CN108974955B - High-frequency plate splicing machine auxiliary feeding and discharging connecting line system - Google Patents
High-frequency plate splicing machine auxiliary feeding and discharging connecting line system Download PDFInfo
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- CN108974955B CN108974955B CN201710414113.XA CN201710414113A CN108974955B CN 108974955 B CN108974955 B CN 108974955B CN 201710414113 A CN201710414113 A CN 201710414113A CN 108974955 B CN108974955 B CN 108974955B
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- conveying
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G57/00—Stacking of articles
- B65G57/02—Stacking of articles by adding to the top of the stack
- B65G57/09—Stacking of articles by adding to the top of the stack from alongside
- B65G57/10—Stacking of articles by adding to the top of the stack from alongside by devices, e.g. reciprocating, acting directly on articles for horizontal transport to the top of stack
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G47/00—Article or material-handling devices associated with conveyors; Methods employing such devices
- B65G47/52—Devices for transferring articles or materials between conveyors i.e. discharging or feeding devices
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/10—Greenhouse gas [GHG] capture, material saving, heat recovery or other energy efficient measures, e.g. motor control, characterised by manufacturing processes, e.g. for rolling metal or metal working
Abstract
The invention relates to an auxiliary feeding and discharging connecting line system of a high-frequency plate splicing machine, which is a feeding system arranged at a feeding end of the high-frequency plate splicing machine and a discharging system arranged at a discharging end of the high-frequency plate splicing machine; the feeding system comprises a storage roller line, a material selecting platform and a corner conveying line; the blanking system comprises a blanking frame, a lifting type receiving conveying chain, a conveying roller line and an automatic stacker crane; the discharging end of the high-frequency plate splicing machine is adjacent to a plurality of lifting type material receiving conveying chains, and the lifting type material receiving conveying chains are arranged between rollers at the material receiving end of the conveying roller line at intervals; the automatic stacker crane is vertically arranged at the discharge end of a conveying roller line, and a plate pushing device is arranged on the conveying roller line. The auxiliary feeding and discharging connecting line system is added on the traditional high-frequency plate splicing machine, so that the traditional high-frequency plate splicing machine has the function of automatic feeding and discharging, labor staff is reduced, and production efficiency is improved.
Description
Technical Field
The invention belongs to the technical field of high-frequency jigsaw machines, and particularly relates to an auxiliary feeding and discharging connecting line system of a high-frequency jigsaw machine.
Background
At present, during processing of a high-frequency jigsaw machine of a furniture production enterprise, manual feeding is generally performed at a feeding end, manual stacking is performed at a discharging end, so that two stations are required to be configured on the high-frequency jigsaw machine, and at least two operators are required to be configured on each station, so that normal operation of the high-frequency jigsaw machine can be guaranteed. As is well known, the cost of personnel is higher and higher at present, in order to reduce personnel, automatic equipment is mainly purchased at present, but the cost of the automatic equipment is relatively higher, if an automatic high-frequency plate splicing machine is adopted to completely replace the traditional high-frequency plate splicing machine, on one hand, the equipment expense of enterprises is increased, and on the other hand, the resource waste is caused, and the auxiliary feeding and discharging connecting line system is additionally arranged on the traditional high-frequency plate splicing machine, so that the traditional high-frequency plate splicing machine has the automatic feeding and discharging function, further labor personnel are reduced, and meanwhile, the production efficiency is also improved.
Disclosure of Invention
The invention provides a high-frequency plate splicing machine auxiliary feeding and discharging connecting line system which is simple in structure, convenient to use, high in working efficiency, low in labor intensity and high in automation degree, and solves the technical problems in the prior art.
