CN206244067U - A kind of automation loading and unloading system with temporary function - Google Patents
A kind of automation loading and unloading system with temporary function Download PDFInfo
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- CN206244067U CN206244067U CN201621322125.7U CN201621322125U CN206244067U CN 206244067 U CN206244067 U CN 206244067U CN 201621322125 U CN201621322125 U CN 201621322125U CN 206244067 U CN206244067 U CN 206244067U
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Abstract
The utility model discloses a kind of automation loading and unloading system with temporary function, including:Feed bin, receiving warehouse, working area, working position detent mechanism, positioning section streamline and feed bin section streamline, the positioning section streamline is disposed adjacent with feed bin section streamline and center line is located at same straight line, the feed bin is arranged at the top of feed bin section streamline with receiving warehouse, the working area and working position detent mechanism are respectively arranged at positioning section streamline two ends, and the working area is set near feed bin.Through the above way, the utility model can realize loading and unloading action in the case of non-stop-machine, reduce the production switch time of working position, and safeguard simple.
Description
Technical field
The utility model is related to automation loading and unloading field, and more particularly to a kind of automation with temporary function is upper and lower
Material system.
Background technology
Existing feed bin handling equipment typically has 4 parts:Feed bin, receiving warehouse, product orientation mechanism, product are transplanted
Module;There is unprocessed product feed bin the inside, and product transplanting mechanism takes out unprocessed product from feed bin, product is moved
Move product orientation mechanism(Working position)On positioned, after board processes product, product transplanting mechanism is after processing
Product(Finished product)Move in receiving warehouse, so circulate, to feed bin in after product use, rewinding is removed in personnel's shutdown
Finished product in storehouse, and unprocessed product is filled it up with feed bin again.
Existing feed bin has two:1st, personnel need to shut down charging after material has been used, and take the too many time,
Efficiency, the production capacity of whole machine are had a strong impact on;2nd, the time of product is changed in board work relatively long, it is necessary to finished product is moved to rewinding
A new product is taken behind storehouse from feed bin again to be put on detent mechanism(Working position)If product size is than larger, this motion
Stroke will be very long, take relatively long, reduce the production capacity of board;3rd, machine frame inside is all ensconced in feed bin part, and maintenance is compared
It is difficult.
Utility model content
The utility model mainly solving the technical problems that provide a kind of automation loading and unloading system with temporary function,
Loading and unloading action can be realized in the case of non-stop-machine, the production switch time of working position is reduced, and safeguards simple.
In order to solve the above technical problems, the technical scheme that the utility model is used is:There is provided a kind of with temporary work(
The automation loading and unloading system of energy, including:Feed bin, receiving warehouse, working area, working position detent mechanism, positioning section streamline and
Feed bin section streamline, the positioning section streamline is disposed adjacent with feed bin section streamline and center line is located at same straight line, described
Feed bin is arranged at the top of feed bin section streamline with receiving warehouse, and it is fixed that the working area and working position detent mechanism are respectively arranged at
Position section streamline two ends, the working area is set near feed bin.
Preferably, the feed bin includes:Feed bin fixed plate A, material rib A, feed bin side shield A, the feed bin and
Feed bin dividing plate, the feed bin fixed plate A, feed bin side shield A and feed bin dividing plate connection composition feed bin frame are provided between receiving warehouse
Frame, the material rib A is arranged at the inner side of feed bin fixed plate A, and jacking cylinder A is provided with below the feed bin,
The both sides of the feed bin are respectively arranged with side push cylinder, lift cylinder and cutting plate, and the cutting plate is arranged at feed bin
Outside, the side push cylinder is arranged at the outside of cutting plate, and the lift cylinder is arranged at the lower section of side push cylinder, in the thing
The bottom of material rib A is provided with optoelectronic switch A.
Preferably, the receiving warehouse includes:Feed bin fixed plate B, feed bin side shield B, material rib B and feed bin dividing plate, institute
Feed bin fixed plate B, feed bin side shield B and feed bin dividing plate connection composition feed bin framework are stated, the material rib B is arranged at feed bin and consolidates
The inner side of fixed board B, is provided with jacking cylinder B below the receiving warehouse, and the top of the material rib B is provided with photoelectricity
Switch B.
Preferably, the two bottom sides in the receiving warehouse are respectively arranged with non-return component fixed plate, and the non-return component is consolidated
Fixed board is arranged at the outside of feed bin fixed plate B, and non-return component is respectively arranged with the inside of the two ends of the non-return component fixed plate.
