system 100 Side, and be arranged along the short side of rack 237；Partition suction and conveying device 233, for the partition G at partition accommodating position 230d will to be located at It is moved in the packing case C being located at packaging position 230c one by one, to realize the automatic charging of partition G.

Partition suction and conveying device 233 mainly includes partition adsorbing mechanism 233a and partition feeding driving mechanism 233b.Wherein, every Plate feeding driving mechanism 233b is set to partition accommodating position 230d and packaging side of the position 230c far from heap disk conveyer system 100, And in the setting of the direction for the short side for being parallel to rack 237.Partition feeding driving mechanism 233b mainly includes being located at partition to accommodate The outside of position 230d and packaging position 230c simultaneously accommodates position 230d across partition and packs the laterally driven part 233b1 of position 230c, connects It is connected to the zigzag tread patterns part 233b2 of laterally driven part 233b1 output end and is connected to the perpendicular of zigzag tread patterns part 233b2 output end To actuator 233b3, laterally driven part 233b1, zigzag tread patterns part 233b2, vertical actuator 233b3 three cooperate, with Horizontal bearing plate 233a1 of the driving positioned at the final output end of partition feeding driving mechanism 233b can be in moving in solid space It is dynamic.Partition adsorbing mechanism 233a includes horizontal bearing plate 233a1 and the suction nozzle that is set on the downside of horizontal bearing plate 233a1 233a2, and suction nozzle 233a2 is connected with negative pressure generating mechanism, adsorbs partition G via suction nozzle 233a2, partition is accommodated position The partition G of 230d is moved at packaging position 230c the feeding for realizing partition G one by one.

It should be understood that negative pressure generating mechanism is specifically as follows an extraction sector being separately provided, it can also be production vehicle Interior central negative pressure generator, suction nozzle 233a2 is connected to central negative pressure generator by tracheae, and then realizes to partition G's Negative-pressure adsorption.

In the present embodiment, as shown in figures 9 and 11, the partition G at partition accommodating position 230d has two piles, and in order to save About space, the long side and rack 237 of the partition G that the partition G that several cross sections are rectangle is stacked in two piles, and stacked Short side it is parallel.And it should be understood that being located at the packing case C at packaging position 230c, in the short of short side and rack 237 Avris is arranged substantially in parallel.For this situation, for convenience of the feeding of partition G, partition feeding driving mechanism 233b further includes rotation Turn actuator (not shown), and drives horizontal bearing plate 233a1 to be rotated by 90 ° via rotary drive, it so can be by partition G It is put into corresponding packing case C.It should be understood that rotary drive can be set in the output end of vertical actuator 233b3, and Rotary drive can be preferably rotary cylinder.

It is please referred to shown in Fig. 7 and Fig. 8 again, 234 opposed separators of desiccant feeding device accommodate position 230d and partition suction and conveying dress Set the 233 long side settings along rack 237.In conjunction with shown in Figure 15, desiccant feeding device 234 is used for positioned at packaging position Desiccant is added in the product to be packaged of 230c.Desiccant feeding device 234 includes vibration loading plate 234a and desiccant conveying Band 234b；Desiccant conveyer belt 234b includes the inclination feeding section 234b1 to connect with the feeding end of vibration loading plate 234a, is hanged Blanking section 234b3 above packaging position 230c, and the conveying section of connection inclination feeding section 234b1 and blanking section 234b3 234b2；Inclination feeding section 234b1 is located at the top of conveying section 234b2, blanking section 234b3 court towards one end of conveying section 234b2 It is located at the lower section of conveying section 234b2 to one end of conveying section 234b2.

