CN114604651A - Telescopic arm type automatic container loading system - Google Patents

Telescopic arm type automatic container loading system Download PDF

Info

Publication number
CN114604651A
CN114604651A CN202210067488.4A CN202210067488A CN114604651A CN 114604651 A CN114604651 A CN 114604651A CN 202210067488 A CN202210067488 A CN 202210067488A CN 114604651 A CN114604651 A CN 114604651A
Authority
CN
China
Prior art keywords
telescopic
telescopic arm
arm
leveling
container
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
CN202210067488.4A
Other languages
Chinese (zh)
Inventor
蔡伟
夏鑫宇
姜鹏宇
许平
杨阳
刘杰波
蔡仲兴
王立清
刘振华
马彦
周明
郭鹏鹏
董景辉
蔡宇祥
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Jinjiang Hachuang Investment Co ltd
Original Assignee
Jinjiang Hachuang Investment Co ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Jinjiang Hachuang Investment Co ltd filed Critical Jinjiang Hachuang Investment Co ltd
Priority to CN202210067488.4A priority Critical patent/CN114604651A/en
Publication of CN114604651A publication Critical patent/CN114604651A/en
Pending legal-status Critical Current

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G67/00Loading or unloading vehicles
    • B65G67/02Loading or unloading land vehicles
    • B65G67/04Loading land vehicles
    • B65G67/20Loading covered vehicles
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G35/00Mechanical conveyors not otherwise provided for
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G47/00Article or material-handling devices associated with conveyors; Methods employing such devices
    • B65G47/22Devices influencing the relative position or the attitude of articles during transit by conveyors
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G47/00Article or material-handling devices associated with conveyors; Methods employing such devices
    • B65G47/74Feeding, transfer, or discharging devices of particular kinds or types
    • B65G47/90Devices for picking-up and depositing articles or materials
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G61/00Use of pick-up or transfer devices or of manipulators for stacking or de-stacking articles not otherwise provided for
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G2201/00Indexing codes relating to handling devices, e.g. conveyors, characterised by the type of product or load being conveyed or handled
    • B65G2201/02Articles
    • B65G2201/0235Containers
    • B65G2201/0241Barrels, drums

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Aviation & Aerospace Engineering (AREA)
  • Forklifts And Lifting Vehicles (AREA)

Abstract

The invention relates to the field of container automatic loading systems, and particularly discloses a telescopic arm type automatic container loading system which comprises a container hanging device, a telescopic arm device, an arrangement conveying device, a stacking tray placing table, a transferring manipulator and a system control module, wherein the container hanging device is connected with the telescopic arm device through a connecting rod; the telescopic arm device comprises a telescopic arm, a carrying translation vehicle and a supporting mounting seat, one end of the arranging and conveying device corresponds to the lower part of the telescopic arm for conveying the inner end, the other end of the arranging and conveying device corresponds to the conveying outer end, the transferring mechanical arm and the stacking tray placing table correspond to the conveying outer end and are used for placing the stacking tray, the transferring mechanical arm is used for carrying objects on the stacking tray and transferring the objects to the arranging and conveying device to the conveying inner end, the carrying translation vehicle is used for carrying the objects on the inner end and in the container to be transferred, and the system control module is used for intelligent control of the whole system. The container loading of the liquid material barrel can be realized reasonably, effectively, safely and stably in mechanical automation through the system.

Description

Telescopic arm type automatic container loading system
Technical Field
The invention relates to the field of container automatic loading systems.
Background
The packaging and transportation of some chemical liquid products mainly adopt packaging barrel split charging and then container loading transportation, in particular to the packaging and transportation of some dangerous chemical liquid, wherein the packaging barrel is specially made plastic barrel split charging, the split charging can be quantitatively and conveniently carried at the back, the operation of using and the like, and the container loading operation of the split charging material barrel is carried out, at present, the parts involved in the automatic auxiliary loading are few, the manual loading is mainly adopted, for the loading of larger containers, the required labor amount is large, the labor intensity is large, the labor cost is high, and the loading work efficiency is low, therefore, the existing container loading of the dangerous chemical liquid does not have a system device for carrying out the automatic loading strictly speaking, and the effect of the existing mechanical devices for assisting the loading on the lifting efficiency and the reduction of the labor intensity is not obvious, and the use has limitation, so that the use is inconvenient, and even the auxiliary use cannot be realized completely.