Preferably, the working area includes:Lifting assembly and temporary storage mechanism;The lifting assembly includes:Jacking cylinder C and
Support platform, the jacking cylinder C is arranged at positioning section streamline lower inside, and the support platform is arranged at jacking cylinder C
The top of piston rod;The temporary storage mechanism includes:Cylinder supports plate, air cylinder fixed plate, side cylinders, product supporting plate, it is described
Cylinder supports plate is arranged on positioning section streamline, and the air cylinder fixed plate is fixed on the top of cylinder supports plate, the side
Cylinder is fixed on the lower surface of air cylinder fixed plate, and the product supporting plate is arranged at side cylinders piston-rod end, in the gas
Grooved hole is opened up at cylinder supporting plate so that product supporting plate can enter positioning section streamline inner side through slotted eye, described temporary
Deposit and optoelectronic switch C is provided between area and working position detent mechanism.
Preferably, the working position detent mechanism includes:Raising plate, jacking cylinder D and alignment pin, the jacking cylinder D
It is arranged at the lower section of raising plate and raising plate can be driven to move up and down, the alignment pin is arranged at the upper surface of raising plate.
Preferably, the positioning section streamline includes:Substrate E, idle pulley group E, belt E, driving shaft E, drive coordination band E,
Synchronizing wheel E, motor E, runners E, driving wheel E, the runners E connecting substrates E are provided with for fixing whole group mechanism on substrate E
Idle pulley group E and driving shaft E, idle pulley group E and driving wheel E are connected by belt E, realize that power is transmitted, and driving shaft E passes through bearing block
E is arranged on substrate E, and driving shaft E leading portions are provided with synchronizing wheel E, and synchronizing wheel is also installed on motor E, and two synchronizing wheels are by passing
Dynamic Timing Belt E realizes that power is transmitted, and barrier plate and jacking-up spacing plate is provided with the positioning section flowing water thread end, on barrier plate
It is fixedly installed optoelectronic switch E.
Preferably, the feed bin section streamline includes:Substrate F, idle pulley group F, belt F, driving shaft F, drive coordination band F,
Synchronizing wheel F, motor F, runners F, driving wheel F, the runners F connecting substrates F are provided with for fixing whole group mechanism on substrate F
Idle pulley group F and driving shaft F, idle pulley group F and driving wheel F are connected by belt F, realize that power is transmitted, and driving shaft F passes through bearing block
F is arranged on substrate F, and driving shaft F leading portions are provided with synchronizing wheel F, and synchronizing wheel is also installed on motor F, and two synchronizing wheels are by passing
Dynamic Timing Belt F realizes that power is transmitted.
The beneficial effects of the utility model are:1st, feed bin and receiving warehouse are arranged on same feed bin section streamline, and
Feed bin section streamline is directly connected to positioning section streamline, it is possible to achieve loading and unloading action is carried out in the case of non-stop-machine, is reduced
The time of loading and unloading, and then improve the processing efficiency of product;2nd, working area is provided with close working position detent mechanism,
Reduce the time of working position production switch;3rd, feed bin and receiving warehouse may be contained within the top of feed bin section streamline so that dimension
Shield is simple, convenient.