It should be understood that desiccant feeding device 234 passes through the desiccant of vibration loading plate 234a realization small volume Feeding one by one, and the desiccant conveyer belt 234b being respectively communicated between the feeding end and upper material position of vibration loading plate 234a, with Allow vibration loading plate 234a farther out but not to influence the normal feeding of desiccant at a distance of upper material position, and then increases automatic packet The freedom degree of assembling production lines layout designs；In desiccant conveyer belt 234b, the inclination feeding section 234b1 that connects respectively, conveying section 234b2 and blanking section 234b3 is adapted to distance and the position of vibration loading plate 234a and upper material position, and tilts feeding section 234b1 is located at the top of conveying section 234b2 towards one end of conveying section 234b2, and blanking section 234b3 is towards conveying section 234b2's One end is located at the lower section of conveying section 234b2, can be further simplified the structure of desiccant conveyer belt 234b.

In conjunction with shown in Fig. 7, Fig. 8 and Figure 15, desiccant feeding device 234 includes that vibration loading plate 234a and desiccant are defeated Send band 234b.Shake loading plate 234a storage bin and percussion mechanism be it is commercially available, can be set according to the outer dimension of desiccant The shape of meter vibration feeding groove, by vibration will the desiccant that be accommodated in storage bin via vibration feeding groove feeding one by one；It is dry Agent conveyer belt 234b is set between vibration loading plate 234a and packaging position 230c, will be apart from farther away vibration loading plate 234a Desiccant at the desiccant feeding at place to packaging position 230c.

Specifically, desiccant conveyer belt 234b includes the inclination feeding section to connect with the feeding end of vibration loading plate 234a 234b1, the blanking section 234b3 being suspended from above packaging position 230c, and connection inclination feeding section 234b1's and blanking section 234b3 are defeated Send a section 234b2；Inclination feeding section 234b1 is located at the top of conveying section 234b2, blanking section towards one end of conveying section 234b2 234b3 is located at the lower section of conveying section 234b2 towards one end of conveying section 234b2.By the way that desiccant conveyer belt 234b is set respectively It is set to inclination feeding section 234b1, conveying section 234b2 and blanking section 234b3, so that the transmission of desiccant conveyer belt 234b Path can be bent, and with the position of shock adaptive loading plate 234a and packaging position 230c, further, tilt feeding section 234b1 is located at the top of conveying section 234b2 towards one end of conveying section 234b2, and blanking section 234b3 is towards conveying section 234b2's One end is located at the lower section of conveying section 234b2, thus simplify inclination feeding section 234b1, conveying section 234b2 and blanking section 234b3 it Between the structure that connects.

As shown in figure 15, the direction for tilting feeding section 234b1 towards conveying section 234b2 tilts upward.To avoid with inclination Feeding section 234b1 is delivered in the desiccant of conveying section 234b2, is crossing inclination feeding section 234b1 towards conveying section 234b2 One section after, continue to deviate conveying section 234b2 as inclination feeding section 234b1 is mobile under the action of inertia, in inclination Material section 234b1 is additionally provided with striker plate 234b5 towards one end of conveying section 234b2 downside.Striker plate 234b5 is in fixedly Setting, and the middle part of striker plate 234b5 is provided with the occlusion part of protrusion, striker plate in the two sides of tabular, striker plate 234b5 Plane where tabular in the middle part of 234b5 is towards conveying section 234b2, so that being drawn by the desiccant under striker plate 234b5 gear Fall at guiding conveying section 234b2.

Further, the stacking that vibration loading plate 234a and inclination feeding section 234b1 can effectively reduce desiccant shows As, but the phenomenon that desiccant stacks can not be absolutely avoided.In this regard, desiccant feeding device 234 further includes conveying capacity limit Part 234b6, conveying capacity locating part 234b6 be set to above desiccant conveyer belt 234b, and with desiccant conveyer belt 234b away from From the thickness for being greater than desiccant and twice that is less than desiccant thickness, by the setting of conveying capacity locating part 234b6 to avoid heap In the desiccant that folded desiccant is current, stacks, the desiccant positioned at upside is hindered by conveying capacity locating part 234b6 to fall backward It falls, is so further ensured that the entrance of desiccant one by one is located in the product to be packaged of packaging position 230c, to easily control Into the quantity of the desiccant in product to be packaged.