In view of the above, the existing container loading manner for chemical liquids needs to be improved, and an automatic system device capable of replacing manual loading is urgently needed.
Disclosure of Invention
The invention aims to provide a telescopic arm type automatic container loading system which can realize reasonable, effective, safe and stable mechanical automation for loading a container of a liquid material barrel.
In order to achieve the purpose, the technical scheme of the invention is as follows: a telescopic arm type automatic container loading system comprises a container hanging device, a telescopic arm device, an arrangement conveying device, a stacking tray placing table, a transferring manipulator and a system control module; the container hanging device is used for stably hanging the container to move, the telescopic arm device comprises a telescopic arm which can change the length in the container in a telescopic way, a carrying translation vehicle which is arranged on the telescopic arm to move and a support mounting seat for realizing the telescopic action of the telescopic arm by stably mounting and supporting the telescopic arm, one end of the arrangement conveying device is a conveying inner end which is correspondingly arranged between the entrance and the exit of the container and the support mounting seat and is correspondingly arranged below the telescopic arm, the other end extends to one side for the outer end of conveying, the transferring manipulator and the pallet tray placing table are arranged corresponding to the outer end of conveying, the stacking tray placing table is used for placing a stacking tray, the transferring manipulator is used for carrying and transferring the articles on the stacking tray and the conveying outer end of the arranging and conveying device, the arrangement conveying device is used for conveying articles on the inner end and the outer end, and the carrying translation vehicle is used for conveying the articles on the inner end and in the container to carry and transfer; the system control module is used for intelligently controlling the whole system.
The container hanging device comprises a portal frame and a container connecting frame which is connected to a cross beam of the portal frame through a transverse moving driving structure to move transversely and is provided with a lifting driving mechanism for driving a container to lift, wherein a truck parking area and a container loading and unloading area are arranged below the portal frame, and the container connecting frame moves back and forth in the truck parking area and the container loading and unloading area.
The transfer manipulator is a multi-axis manipulator, be equipped with the compound device of grabbing that is used for snatching the article of pile up neatly tray and pile up neatly tray on multi-axis manipulator's the work end, compound device of grabbing is snatched the mechanism and is snatched the mechanism at the installation horizontal pole article including being used for fixed connection at multi-axis manipulator work end and setting, the tray snatchs and is connected through setting up framework lift drive structure between mechanism and the installation horizontal pole, and the action through lift drive structure drives the tray and snatchs the mechanism and can install the horizontal pole relatively and rise and the activity that resets.
The article grabbing mechanism is a handle article grabbing mechanism for grabbing a handle article, and comprises a left transferring driving cylinder and a right transferring driving cylinder which are fixedly arranged on an installation cross rod respectively, a plurality of groups of double-claw grippers which are arranged at intervals and hinged on the installation cross rod through hinge rods respectively, a left linkage arm which is connected with the hinge rods of the same side claws of the groups of double-claw grippers respectively and is connected with a piston rod of the left transferring driving cylinder, and a right linkage arm which is connected with the hinge rods of the other same side claws of the groups of double-claw grippers respectively and is connected with the piston rod of the right transferring driving cylinder, wherein the double-claw opening and closing actions of the groups of double-claw grippers are synchronously driven through the actions of the left transferring driving cylinder and the right transferring driving cylinder; the tray snatchs mechanism transports the actuating cylinder and sets up the tray side clamp splice on the piston rod of actuating cylinder is transported to the tray including connecting the framework, setting on connecting the relative both sides of framework, the flexible activity in the tray transport actuating cylinder's of the tray for carrying on the back of the body direction mutually outside the connection framework, the upper end of tray side clamp splice is connected on the piston rod of actuating cylinder is transported to the tray, and the lower extreme downwardly extending tray presss from both sides the portion, be equipped with the anticreep part on the medial surface of tray clamp portion.