The invention adopts the technical proposal for solving the technical problems in the prior art that:
a high-frequency plate splicing machine auxiliary feeding and discharging connecting line system is characterized in that: the feeding system is arranged at the feeding end of the high-frequency plate splicing machine, and the discharging system is arranged at the discharging end of the high-frequency plate splicing machine; the feeding system comprises a storage roller line, a material selecting platform for stacking qualified wood strips, and a corner conveying line for conveying the qualified wood strips on the material selecting platform, wherein the material selecting platform is adjacent to the discharge end of the storage roller line; the glue spraying mechanism is adjacent to the high-frequency board splicing machine and used for the corner conveying line; the material selecting platform is arranged at the material feeding end of the corner conveying line; the corner conveying line and the glue spraying mechanism of the high-frequency board splicing machine are vertically arranged;
the blanking system comprises a blanking frame, a plurality of lifting type material receiving conveying chains, a conveying roller line and an automatic stacker, wherein the lifting type material receiving conveying chains are arranged on the blanking frame and used for receiving the plates after the jointed boards of the high-frequency jointed board machine are formed; the discharging end of the high-frequency plate splicing machine is adjacent to a plurality of lifting type material receiving conveying chains, and the lifting type material receiving conveying chains are arranged between rollers at the material receiving end of the conveying roller line at intervals; the conveying direction of the conveying roller line is perpendicular to the conveying direction of the lifting type receiving conveying chain; the automatic stacker crane is vertically arranged at the discharge end of the conveying roller line, and a plate pushing device for pushing the plate formed by jointed plates to the automatic stacker crane is arranged on the conveying roller line.
The invention can also adopt the following technical measures:
the corner conveying line comprises a first station, a second station and a lifting baffle wheel arranged between the first station and the second station, wherein a buffer conveying mechanism for stacking wood strips is arranged on the first station, and a feeding mechanism for conveying the wood strips sent by the buffer conveying mechanism of the first station to the feeding end of the glue spraying mechanism of the high-frequency board splicing machine one by one is arranged on the second station.
The buffer storage conveying mechanism of the first station comprises a conveying rack which is arranged in the direction vertical to the glue spraying mechanism of the high-frequency plate splicing machine, a plurality of conveying chains are arranged on the conveying rack, the conveying chains are commonly connected with a driving shaft, and the input end of the driving shaft is connected with a driving motor; one side of the frame along the conveying direction of the conveying chain is provided with a positioning baffle plate.
The feeding mechanism of the second station comprises a feeding rack which is arranged in the direction vertical to the glue spraying mechanism of the high-frequency plate splicing machine and is adjacent to the buffer conveying mechanism, a plurality of lifting conveying chains and a plurality of feeding roller lines are arranged on the feeding rack, and the arrangement direction of the lifting conveying chains is consistent with the conveying direction of the buffer conveying mechanism; the conveying direction of the feeding roller line is perpendicular to the lifting conveying chain.
The material selecting platform is arranged at the material feeding end of the buffer conveying mechanism and comprises a plurality of lifting bracket mechanisms, the lifting bracket mechanisms are arranged between two adjacent conveying chains of the buffer conveying mechanism at intervals, each lifting bracket mechanism comprises a material selecting supporting plate, driving arms and driven arms are respectively arranged at two ends of each material selecting supporting plate, the driving arms of the lifting bracket mechanisms are jointly arranged on the same driving shaft in a penetrating mode, the driving shafts are arranged on a conveying frame in a penetrating mode, the driven arms of the lifting bracket mechanisms are jointly arranged on the same driven shaft in a penetrating mode, the driven shafts are arranged on the conveying frame, and the driving arms are connected with driving cylinders.
The plate pushing device comprises a push plate frame arranged above the conveying roller line, the lower surface of the push plate frame is connected with a push plate frame conveying chain, and the push plate frame conveying chain is arranged on the conveying roller line in the direction perpendicular to the automatic stacker; a scratch-proof plate for preventing the surface of the plate from being scratched is arranged on the push plate frame between the adjacent rollers of the conveying roller line; the tail end of the conveying roller line is hinged with a baffle, the lower end of the baffle is hinged with a cylinder, and the cylinder is fixedly arranged on a feeding frame of the conveying roller line.