Preferably, desiccant feeding device 234 further includes the inclination blanking portion 234b4 to connect with blanking section 234b3, incline Material portion 234b4 is located at the lower section of blanking section 234b3 towards one end of blanking section 234b3 obliquely downward, and tilts blanking portion 234b4 to remote A side from blanking section 234b3 extends and tilts down to packaging position 230c.It should be understood that inclination blanking portion 234b4 does not have It is provided with conveyer structure, but by the tilt angle setting of inclination blanking portion 234b4, realize desiccant to positioned at packaging It is moved in the product to be packaged of position 230c.According to this structure, it can influence, further increase dry to avoid the action inertia of conveyer belt The accuracy of drying prescription feeding.

Further, inclination blanking portion 234b4 is provided with induction control valve 234b7, and induction control valve 234b7 detection is dry By state, and in turn, control desiccant feeding device 234 acts drying prescription.

Partition feeding port is offered in conjunction with partition accommodating position 230d shown in Fig. 6, is corresponded on the shell of packing machine 230 The partition G stacked can be put at partition accommodating position 230d by 230a, operating personnel via partition feeding port 230a, packing machine Desiccant feeding device 234 is corresponded on 230 shell and is also provided with desiccant feeding port 230b, and operating personnel can be via drying The desiccant that several parcels are packed is added in desiccant feeding device 234 by agent feeding port 230b.

As shown in Figure 10, charging tray feeding device 231 is set to the side of packaging position 230c.Charging tray feeding device 231 is used for Crawl heap charging tray P simultaneously moves heap charging tray P between pallet blanking machine 140 and packaging position 230c.Charging tray feeding device 231 includes For grabbing the pallet feeding manipulator 231b of heap charging tray P and the pallet feeding driving of driving pallet feeding manipulator 231b movement Mechanism 231a, and pallet feeding manipulator 231b includes lifting finger 231b1 and pushing tow positioning finger 231b2, lifts finger 231b1 below heap charging tray for lifting heap charging tray P, and vertically arranged pushing tow positioning finger 231b2 is for being compressed to downwards The top of heap charging tray P, to realize the positioning to heap charging tray P.

Further, as shown in figure 11, it is provided with adjustment unit 238 at packaging position 230c, adjustment unit 238 passes through The adjustment part 238a of the left and right sides constrains adjustment, faces so that packing case C is in heap charging tray P, charging tray feeding device 231 Position.Further, adjustment unit 238 further includes vertical actuator 238b, drives packing case C by the vertical actuator It is vertically movable to accept heap charging tray P, meanwhile, vertical actuator 238b can also realize packing case C vertical lifting, so as to will Packing case C is transferred at antistatic bag vacuum heat-seal device 235 and is sealed.

It should be understood that being also provided with labelling mechanism (not shown), unit to be adjusted at packaging position 230c Behind the position of 238 adjustment packing case C, labelling mechanism labels to the lateral wall of packing case C, de- departing from heap charging tray P at this time From pallet 150, physics is detached from heap charging tray mobile logo and pallet constant mark simultaneously, but passes through the label on the outside of packing case C, Heap charging tray P can be equally identified, so that tracking be facilitated to search.

As shown in Figure 1, to realize that the antistatic bag for being socketed on packing case C is sealed, before being sealed to antistatic bag The antistatic sack for needing first to be about to be socketed on the outer ring packing case C pushes up, after antistatic bag is arranged it is neat.For this purpose, combining figure Shown in 7- Fig. 9, antistatic bag flange body is additionally provided between packaging position 230c and antistatic bag vacuum heat-seal device 235 239.As shown in figure 12, antistatic bag flange body 239 includes multiple flexible scraper plate 239a, when to be moved to sack whole by packing case C When managing mechanism 239, multiple flexibility scraper plate 239a are moved from bottom to top round packing case C, will be socketed on the case mouth of packing case C Antistatic sack effectively push up；Antistatic bag flange body structure 239 further includes antistatic sack supporting mechanism 239b, is prevented quiet Electric sack supporting mechanism 239b extend into above the case mouth of packing case C with to antistatic sack be supported with preliminary shaping, with Allow antistatic sack that the state holded up is kept to be moved at antistatic bag vacuum heat-seal device 235.