The stacking tray placing table is provided with a shaping and positioning device for shaping and positioning the objects stacked on the stacking tray, the shaping positioning device comprises a shaping supporting bracket, a shaping pushing component connected to the shaping supporting bracket through a guide rail sliding block structure and a shaping driving cylinder fixedly arranged on the shaping supporting bracket and connected with the shaping pushing component through a piston rod, the shaping pushing component comprises a shaping sliding connecting part connected with the guide rail sliding block structure and an L-shaped right-angle rod piece connected on the shaping sliding connecting part, the piston rod of the shaping driving cylinder is fixedly connected with the outer side of the joint of the two L-shaped arms of the L-shaped right-angle rod piece, and the joint of the two L-shaped arms of the L-shaped right-angle rod piece corresponds to the movable axis of the piston rod of the shaping driving cylinder, all the objects stacked on the stacking tray are pushed to move to a positioning position by correspondingly embedding the L-shaped right-angle rod piece and one corner of the objects stacked on the stacking tray; the stacking tray placing table comprises a placing and installing base and a placing and conveying device arranged on the placing and installing base, wherein one end of the placing and conveying device is a placing input end, the other end of the placing and conveying device is a placing and positioning end, the L-shaped right-angle rod piece is arranged corresponding to one corner of the placing and positioning end, the height of the L-shaped right-angle rod piece is arranged corresponding to the lowest layer of barrel materials stacked on the stacking tray, and two adjacent sides of the barrel materials stacked on the stacking tray are captured by two L-shaped arms of the L-shaped right-angle rod piece.
The telescopic arm comprises two parallel and side-by-side square steel beams, and the two square steel beams are stably connected through a connecting rod; the support mounting seat is provided with a telescopic guide frame for the telescopic arm to pass through, and two sides in the telescopic guide frame are respectively provided with a sliding guide limiting structure which plays a role in limiting the two square steel beams up and down, left and right and guiding telescopic sliding; the support mounting seat is also provided with a telescopic adjustment structure for driving the telescopic arm to stretch and retract, and the telescopic adjustment structure comprises a hoisting motor fixedly arranged on a telescopic guide frame, two telescopic tensioning devices fixedly arranged on the telescopic guide frame and respectively arranged corresponding to two ends of the telescopic arm in the telescopic direction, and a telescopic pull rope which is connected and wound on the hoisting motor and is respectively pulled to the corresponding end parts of the telescopic arm through the two telescopic tensioning devices at two ends for connection; and a brake device for limiting the telescopic arm to slide in a telescopic manner is arranged on the telescopic guide frame.
The telescopic boom device is characterized in that the telescopic boom device further comprises a stretching leveling device arranged on the telescopic boom and used for keeping the telescopic boom straight after stretching out, one end of the telescopic boom can stretch into the container is the front end, the other end of the telescopic boom is the rear end, the telescopic leveling device comprises a leveling connecting mechanism capable of changing height in a lifting mode and a leveling driving mechanism capable of driving the leveling connecting mechanism to lift, the leveling connecting mechanism is arranged at the front end of the telescopic boom stretching out, the upper portion of the leveling connecting mechanism is used for being connected with surrounding fixed objects, the leveling driving mechanism is arranged on the telescopic boom or is arranged on the telescopic boom and supports and erects the supporting mounting seat, or the leveling driving mechanism is arranged on the objects around the telescopic boom.
The leveling connecting mechanism comprises a primary lifting structure which is connected with the telescopic arm and provided with an elastic tension lifting structure, a secondary lifting structure which is connected to the upper end of the primary lifting structure and driven to lift by the leveling driving mechanism, and a top connecting part arranged on the secondary lifting structure; the primary lifting structure comprises a primary scissor component, a lifting sliding guide groove component fixedly arranged on the side edge of the telescopic arm, a spring mounting seat fixedly arranged on the telescopic arm and a primary lifting spring, wherein a primary lower guide wheel is arranged at one end of the lower part of the primary scissor component and embedded in the lifting sliding guide groove component to slide, the other end of the lower part of the primary scissor component is vertically bent and upwards extended to form a spring hinged arm, the vertical bent part is hinged with one end of the spring mounting seat, one end of the primary lifting spring is connected to the spring hinged arm, and the other end of the primary lifting spring is connected to the other end of the spring mounting seat; the leveling driving mechanism comprises a leveling winch motor fixedly arranged on the telescopic arm and a leveling traction rope which is connected and wound on the leveling winch motor and the end part of which is guided to be connected with the secondary scissor component through a transition guide wheel, and the leveling winch motor is used for winding the leveling traction rope to achieve deformation control on the secondary scissor component so as to realize lifting action; the leveling traction rope is provided with a fixed length block, and the end part of the pull rope displacement sensor is connected with the fixed length block.