The automatic stacker crane comprises a lifting type power roller line prefabricated in a foundation pit and a vertical roller line arranged on the outer side of the lifting type power roller line; the lifting type power roller line comprises a lifting rack, a plurality of power rollers for placing trays are arranged on the lifting rack, and the power rollers are connected with a power driving device; the vertical roller line comprises a vertical roller frame, and a plurality of vertical rollers are arranged along the height direction of the vertical roller frame.
The automatic stacker crane is characterized by further comprising a safety fence, wherein the safety fence is fixedly installed around the automatic stacker crane through a bottom foot, and a camera for collecting video signals is installed on the fence around the position of the automatic stacker crane.
The invention has the advantages and positive effects that: due to the adoption of the technical scheme, the defects of more personnel configuration, high labor intensity, low production efficiency and the like in the operation of the traditional high-frequency jigsaw machine are overcome; the automatic auxiliary feeding and discharging device is added, so that the automatic operation of the traditional high-frequency plate splicing machine is realized, and the possibility of automatic connection with other equipment can be realized; in addition, the invention has the advantages of simple operation, compact structure, convenient use and achievement of the aims of reducing staff and improving efficiency.
Drawings
FIG. 1 is a schematic diagram of the structure of the present invention;
FIG. 2 is a schematic perspective view of the present invention;
FIG. 3 is a schematic view of a corner conveyor line;
FIG. 4 is a schematic diagram of the blanking system.
In the figure: 1. a feeding system; 1-1, a storage roller line; 1-2, a material selecting platform; 1-21, a lifting bracket mechanism; 1-22, selecting a material supporting plate; 1-23, driving arm; 1-24, a driven arm; 1-25, driving shaft; 1-26, driven shaft; 1-3, corner conveying lines; 1-30, a first station; 1-31, a second station; 1-32, lifting catch wheels; 1-33, a catch wheel; 1-34, lifting air cylinders; 1-4, a buffer conveying mechanism; 1-41, conveying frames; 1-42, conveying chains; 1-43, a drive shaft; 1-44, a driving motor; 1-45, positioning a striker plate; 1-5, a feeding mechanism; 1-51, a feeding rack; 1-52, lifting conveying chains; 1-53, feeding roller line; 2. a blanking system; 2-0, blanking frame; 2-1, a lifting type material receiving and conveying chain; 2-2, conveying roller lines; 2-3, an automatic stacker crane; 2-3, an automatic stacker crane; 2-31, lifting power roller lines; 2-310, lifting rack; 2-311, a power roller; 2-32, a vertical roller line; 2-320, a vertical roller frame; 2-321, vertical rolls; 2-4, a plate pushing device; 2-41, a push plate frame; 2-42, a push plate frame transfers the chain; 2-43, scratch-resistant plate; 2-44, baffle plates; 2-45, an air cylinder; 3. high-frequency board splicing machine; 3-1, a glue spraying mechanism; 4. a safety fence; 5. a camera is provided.
Detailed Description
For a further understanding of the invention, its features and advantages, reference is now made to the following examples, which are illustrated in the accompanying drawings in which:
referring to fig. 1 to 4, a high-frequency jigsaw machine auxiliary feeding and discharging connection system, a feeding system 1 arranged at a feeding end of the high-frequency jigsaw machine, and a discharging system 2 arranged at a discharging end of the high-frequency jigsaw machine; the high-frequency jigsaw machine mainly comprises a glue spraying mechanism, a jigsaw machine feeding mechanism and a forming machine, and the working principle of the high-frequency jigsaw machine is not repeated here; the feeding system 1 comprises a storage roller line 1-1, a material selecting platform 1-2 for stacking qualified wood strips, and a corner conveying line 1-3 for conveying the qualified wood strips on the material selecting platform, wherein the material selecting platform 1-2 is adjacent to a discharge end of the storage roller line 1-1; the glue spraying mechanism 3-1 is adjacent to the high-frequency plate splicing machine 3 of the corner conveying line 1-3; the material selecting platform 1-2 is arranged at the material feeding end of the corner conveying line 1-3; the corner conveying line 1-3 and the glue spraying mechanism 3-1 of the high-frequency jigsaw machine 3 are vertically arranged;
the blanking system 2 comprises a blanking frame 2-0, a plurality of lifting type material receiving conveying chains 2-1 which are arranged on the blanking frame and used for receiving the plate formed by the high-frequency plate splicing machine, a conveying roller line 2-2 which is used for horizontally conveying the plate, and an automatic stacker 2-3 which is used for receiving the plate formed by the plate conveyed by the conveying roller line and used for automatically stacking the plate; the lifting type material receiving and conveying chain 2-1 is driven by a lifting cylinder to lift up and down so as to meet the requirement of conveying the plates between the conveying roller lines.