It is please referred to shown in Figure 13 and Figure 14 again, antistatic bag vacuum heat-seal device 235, including can be vertical with respect to antistatic bag Mobile actuator 235a, heat sealing mechanism 235b, vacuum device 235c and be set to actuator 235a driving end stretching it is fixed Position mechanism 235d；Stretching positioning mechanism 235d includes the two positioning plate 235d1 that can protrude into antistatic bag oral area, and two positioning plates 235d1 can be moved away to stretch the oral area of antistatic bag, and vacuum device 235c can be protruded into antistatic bag to antistatic Bag vacuumizes, and heat sealing mechanism 235b includes stretching the two heat-sealing 235b1 that direction is moved along perpendicular to two antistatic bags.More specifically :

As shown in Figure 13 and Figure 14, antistatic bag vacuum heat-seal device 235, one including being fixedly connected on rack 237 Locating rack 235e, locating rack 235e are connected with actuator 235a, are set to actuator 235a driving end as carrying basis Positioning mechanism 235d and vacuum device 235c is stretched, and heat sealing mechanism 235b is in be fixedly installed independently of locating rack 235e.

It is please referred to shown in Figure 13 and Figure 14 again, actuator 235a is fixedly connected on locating rack 235e and driving direction is in perpendicular To；Load-bearing part 235f is substantially in tabular, and load-bearing part 235f is in the driving for being horizontally disposed with and being fixedly connected on actuator 235a End, load-bearing part 235f is under the driving of actuator 235a with having contained admittedly close to or far from packing case C and in packing case C The antistatic bag of state hard disk；Stretching positioning mechanism 235d includes being fixedly connected on the downside of load-bearing part 235f, towards antistatic bag The force piece 235d2 and two positioning plate 235d1 driven by force piece 235d2, wherein two force piece 235d2 are in output side To being arranged on the contrary, and the output end of two force piece 235d2 is respectively fixedly connected with a driving for being parallel to force piece 235d2 Direction and be in vertically arranged positioning plate 235d1, when stretching positioning mechanism 235d under actuator 235a driving close to packing case C Be located at packing case C in antistatic bag when, two positioning plate 235d1 can enter antistatic bag via the sack of antistatic bag It is interior, and two positioning plate 235d1 are moved away under the driving of two force piece 235d2, so that the oral area of antistatic bag be drawn Exhibition.It should be understood that the oral area of the antistatic bag stretched, as shown in Figure 1, the two sides of antistatic bag oral area are closer.

Please referred to shown in Figure 13 and Figure 14 again, vacuum device 235c include motor 235c1, flexible tracheae 235c2 and Vacuum slot 235c3.Wherein, vacuum slot 235c3 is fixedly connected on the driving end of actuator 235a, i.e. vacuum slot 235c3 It is fixedly connected on load-bearing part 235f, and vacuum slot 235c3 passes through load-bearing part 235f and towards packing case C and positioned at packing case C Interior antistatic bag；Motor 235c1 is fixedly connected on locating rack 235e, and flexible tracheae 235c2 is connected to the pumping of motor 235c1 Inhale end and vacuum slot 235c3, and the length of flexible tracheae 235c2 can stretch adjustment so that vacuum slot 235c3 with Load-bearing part 235f it is vertically movable with during close to or far from antistatic bag, vacuum slot 235c3, which is remained, to be connected to The aspiration end of motor 235c1.When vacuum slot 235c3 close to packing case C and is located at packing case C under actuator 235a driving When interior antistatic bag, vacuum slot 235c3 can enter in antistatic bag via the sack of antistatic bag and take out to antistatic bag Vacuum, the antistatic bag for being drawn inner air are in that more can closely attach with the product of loading and antistatic bag oral area Two sides are affixed.