Brief description of the drawings
Fig. 1 is a kind of three-dimensional knot of the automation preferred embodiment of loading and unloading system one with temporary function of the utility model
Structure schematic diagram;
Fig. 2 is the dimensional structure diagram of the feed bin;
Fig. 3 is the front view of shown Fig. 2;
Fig. 4 is Section A-A schematic diagram in shown Fig. 3;
Fig. 5 is the dimensional structure diagram of the feed bin and receiving warehouse;
Fig. 6 is the dimensional structure diagram of the receiving warehouse;
Fig. 7 is the dimensional structure diagram in the working area;
Fig. 8 is the top view in the working area;
Fig. 9 is the dimensional structure diagram of the working position detent mechanism;
Figure 10 is the dimensional structure diagram of the feed bin section streamline;
Figure 11 is the dimensional structure diagram of the positioning section streamline;
The mark of each part is as follows in accompanying drawing:1st, feed bin, 2, receiving warehouse, 5, working area, 6, working position detent mechanism, 7,
Positioning section streamline, 8, feed bin section streamline, 101, jacking cylinder A, 102, side push cylinder, 103, lift cylinder, 104, sub-material
Plate, 105, feed bin fixed plate A, 106, material rib A, 107, feed bin side shield A, 108, optoelectronic switch A, 201, feed bin fixed plate
B, 202, feed bin side shield B, 203, feed bin dividing plate, 204, material rib B, 205, jacking cylinder B, 206, non-return component fixes
Plate, 207, non-return component, 208, optoelectronic switch B, 501, optoelectronic switch C, 502, jacking cylinder C, 503, side cylinders, 504, produce
Product supporting plate, 505, air cylinder fixed plate, 506, cylinder supports plate, 507, slotted eye, 508, support platform, 601, jacking cylinder D,
602nd, alignment pin, 603, raising plate, 701, substrate E, 702, idle pulley group E, 703, belt E, 704, driving shaft E, 705, transmission it is same
Step band E, 706, synchronizing wheel E, 707, motor E, 708, runners E, 709, driving wheel E, 710, bearing block E, 711, barrier plate, 712,
Optoelectronic switch E, 713, jacking-up spacing plate, 801, substrate F, 802, idle pulley group F, 803, belt F, 804, driving shaft F, 805, transmission
Timing Belt F, 806, synchronizing wheel F, 807, motor F, 808, runners F, 809, driving wheel F, 810, bearing block F.
Specific embodiment
Preferred embodiment of the present utility model is described in detail below in conjunction with the accompanying drawings, so that advantage of the present utility model
Can be easier to be readily appreciated by one skilled in the art with feature, it is apparent clear and definite so as to be made to protection domain of the present utility model
Define.
Fig. 1 is referred to, the utility model embodiment includes:
A kind of automation loading and unloading system with temporary function, including:Feed bin 1, receiving warehouse 2, working area 5, work
Position detent mechanism 6, positioning section streamline 7 and feed bin section streamline 8, the positioning section streamline 7 are adjacent with feed bin section streamline 8
Set and center line is located at same straight line, the feed bin 1 is arranged at the top of feed bin section streamline 8 with receiving warehouse 2, described temporary
Deposit area 5 and working position detent mechanism 6 be respectively arranged at the two ends of positioning section streamline 7, the working area 5 is set near feed bin 1,
It is connected through a screw thread between the substrate F801 of the feed bin 1 and receiving warehouse 2 and feed bin section streamline 8.
As shown in Figures 2 to 5, the feed bin 1 includes:Feed bin fixed plate A 105, material rib A106, feed bin side shield
A107, is provided with feed bin dividing plate 203, the feed bin fixed plate A 105, feed bin side shield between the feed bin 1 and receiving warehouse 2
A107 and the connection composition feed bin framework of feed bin dividing plate 203, the material rib A106 are arranged at the inner side of feed bin fixed plate A 105,
The lower section of the feed bin 1 is provided with jacking cylinder A101, side push cylinder is respectively arranged with the both sides of the feed bin 1
102nd, lift cylinder 103 and cutting plate 104, the cutting plate 104 are arranged at the outside of feed bin 1, and the side push cylinder 102 sets
The outside of cutting plate 104 is placed in, the lift cylinder 103 is arranged at the lower section of side push cylinder 102, in the material rib A106
Bottom be provided with optoelectronic switch A108, for checking product whether there is, wherein material rib A106 is fixed on feed bin fixed plate
The inner side of A105 is used for product orientation.
As shown in Figure 5, Figure 6, the receiving warehouse 2 includes:Feed bin fixed plate B201, feed bin side shield B202, material rib
B204 and feed bin dividing plate 203, the feed bin fixed plate B201, feed bin side shield B202 and the connection composition feed bin of feed bin dividing plate 203
Framework, the material rib B204 is arranged at the inner side of feed bin fixed plate B201, and the lower section of the receiving warehouse 2 is provided with jacking
Cylinder B205, optoelectronic switch B208 is provided with the top of the material rib B204, for checking product whether there is, wherein material
The inner side that rib B204 is fixed on feed bin fixed plate B201 is used for product orientation.Set respectively in the two bottom sides of the receiving warehouse 2
Non-return component fixed plate 206 is equipped with, the non-return component fixed plate 206 is arranged at the outside of feed bin fixed plate B201, described
The two ends inner side of non-return component fixed plate 206 is respectively arranged with non-return component 207, the non-return group, and 207 are used to prevent receiving warehouse
Product in 2 drops back into feed bin section streamline 8.