The discharging end of the high-frequency plate splicing machine is adjacent to a plurality of lifting material receiving conveying chains 2-1, and the lifting material receiving conveying chains 2-1 are arranged between rollers at the material receiving end of a conveying roller line 2-2 at intervals; the conveying direction of the conveying roller line 2-2 is perpendicular to the conveying direction of the lifting receiving conveying chain 2-1; the automatic stacker crane is characterized in that the automatic stacker crane 2-3 is vertically arranged at the discharge end of the conveying roller line 2-2, and a plate pushing device 2-4 for pushing plates formed by jointed plates to the automatic stacker crane is arranged on the conveying roller line 2-2.
The corner conveying line 1-3 comprises a first station 1-30, a second station 1-31 and a lifting baffle wheel 1-32 arranged between the first station and the second station, wherein the lifting baffle wheel has the function of realizing simultaneous operation between the first station and the second station and achieving the purpose of buffering; the lifting type baffle wheel comprises baffle wheels 1-33, the lower ends of the baffle wheels are connected with lifting cylinders 1-34, and the lifting cylinders drive the baffle wheels to lift up and down; the first station is provided with a buffer conveying mechanism 1-4 for stacking wood strips, the second station is provided with a feeding mechanism 1-5 for conveying the wood strips sent by the buffer conveying mechanism of the first station to the feeding end of the glue spraying mechanism of the high-frequency board splicing machine one by one,
the buffer storage conveying mechanism 1-4 of the first station comprises a conveying rack 1-41 which is arranged in the direction vertical to the glue spraying mechanism of the high-frequency plate splicing machine, a plurality of conveying chains 1-42 are arranged on the conveying rack, the conveying chains are commonly connected with a driving shaft 1-43, and the input end of the driving shaft is connected with a driving motor 1-44; one side of the conveying frame along the conveying direction of the conveying chain is provided with positioning baffle plates 1-45.
The feeding mechanism 1-5 of the second station comprises a feeding frame 1-51 which is arranged in the direction vertical to the glue spraying mechanism of the high-frequency plate splicing machine, the feeding frame is adjacent to the buffer conveying mechanism 1-4, a plurality of lifting conveying chains 1-52 and a plurality of feeding roller lines 1-53 are arranged on the feeding frame 1-51, and the arrangement direction of the lifting conveying chains 1-52 is consistent with the conveying direction of the buffer conveying mechanism 1-4; the conveying direction of the feeding roller line 1-53 is perpendicular to the lifting conveying chain 1-52.
The feeding mechanism has a bidirectional movement process, and firstly, the movement direction of the feeding mechanism is consistent with the movement direction of the buffer conveying mechanism, and the feeding mechanism is used for receiving the wood strips sent by the buffer conveying mechanism; then, the wood strips are conveyed to the glue spraying mechanism in a stepping mode in the opposite direction, and then the wood strips are conveyed to the glue spraying mechanism one by a feeding roller line of the feeding mechanism to be subjected to glue spraying treatment.