It is please referred to shown in Figure 13 and Figure 14 again, heat sealing mechanism 235b includes the heat-sealing actuator for being fixedly installed on rack 237 235b2, the two heat-sealing actuator 235b2 are set to the front and rear sides of antistatic bag vacuum heat-seal machining position, and the heat-sealing Actuator 235b2 is symmetrical set, and the two heat-sealing 235b1 are respectively in the driving of the corresponding one heat-sealing actuator 235b2 Under move towards, and the two sides that the antistatic bag oral area being evacuated is affixed are sealed.

It should be understood that antistatic bag vacuum heat-seal device 235, via stretching positioning mechanism 235d for antistatic bag opening's edge Longitudinal direction stretches, and carries out shaping to the oral area of easily-deformable antistatic bag to realize；Vacuum device 235c can be to anti- Static bag vacuumizes so that the antistatic bag for being drawn inner air be in more can closely be attached with the product of loading and The two sides of antistatic bag oral area are affixed.After vacuum device 235c vacuumizes antistatic bag, the heat-sealing 235c of two sides to It is inside moved to as shown in figure 14, to be sealed to antistatic sack.

Packing case conveyer system 300 is the structure similar with conveyer 130, and those skilled in the art are refering to attached drawing Implement, therefore tired state is not added herein.

And for packing case packaging system 400, then please refer to shown in Fig. 2-Fig. 4, packing case packaging system 400 include according to Secondary setting pre-folds machine 410, sealer 420, weigher 430 and detection machine 440.Wherein, packing case packaging system 400 and packet At the position that vanning conveyer system 300 is connected to each other, it is also provided with the machine of pre-folding 410, it is dynamic by multiple cylinders etc. to pre-fold machine 410 Power part carries out pressing to four flangings of packing case C and pre-folds to form folding line, facilitates subsequent sealing.Then pass through the packaging after pre-folding Case C successively passes through sealer 420 and is sealed packing, weighs by weigher 430, is then judged by detection machine 440 Quality.

It should be understood that multiple testing agencies can be set in solid state hard disk finished product packing line, as CCD vision is examined It surveys, weight detecting.If finding any heap charging tray P during carrying out packing encapsulation to solid state hard disk or equipped with heap charging tray P Packing case C detection it is bad when, if in 100 stage of heap disk conveyer system, by scanning pallet 150 constant mark information obtain It takes the mobile logo information of corresponding heap charging tray P and obtains the label information of packing case C in turn, and known in detection machine 440 Not and it is discharged；If the stage after packaging system 200 can be by detection machine 440 by the label information of scanning packing case C It is identified and is discharged.According to the program, even if discovery has a small amount of defective products in packing process, also solid state hard disk finished product packing Line can not also shut down continuation operation, remain final stage and rejected product is discharged, to effectively improve efficiency.

In conjunction with shown in Fig. 1-Figure 15, the production process of the solid state hard disk finished product packing line with desiccant feeding device is done One is described in detail:

Heap charging tray P comes at packaging system 200 under the driving of heap disk conveyer system 100；

Packing case C is unfolded packing case feeder 210, close when the packing case C of expansion is moved to hermetic bag feeder 220 Hermetic bag is nested into packing case C, seals outside the anti-case mouth for being placed on packing case C of sack by envelope feeder 220；Packing case passes It send mechanism 232 that packing case C is transferred at packaging position, and position is adjusted by adjustment unit as shown in Figure 7, so that packing case C is in the position faced with heap charging tray P, manipulator mechanism, and subsequent label-sticking mechanism pastes product mark to the lateral wall of packing case C Label；

When a partition is put into the packing case C being located at packaging position 230c by partition feed mechanism 233, charging tray feeding Heap charging tray P is moved to packet from heap disk conveyer system 100 for grabbing the heap charging tray P come at packaging system 200 by device 231 It fills at the 230c of position, and heap charging tray P is put into the packing case C in packaging position 230c；

Loading plate 234a is shaken by the inclination of the feeding one by one of the desiccant of existing small volume to desiccant conveyer belt 234b Feeding section 234b1, desiccant are moved to upper material position along inclination feeding section 234b1, conveying section 234b2 and blanking section 234b3 Above 230c, so that desiccant is entered one by one in packing case C；