As shown in Figure 7, Figure 8, the working area 5 includes:Lifting assembly and temporary storage mechanism;The lifting assembly includes:Top
Cylinder C502 and support platform 508 are risen, the jacking cylinder C502 is arranged at the lower inside of positioning section streamline 7, the support
Platform 508 is arranged at the top of jacking cylinder C502 piston rods;The temporary storage mechanism includes:Cylinder supports plate 506, cylinder is fixed
Plate 505, side cylinders 503, product supporting plate 504, the cylinder supports plate 506 are arranged on positioning section streamline 7, cylinder branch
It is fixedly connected between fagging 506 and the substrate E701 of positioning section streamline 7, the air cylinder fixed plate 505 is fixed on cylinder supports
The top of plate 506, the side cylinders 503 are fixed on the lower surface of air cylinder fixed plate 505, and the product supporting plate 504 is set
In the piston-rod end of side cylinders 503, grooved hole 507 is opened up at the cylinder supports plate 506 so that product supporting plate 504
The inner side of positioning section streamline 7 can be entered through slotted eye 507, be provided between the working area 5 and working position detent mechanism 6
Optoelectronic switch C501, whether for sensing at working position detent mechanism 6 have product, if any product, then the product in working area 5 is temporary transient
Rest in product supporting plate 504;If without product, the product in working area 5 is sent to working position detent mechanism 6.
As shown in figure 9, the working position detent mechanism 6 includes:Raising plate 603, jacking cylinder D601 and alignment pin 602,
The jacking cylinder D601 is arranged at the lower section of raising plate 603 and raising plate 603 can be driven to move up and down, the alignment pin
602 upper surfaces for being arranged at raising plate 603 are used for the positioning of product.
As shown in Figure 10, the positioning section streamline 7 includes:Substrate E701, idle pulley group E702, belt E703, driving shaft
E704, drive coordination band E705, synchronizing wheel E706, motor E707, runners E708, driving wheel E709, the runners E708 connections
Substrate E701 is used to fix whole group mechanism, is provided with idle pulley group E702 and driving shaft E704 on substrate E701, idle pulley group E702 and
Driving wheel E709 is connected by belt E703, realizes that power is transmitted, and driving shaft E704 is arranged on substrate by bearing block E710
On E701, driving shaft E704 leading portions are provided with synchronizing wheel E706, and synchronizing wheel is also installed on motor E707, and two synchronizing wheels are by passing
Dynamic Timing Belt E705 realizes that power is transmitted, and barrier plate 711 and jacking-up spacing plate are provided with the end of positioning section streamline 7
713, optoelectronic switch E712 is fixedly installed on the barrier plate 711, the barrier plate 711 and optoelectronic switch E are used to prevent from producing
Product go out horizontal level, and the jacking-up spacing plate 713 is used to prevent product to be ejected working position.
As shown in figure 11, the feed bin section streamline 8 includes:Substrate F801, idle pulley group F802, belt F803, driving shaft
F804, drive coordination band F805, synchronizing wheel F806, motor F807, runners F808, driving wheel F809, the runners F808 connections
Substrate F801 is used to fix whole group mechanism, is provided with idle pulley group F802 and driving shaft F804 on substrate F801, idle pulley group F802 and
Driving wheel F809 is connected by belt F803, realizes that power is transmitted, and driving shaft F804 is arranged on substrate by bearing block F810
On F801, driving shaft F804 leading portions are provided with synchronizing wheel F806, and synchronizing wheel is also installed on motor F807, and two synchronizing wheels are by passing
Dynamic Timing Belt F805 realizes that power is transmitted.
Operation principle of the present utility model is:
First, product is manually put into the inside of feed bin 1, board starts action, and jacking cylinder A101 jackings are supported
Product, then side push cylinder 102 retract, lift cylinder 103 action side push cylinder 102 is raised, the then work of side push cylinder 102
Stopper rod stretches out, and promotes in the breach of the insertion product of cutting plate 1044, thus supports second product, then jacking cylinder
A101 decline, such first product just and feed bin 1 departing from;
Then product flows into positioning section streamline 7 from feed bin section streamline 8, and the front of working area 5 is provided with sensing photoelectricity
C501, when working position has product in operation, positioning section streamline 7 will not be acted, and product can rest on working area 5, Ran Houding
Cylinder C502 jackings are risen, product is moved into top, now the piston rod of side cylinders 503 promotes product supporting plate 504 to enter
In the slotted eye 507 of cylinder supports plate 506, product supporting plate 504 lives product support, and jacking cylinder C502 declines, such product
Just it is positioned on working area;If working position does not have product in operation, product flows directly to working position, working position localization machine
Structure 6 is positioned to product, is lived product orientation by jacking cylinder D601 and alignment pin 602, and then board starts processing product
Product;After the completion of Product processing, working position detent mechanism 6 countermands position, and product is fallen on positioning section streamline line 7, then through feed bin
Section streamline 8 reaches the lower section of receiving warehouse 2, and by jacking cylinder B205 by finished product jacking to receiving warehouse 2, the side of receiving warehouse 2 fills
There is non-return component 207, finished product can be prevented to drop, such finished product just completes to be stacked in receiving warehouse 2.