The carrying translation vehicle comprises a section steel frame, the section steel frame is divided into a working part mounting area and a power mounting area which are arranged on opposite sides, the working part mounting area is used for mounting and arranging a carrying working device for carrying materials, and the power mounting area is used for mounting and arranging an independent power system for driving the whole vehicle to move and providing power for the carrying working device; the outer side surfaces of the other two opposite sides of the profile steel frame are respectively provided with a translation pulley which slides on a sliding rail of the telescopic arm, the translation pulleys are connected with an independent power system of the power installation area for transmission, the independent power system comprises a contact elastic sheet which is fixedly connected and arranged on the profile steel frame and close to the telescopic arm, and the contact elastic sheet is in sliding contact with a sliding contact line arranged on the telescopic arm to conduct electricity so as to obtain electric energy required by the independent power system; the independent power system also comprises a speed reduction motor, an air compressor and an air tank which are fixedly arranged on the profile steel frame and used for connecting and driving the translation pulley to rotate, the air compressor is electrified to work to compress air and is stored in the air tank, the air tank is provided with an air source processing device, and the carrying working device is connected with the air source processing device through a pipeline and provides air kinetic energy; the independent power system also comprises a wireless network control processing module for wirelessly controlling the carrying work.
The carrying working device is a linkage mechanical arm for grabbing the charging bucket with the handle, the linkage mechanical arm comprises a linkage mounting cross rod fixedly mounted and connected, a carrying linkage left driving structure and a carrying linkage right driving structure which are fixedly arranged on the linkage mounting cross rod, a plurality of groups of carrying double-claw hand grippers which are arranged at intervals and hinged on the linkage mounting cross rod through hinge structures respectively, a carrying left linkage arm which is connected with the hinge structures of the same side claw of each group of carrying double-claw hand grippers respectively and is connected with the output end of the carrying linkage left driving structure, and a carrying right linkage arm which is connected with the hinge structures of the other same side claw of each group of carrying double-claw hand grippers respectively and is connected with the output end of the carrying linkage right driving structure; arrange conveyor's transport inner for with carry the independent section of carrying the outer end separation, the bottom of independent section of carrying is connected and is equipped with the jacking pushing mechanism who is used for driving whole lift and supplies to cooperate the linkage manipulator to get accurate clamp and get the action, carry and be equipped with the liftable action on the one end tip that outer end and transport inner were plugged into and be used for blockking article and carry the feed mechanism that blocks that gets into independent section of carrying, be equipped with the liftable action on carrying the outer end and be used for article transportation in-process to block quantitative mechanism that blocks.
By adopting the technical scheme, the invention has the beneficial effects that: the automatic container loading system with the telescopic arm comprises a transfer manipulator, a conveying device, a conveying translation vehicle, a container and a conveying translation vehicle, wherein articles on a pallet placing table are grabbed by the conveying manipulator, placed on the arranging conveying device and conveyed to the grabbing range of the conveying translation vehicle, then the articles are grabbed by the conveying translation vehicle and enter the container to be arranged and stacked, so that loading is realized, and the adjustment of the arrangement and stacking positions is realized through the telescopic arm and the lifting of the container in the loading process.
The whole system can realize full automation in the loading process, can completely replace manual loading, does not need manual participation, and has reasonable and compact system layout structure, thereby better realizing the purpose effect. The mechanical structure setting of each part of above-mentioned further makes this system working process have steadily, reliably, be difficult for breaking down, the excellent part such as precision height, especially the mechanical structure setting of telescopic boom device can reach great bearing, can ensure the stable flexible action of telescopic boom, steady braking, can carry out the leveling and reach the range stack position precision when promoting the loading, can provide the slide of comparatively steady delivery translation car, reduce the limitation, promote the flexibility of action etc..