The material selecting platform 1-2 is arranged at the material feeding end of the buffer conveying mechanism 1-4 and comprises a plurality of lifting bracket mechanisms 1-21, the lifting bracket mechanisms are arranged between two adjacent conveying chains 1-42 of the buffer conveying mechanism 1-4 at intervals, each lifting bracket mechanism 1-21 comprises a material selecting supporting plate 1-22, driving arms 1-23 and driven arms 1-24 are respectively arranged at two ends of each material selecting supporting plate 1-22, the driving arms of the lifting bracket mechanisms are jointly arranged on the same driving shaft 1-25 in a penetrating manner, the driving shafts are arranged on the conveying frame 1-41 in a penetrating manner, the driven arms 1-24 of the lifting bracket mechanisms are jointly arranged on the same driven shaft 1-26 in a penetrating manner, the driven shafts are arranged on the conveying frame 1-41, and the driving arms 1-23 are connected with driving cylinders 1-27.
The plate pushing device 2-4 comprises a push plate frame 2-41 arranged above the conveying roller line 2-2, wherein the lower surface of the push plate frame 2-41 is connected with a push plate frame conveying chain 2-42, and the push plate frame conveying chain is arranged on the conveying roller line 2-2 in a direction perpendicular to the direction of the automatic stacker; a scratch-proof plate 2-43 for preventing the surface of the plate from being scratched is arranged on the push plate frame 2-41 between the adjacent rollers of the conveying roller line 2-2; the tail end of the conveying roller line is hinged with a baffle plate 2-44, the lower end of the baffle plate is hinged with a cylinder 2-45, and the cylinder 2-45 is fixedly arranged on a feeding frame 2-0 of the conveying roller line 2-2.
The automatic stacker crane 2-3 comprises a lifting type power roller line 2-31 prefabricated in a foundation pit, and a vertical type roller line 2-32 arranged on the outer side of the lifting type power roller line; the lifting type power roller line 2-31 comprises a lifting bench 2-310, a plurality of power rollers 2-311 for placing trays are arranged on the lifting bench, and the power rollers are connected with a power driving device 2-312; the vertical roller line 2-32 comprises a vertical roller frame 2-320, and a plurality of vertical rollers 2-321 are arranged along the height direction of the vertical roller frame 2-320.
In order to improve construction safety, the automatic stacker crane further comprises a safety fence 4 which is fixedly arranged around the automatic stacker crane 2-3 through a foot, a camera 5 for collecting video signals is arranged on the fence around the position of the automatic stacker crane, the on-site operation condition can be collected in real time through the camera, and when an emergency occurs, the first event stops the operation of the equipment.
All the frame bodies adopt a rectangular tube and steel plate welding structure, so that enough strength is ensured, and the planeness of the upper surface is ensured; the material selecting table adopts an end lifting mechanism, 3 cylinders drive the material selecting table to complete lifting action, qualified timber on a material storing roller line is manually selected and stacked during actual operation, a starting button is pressed after the timber is selected, the material selecting table falls down, and the timber falls onto a buffer conveying mechanism 1-4 of the corner conveying line; under the action of a conveying chain of the buffer conveying mechanism, the buffer zone can be immediately entered, and the material selecting table carries out material selecting of the next group of plates so as to increase the effective material selecting time of the material selecting zone.