Subsequent packing case C is moved at hermetic bag flange body 239 under the driving of packing case transport mechanism 232 will be close Bag mouth sealing flange, through heat sealing mechanism seal sealing sack after, packing case C is moved under the driving of packing case transport mechanism 232 Another long side of rack passes through below partition feed mechanism 233 and desiccant feed mechanism 234, and packing case C is moved It send to packing case conveyer system 300；

After packing case C is sent to packing case packaging system 400 by packing case conveyer system 300, inner bag arranges scanning machine 410 It carries out pressing to four flangings of packing case C and pre-folds to form folding line and inner bag and arrange scanning machine 410 also to scan packing case C outer wall Product labelling, subsequent packing case C successively by cartoning sealing machine 420 be sealed packing after weighed by weigher 430 when, Weigher 430 determines the weight standard of packing case C according to the label information got, and then whether judges packing case C accordingly Reach standard, and underproof packing case C is sorted via NG mechanism for sorting 440 and is discharged.

Compared with prior art, desiccant feeding device 234 provided by the utility model, by shaking loading plate 234a It realizes the feeding one by one of the desiccant of small volume, and is respectively communicated between the feeding end and upper material position of vibration loading plate 234a Desiccant conveyer belt 234b so that vibration loading plate 234a can at a distance of upper material position farther out but not influence desiccant just Normal feeding, and then increase the freedom degree of automatic packaging production line layout designs；In desiccant conveyer belt 234b, what is connected respectively inclines Oblique feeding section 234b1, conveying section 234b2 and blanking section 234b3 be adapted to vibration loading plate 234a and upper material position 230c away from From and position, and tilt the top that feeding section 234b1 is located at conveying section 234b2 towards one end of conveying section 234b2, blanking section 234b3 is located at the lower section of conveying section 234b2 towards one end of conveying section 234b2, can be further simplified desiccant conveyer belt 234b Structure.It according to desiccant feeding device 234 provided by the utility model, and can effectively replace manual work, and be suitable for shaking Remote transmission between dynamic loading plate 234a and upper material position 230c, and then it is convenient for the design and implementation of automatic packaging production line.

The above disclosed preferred embodiment for being only, certainly cannot interest field with this to limit, therefore according to Equivalent variations made by claim still belongs to covered range.

Claims (6)

1. a kind of desiccant feeding device, for desiccant to be added in the product to be packaged of packaging position, which is characterized in that The desiccant feeding device includes vibration loading plate and desiccant conveyer belt；The desiccant conveyer belt includes and the vibration The inclination feeding section that the feeding end of loading plate connects, the blanking section being suspended from above the packaging position, and the connection inclination feeding The conveying section of section and the blanking section；One end of inclination feeding section towards the conveying section is located at the upper of the conveying section Side, the blanking section are located at the lower section of the conveying section towards one end of the conveying section.

2. desiccant feeding device as described in claim 1, which is characterized in that the desiccant feeding device further includes conveying Measure locating part, the conveying capacity locating part is set to above the desiccant conveyer belt, and with the desiccant conveyer belt away from From the thickness for being greater than desiccant and twice that is less than desiccant thickness.

3. desiccant feeding device as described in claim 1, which is characterized in that the desiccant feeding device further includes under The inclination blanking portion that material section connects, the inclination blanking portion are located at the lower section of the blanking section towards one end of the blanking section, And the inclination blanking portion extends and tilts down to the packaging position to the side far from the blanking section.

4. desiccant feeding device as claimed in claim 3, which is characterized in that the inclination blanking portion is provided with induction control Valve, the induction control valve detection desiccant control the desiccant feeding device movement by state in turn.

5. desiccant feeding device as described in claim 1, which is characterized in that the inclination feeding section is towards the conveying section One end on the downside of be additionally provided with striker plate.

6. a kind of automatic packaging production line, including rack, packaging position is provided on the upside of the rack, which is characterized in that it is described from Dynamic packaging production line further includes desiccant feeding device as described in any one in claim 1-5.