Drawings
Fig. 1 is a schematic structural diagram of a telescopic arm type automatic container loading system according to the present invention;
fig. 2 is a schematic structural view of a use state of a telescopic arm type automatic container loading system according to the present invention;
FIG. 3 is a schematic structural view of a bucket with a handle according to the present invention;
figure 4 is a schematic view of the structure of the buckets stacked on the palletising tray to which the present invention relates;
figures 5 and 6 are schematic views of different angular configurations of the telescopic tensioner according to the present invention;
FIG. 7 is a schematic view of a use arrangement of a telescopic tensioner according to the present invention;
FIG. 8 is a schematic structural view of a brake apparatus according to the present invention;
FIG. 9 is a schematic view of a brake device according to the present invention;
FIG. 10 is a schematic view of the configuration of the use arrangement of the extension leveling device according to the present invention;
FIG. 11 is a schematic view of the construction of an extension leveling device according to the present invention;
FIG. 12 is a schematic view of the configuration of the primary lifting structure of the reach leveling device according to the present invention;
fig. 13 is a schematic structural view of a secondary lifting structure in the extension leveling device according to the present invention;
fig. 14 is a schematic view of the arrangement of the carrying translator according to the present invention;
fig. 15 is a schematic structural view of a vehicle according to the invention;
FIG. 16 is a schematic structural view of a linkage manipulator according to the present invention;
FIG. 17 is a schematic view of another angular configuration of the linkage robot according to the present invention;
FIG. 18 is a schematic structural view of a linkage manipulator pick-up and independent delivery segment according to the present invention;
figures 19 and 20 are schematic views of different angular configurations of a composite hand grip of the present invention;
FIG. 21 is an enlarged view of the portion A of FIG. 19;
FIG. 22 is a schematic view of the orthopedic positioning device of the present invention;
fig. 23 is a schematic structural view of the shaping and positioning device and the pallet tray placing table according to the present invention.
In the figure:
container hanging device 10
A gantry 101; a traverse driving structure 102; a lift drive mechanism 103; a container attachment frame 104;
a telescopic arm device 20;
a telescopic arm 1; a square steel beam 11; a carrying translation vehicle 2; a slide rail g 01; trolley line g 02; a steel frame g 1;
working-part mounting area g 11; working-part mounting area g 12; translation pulley g 13; a driven pulley g 131;
a driving pulley g 132; a carrying slide guide g 133; carrying work device g 2; a cross bar d1 is installed in a linkage way;
carrying linkage left driving structure d 2; carrying linkage right driving structure d 3; the power drive cylinder d 231;
a driver block d 232; a finger cylinder d 233; carrying double-claw grip d 4; an interlocking L-shaped claw d 41; hinge structure d 5;
carrying the left linkage arm d 6; carrying a right linkage arm d 7; hinge block d 8; the shaft hinge hole d 81;
a hinge block locking part d 82; splayed fork portion d 83; a support mounting base 3; a telescopic guide frame 31;
a sliding guide defining structure 311;
a telescopic adjustment structure 6; a hoisting motor 61; a compression and tensioning device 62;
horizontal mount a 1; side riser a 11; the adjustment grooves a 12; the slide shaft a 13; anti-drop positioning ring a 14; the adjustment through hole a 15; adjusting bolts a 16; l-shaped hinge brackets a 2; an L-shaped bar a 21; connecting bar a 22;
mounting plate a 23; tension spring a 3; an upper guide wheel a 4; an L-shaped fixing frame a 5; stiffener structure a 51;
a reinforcing mounting arm a 52; reinforcing rib plates a 53; a lower guide wheel a 6; a rope guide hole a 61; a telescopic pull rope 63; brake b 3; brake actuating cylinder b 31; carry arm b 32; brake block b 33; hinged mounting b 34; hinge seats b 35;
the leveling connection mechanism f1 is leveled by extending the leveling device 7; a leveling drive mechanism f 2; a leveling hoist motor f 21;
transition guide pulley f 22; a leveling pulling rope f 23; a rope displacement sensor f 24; a fixed length block f 25;
a primary lifting structure f 3; a primary scissor assembly f 31; a primary lower guide pulley f 311; a spring hinge arm f 312;
a primary upper guide wheel f 313; a lifting slide channel member f 32; spring mount f 33;
a spring mounting seat vertical plate f 331; the shaft adjustment groove f 332; adjusting the sliding shaft f 333;