Then the lifting baffle wheels 1-32 are lowered, the conveying chains on the buffer conveying mechanisms 1-4 are utilized for conveying, wood strips of the whole group of plates are conveyed to a second station from a first station, then the lifting baffle wheels 1-32 are lifted, the second station is conveyed in the opposite direction, wood materials are leaned against the lifting baffle wheels, then the wood materials are conveyed to a glue spraying machine one by one through a single wood strip outlet, and the feeding roller lines 1-53 realize transverse corner conveying of the wood strips; in the electrical aspect, timber at the first station and timber at the second station are detected by adopting photoelectricity and the like, and are electrically interlocked, so that interference of timber conveying is avoided, and when the timber on a conveying line is fully discharged, feeding of a material selecting table is limited (realized through electrical interlocking); the conveying chains in the invention all adopt a plurality of rows of U-shaped chains and chain guide rails to convey timber, so that the flatness of the bottom surface of the material selecting table is ensured, the leather is solid and durable, and the friction scratch of the common chain on the timber is avoided; after the wooden strips are spliced at high frequency, the wooden strips are conveyed to a pushing plate mechanism through a corner conveying system, the pushing plate mechanism pushes the wooden strips to a stacker crane, and the stacking height is adjusted through electric automatic detection and control. Orderly stacking the spliced plates on a lifting platform. After stacking to a preset height, transferring the stacked plates to other working sections through a power roller; after the stacking of the workpieces is completed, the system can automatically alarm and give a prompt on an operation screen; the power roller of the hydraulic lifting platform has a positive and negative rotation control function, so that the working condition of empty supporting, full supporting and discharging is realized; automatically stacking the spliced plates without manual intervention; the hydraulic lifting platform is provided with a mechanical maintenance anti-falling device, so that personnel safety is ensured.
In summary, the invention solves the defects of more personnel configuration, high labor intensity, low production efficiency and the like in the operation of the traditional high-frequency jigsaw machine; the automatic auxiliary feeding and discharging device is added, so that the automatic operation of the traditional high-frequency plate splicing machine is realized, and the possibility of automatic connection with other equipment can be realized; in addition, the invention has the advantages of simple operation, compact structure, convenient use and achievement of the aims of reducing staff and improving efficiency.
The foregoing description is only of the preferred embodiments of the present invention, and is not intended to limit the invention in any way, but any simple modification, equivalent variation and modification of the above embodiments according to the technical principles of the present invention are within the scope of the technical solutions of the present invention.
Claims (4)
1. A high-frequency plate splicing machine auxiliary feeding and discharging connecting line system is characterized in that: the feeding system is arranged at the feeding end of the high-frequency plate splicing machine, and the discharging system is arranged at the discharging end of the high-frequency plate splicing machine; the feeding system comprises a storage roller line, a material selecting platform for stacking qualified wood strips, and a corner conveying line for conveying the qualified wood strips on the material selecting platform, wherein the material selecting platform is adjacent to the discharge end of the storage roller line; the corner conveying line is adjacent to the glue spraying mechanism of the high-frequency board splicing machine; the material selecting platform and the corner conveying line are arranged on the frame, and the material selecting platform is arranged at the material inlet end of the corner conveying line; the corner conveying line and the glue spraying mechanism of the high-frequency board splicing machine are vertically arranged; the blanking system comprises a blanking frame, a plurality of lifting type material receiving conveying chains, a conveying roller line and an automatic stacker, wherein the lifting type material receiving conveying chains are arranged on the blanking frame and used for receiving the plates after the jointed boards of the high-frequency jointed board machine are formed; the discharging end of the high-frequency plate splicing machine is adjacent to a plurality of lifting type material receiving conveying chains, and the lifting type material receiving conveying chains are arranged between rollers at the material receiving end of the conveying roller line at intervals; the conveying direction of the conveying roller line is perpendicular to the conveying direction of the lifting type receiving conveying chain; the automatic stacker crane is vertically arranged at the discharge end of a conveying roller line, and a plate pushing device for pushing the plate formed by jointed plates to the automatic stacker crane is arranged on the conveying roller line; the corner