Embodiment of the present utility model is the foregoing is only, the scope of the claims of the present utility model is not thereby limited, it is every
The equivalent structure or equivalent flow conversion made using the utility model specification and accompanying drawing content, or be directly or indirectly used in
Other related technical fields, are similarly included in scope of patent protection of the present utility model.
Claims (8)
1. a kind of automation loading and unloading system with temporary function, it is characterised in that including:It is feed bin, receiving warehouse, temporary
Area, working position detent mechanism, positioning section streamline and feed bin section streamline, the positioning section streamline and feed bin section streamline phase
Neighbour is set and center line is located at same straight line, and the feed bin and receiving warehouse are arranged at the top of feed bin section streamline, it is described temporarily
Deposit area and working position detent mechanism is respectively arranged at positioning section streamline two ends, the working area is set near feed bin.
2. a kind of automation loading and unloading system with temporary function according to claim 1, it is characterised in that the confession
Feed bin includes:Feed bin fixed plate A, material rib A, feed bin side shield A, be provided between the feed bin and receiving warehouse feed bin every
Plate, the feed bin fixed plate A, feed bin side shield A and feed bin dividing plate connection composition feed bin framework, the material rib A is arranged at
The inner side of feed bin fixed plate A, is provided with jacking cylinder A below the feed bin, is set respectively in the both sides of the feed bin
Side push cylinder, lift cylinder and cutting plate are equipped with, the cutting plate is arranged at the outside of feed bin, and the side push cylinder is arranged at
The outside of cutting plate, the lift cylinder is arranged at the lower section of side push cylinder, and the bottom of the material rib A is provided with photoelectricity
Switch A.
3. a kind of automation loading and unloading system with temporary function according to claim 1, it is characterised in that the receipts
Feed bin includes:Feed bin fixed plate B, feed bin side shield B, material rib B and feed bin dividing plate, the feed bin fixed plate B, feed bin side block
Plate B and feed bin dividing plate connection composition feed bin framework, the material rib B is arranged at the inner side of feed bin fixed plate B, in the rewinding
Jacking cylinder B is provided with below storehouse, the top of the material rib B is provided with optoelectronic switch B.
4. a kind of automation loading and unloading system with temporary function according to claim 3, it is characterised in that described
The two bottom sides of receiving warehouse are respectively arranged with non-return component fixed plate, and the non-return component fixed plate is arranged at feed bin fixed plate B
Outside, be respectively arranged with non-return component on the inside of the two ends of the non-return component fixed plate.
5. a kind of automation loading and unloading system with temporary function according to claim 1, it is characterised in that it is described temporarily
Depositing area includes:Lifting assembly and temporary storage mechanism;The lifting assembly includes:Jacking cylinder C and support platform, the jacking cylinder
C is arranged at positioning section streamline lower inside, and the support platform is arranged at the top of jacking cylinder C piston rods;It is described temporary
Mechanism includes:Cylinder supports plate, air cylinder fixed plate, side cylinders, product supporting plate, the cylinder supports plate are arranged at positioning section
On streamline, the air cylinder fixed plate is fixed on the top of cylinder supports plate, and the side cylinders are fixed on air cylinder fixed plate
Lower surface, the product supporting plate is arranged at side cylinders piston-rod end, and grooved hole is opened up at the cylinder supports plate, makes
Obtaining product supporting plate can enter positioning section streamline inner side through slotted eye, between the working area and working position detent mechanism
It is provided with optoelectronic switch C.
6. a kind of automation loading and unloading system with temporary function according to claim 1, it is characterised in that the work
Making position detent mechanism includes:Raising plate, jacking cylinder D and alignment pin, the jacking cylinder D are arranged at the lower section of raising plate and can
To drive raising plate to move up and down, the alignment pin is arranged at the upper surface of raising plate.