conveying line comprises a first station, a second station and a lifting baffle wheel arranged between the first station and the second station, wherein a buffer conveying mechanism for stacking wood strips is arranged on the first station, and a feeding mechanism for conveying the wood strips sent by the buffer conveying mechanism of the first station to the feeding end of a glue spraying mechanism of the high-frequency board splicing machine one by one is arranged on the second station; the buffer storage conveying mechanism of the first station comprises a conveying rack which is arranged in the direction vertical to the glue spraying mechanism of the high-frequency plate splicing machine, a plurality of conveying chains are arranged on the conveying rack, the conveying chains are commonly connected with a driving shaft, and the input end of the driving shaft is connected with a driving motor; a positioning baffle plate is arranged on one side of the conveying frame along the conveying direction of the conveying chain; the feeding mechanism of the second station comprises a feeding rack which is arranged in the direction vertical to the glue spraying mechanism of the high-frequency plate splicing machine and is adjacent to the buffer conveying mechanism, a plurality of lifting conveying chains and a plurality of feeding roller lines are arranged on the feeding rack, and the arrangement direction of the lifting conveying chains is consistent with the conveying direction of the buffer conveying mechanism; the conveying direction of the feeding roller line is vertical to the lifting conveying chain; the material selecting platform is arranged at the material feeding end of the buffer conveying mechanism and comprises a plurality of lifting bracket mechanisms, the lifting bracket mechanisms are arranged between two adjacent conveying chains of the buffer conveying mechanism at intervals, each lifting bracket mechanism comprises a material selecting supporting plate, driving arms and driven arms are respectively arranged at two ends of each material selecting supporting plate, the driving arms of the lifting bracket mechanisms are jointly arranged on the same driving shaft in a penetrating mode, the driving shafts are arranged on a conveying frame in a penetrating mode, the driven arms of the lifting bracket mechanisms are jointly arranged on the same driven shaft in a penetrating mode, the driven shafts are arranged on the conveying frame, and the driving arms are connected with driving cylinders.
2. The high-frequency jigsaw machine-assisted feeding and discharging connection system according to claim 1, wherein: the plate pushing device comprises a push plate frame arranged above the conveying roller line, the lower surface of the push plate frame is connected with a push plate frame conveying chain, and the push plate frame conveying chain is arranged on the conveying roller line in the direction perpendicular to the automatic stacker; a scratch-proof plate for preventing the surface of the plate from being scratched is arranged on the push plate frame between the adjacent rollers of the conveying roller line; the tail end of the conveying roller line is hinged with a baffle, the lower end of the baffle is hinged with a cylinder, and the cylinder is fixedly arranged on a blanking frame of the conveying roller line.
3. The high-frequency jigsaw machine-assisted feeding and discharging connection system according to claim 1, wherein: the automatic stacker crane comprises a lifting type power roller line prefabricated in a foundation pit and a vertical roller line arranged on the outer side of the lifting type power roller line; the lifting type power roller line comprises a lifting rack, a plurality of power rollers for placing trays are arranged on the lifting rack, and the power rollers are connected with a power driving device; the vertical roller line comprises a vertical roller frame, and a plurality of vertical rollers are arranged along the height direction of the vertical roller frame.
4. The high-frequency jigsaw machine-assisted feeding and discharging connection system according to claim 1, wherein: the automatic stacker crane is characterized by further comprising a safety fence, wherein the safety fence is fixedly installed around the automatic stacker crane through a bottom foot, and a camera for collecting video signals is installed on the fence around the position of the automatic stacker crane.
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CN109834750B (en) * | 2019-04-04 | 2023-12-22 | 东莞鸿祥机械有限公司 | Automatic lamination machine for rubber and plastic film materials |
CN111674635B (en) * | 2020-04-16 | 2022-02-01 | 马鞍山市双益机械制造有限公司 | Profile distribution method |
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CN104528042A (en) * | 2014-11-26 | 2015-04-22 | 东华大学 | Automatic packing production line of square carpet and working method thereof |
CN204354239U (en) * | 2014-12-31 | 2015-05-27 | 石家庄灿高高频机械有限公司 | Full-automatic high frequency plate joggling apparatus |
CN104627425A (en) * | 2015-02-10 | 2015-05-20 | 山东兰剑物流科技股份有限公司 | Cigarette carton mechanical stacking method and device |
CN205367141U (en) * | 2016-02-02 | 2016-07-06 | 石家庄科创食品科技有限公司 | Automatic pile up neatly device of low level of packing box |
CN106324876A (en) * | 2016-10-25 | 2017-01-11 | 捷星显示科技(福建)有限公司 | Assembly line for borderless liquid crystal display panels |
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