7. a kind of automation loading and unloading system with temporary function according to claim 1, it is characterised in that described fixed
Position section streamline includes:Substrate E, idle pulley group E, belt E, driving shaft E, drive coordination band E, synchronizing wheel E, motor E, runners E, master
Driving wheel E, the runners E connecting substrates E are provided with idle pulley group E and driving shaft E, idle pulley group for fixing whole group mechanism on substrate E
E and driving wheel E are connected by belt E, realize that power is transmitted, and driving shaft E is arranged on substrate E by bearing block E, driving shaft E
Leading portion is provided with synchronizing wheel E, and synchronizing wheel is also installed on motor E, and two synchronizing wheels realize that power is transmitted by drive coordination band E,
Barrier plate and jacking-up spacing plate are installed in the positioning section flowing water thread end, optoelectronic switch E is fixedly installed on barrier plate.
8. a kind of automation loading and unloading system with temporary function according to claim 1, it is characterised in that the material
Storehouse section streamline includes:Substrate F, idle pulley group F, belt F, driving shaft F, drive coordination band F, synchronizing wheel F, motor F, runners F, master
Driving wheel F, the runners F connecting substrates F are provided with idle pulley group F and driving shaft F, idle pulley group for fixing whole group mechanism on substrate F
F and driving wheel F are connected by belt F, realize that power is transmitted, and driving shaft F is arranged on substrate F by bearing block F, driving shaft F
Leading portion is provided with synchronizing wheel F, and synchronizing wheel is also installed on motor F, and two synchronizing wheels realize that power is transmitted by drive coordination band F.
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CN201621322125.7U CN206244067U (en) | 2016-12-05 | 2016-12-05 | A kind of automation loading and unloading system with temporary function |
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CN201621322125.7U CN206244067U (en) | 2016-12-05 | 2016-12-05 | A kind of automation loading and unloading system with temporary function |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106477337A (en) * | 2016-12-05 | 2017-03-08 | 亿模塑胶科技(苏州)有限公司 | A kind of automation loading and unloading system with temporary function |
CN107416458A (en) * | 2017-09-27 | 2017-12-01 | 厦门理工学院 | A kind of pellet type streamline automatic detection device |
CN109178447A (en) * | 2018-09-14 | 2019-01-11 | 南通通机股份有限公司 | A kind of Novel packaged paper diaper high speed stacking lateral thruster system |
CN110116908A (en) * | 2018-02-07 | 2019-08-13 | 蓝思智能机器人(长沙)有限公司 | A kind of glass buffer storage |
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2016
- 2016-12-05 CN CN201621322125.7U patent/CN206244067U/en active Active
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106477337A (en) * | 2016-12-05 | 2017-03-08 | 亿模塑胶科技(苏州)有限公司 | A kind of automation loading and unloading system with temporary function |
CN106477337B (en) * | 2016-12-05 | 2019-01-11 | 亿模塑胶科技(苏州)有限公司 | A kind of automation loading and unloading system with temporary function |
CN107416458A (en) * | 2017-09-27 | 2017-12-01 | 厦门理工学院 | A kind of pellet type streamline automatic detection device |
CN107416458B (en) * | 2017-09-27 | 2019-04-02 | 厦门理工学院 | A kind of pellet type assembly line automatic detection device |
CN110116908A (en) * | 2018-02-07 | 2019-08-13 | 蓝思智能机器人(长沙)有限公司 | A kind of glass buffer storage |
CN109178447A (en) * | 2018-09-14 | 2019-01-11 | 南通通机股份有限公司 | A kind of Novel packaged paper diaper high speed stacking lateral thruster system |
CN109178447B (en) * | 2018-09-14 | 2020-10-20 | 南通通机股份有限公司 | Novel high-speed side push system that piles up of bagging-off panty-shape diapers |
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Address after: 215128 building 4, No. 886, Yinzhong South Road, Hedong Industrial Park, Wuzhong Economic Development Zone, Suzhou City, Jiangsu Province Patentee after: AMOULD PLASTIC TECHNOLOGY (SHENZHEN) Co.,Ltd. Address before: 215128 No.7, Fengjin South Road, Wuzhong Economic Development Zone, Suzhou City, Jiangsu Province Patentee before: AMOULD PLASTIC TECHNOLOGY (SHENZHEN) Co.,Ltd. |