shaft lever anti-drop positioning ring f 334; shaft lever adjustment through holes f 335; a shaft adjustment bolt f 336;
a primary lift spring f 34; a secondary lifting structure f 4; primary connection mount f 41; a secondary lower sliding groove block f 411;
a secondary scissor assembly f 42; a secondary lower guide wheel f 421; a secondary upper guide wheel f 422; secondary connection mount f 43;
a secondary upper sliding groove block f 431; top attachment member f 5;
an arrangement conveying device 30; a delivery inner end 4; the conveying outer end 5 is provided with an independent conveying section d 9; the leakage preventing sensing device d 91;
a jacking pushing mechanism d 92;
a pallet tray rest 40; a shaping positioning device 8; orthopedic support brace e 1; rail slider structure e 2;
an orthopedic pushing member e 3; the shaping slide connecting portion e 31; an L-shaped right-angle bar member e 32; a shaping drive cylinder e 5; a pallet tray rest e 4; rest mounting base e 41; rest conveyor e 42; a rest input e 43; a rest positioning end e 44; a rest carriage e 45; lay conveyor e 46; the rest conveying transmission mechanism e 47; laying transfer bearing trough e 48;
a transfer robot 50; mounting rail c 1; an article grasping mechanism c 2; transfer left drive cylinder c 21; transfer right drive cylinder c 22; a hinge lever c 23; double-claw grab c 24; an L-shaped claw c 241; a left link arm c 25;
right linkage arm c 26; a hinge block c 27; a hinge hole c 271; a locking portion c 272; a U-shaped fork part c 273;
a tray gripping mechanism c 3; a connection frame c 31; a pallet transfer cylinder c 32; tray side clips c 33;
a tray clamp c 331; the retaining member c 332; a stroke sensing switch c 34; the lifting driving structure c 4;
frame mounting plates c 41; a lift drive cylinder c 42; a guide bar guide sleeve guide structure c 43;
a container 60; a pallet tray 70.
Detailed Description
In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following specific examples.
An automatic container loading system with a telescopic arm, as shown in fig. 1-23, includes a container hanging device 10, a telescopic arm device 20, an arrangement conveying device 30, a pallet tray placing table 40, a transferring manipulator 50 and a system control module (not shown in the figure), in this embodiment, the description of the structural layout, mechanical structure and functional purpose of the system is performed by loading, but not limited to the loading use of the loading system of the present invention, and the use of unloading containers can also be realized by adjusting the system control module.
The layout structure and functional functions of the system of this embodiment are as shown in fig. 1 and fig. 2, the container hanging device 10 is used for stably hanging the container 60 for movement, the telescopic arm device 20 includes a telescopic arm 1 capable of telescopically changing the length in the container 60, a carrying translation carriage 2 mounted on the telescopic arm 1 for movement, and a support mounting seat 3 for stably mounting and supporting the telescopic arm 1 for telescopic action, one end of the arrangement conveying device 30 is a conveying inner end 4 corresponding to the space between the entrance and the exit of the container 60 and the support mounting seat 3 and corresponding to the lower part of the telescopic arm 1, the other end thereof is a conveying outer end 5 extending to one side, the transferring manipulator 50 and the pallet placing table 40 are arranged corresponding to the conveying outer end 5, the pallet placing table 40 is used for placing the pallet 70, the transferring manipulator 50 is used for transferring and transferring articles on the pallet 70 and on the conveying outer end 5 of the arrangement conveying device 30, the arrangement conveying device 30 is used for conveying the articles on the inner end 4 and the outer end 5, and the carrying and translation vehicle 2 is used for conveying the articles on the inner end 4 and the articles in the container 60 for carrying and transferring; the system control module is used for intelligently controlling the whole system. So, the loading height of real-time adjustment container 60 of loading in-process, control the depth position of correspondence and the flexible real-time adjustment of flexible arm 1 in container 60, the article pile up neatly of loading is on pile up neatly tray 70, put on pile up neatly tray rest platform 40, transport the article on pile up neatly tray rest platform 40 to arranging conveyor 30 through transporting manipulator 50, carry out orderly arrangement and carry to the station, conveniently carry the accurate of carrying translation car 2 and snatch, snatch the article of arranging well through carrying translation car 2 and get into the container 60 and place thereby carry out orderly arrangement stack and place, it goes on to reach automatic loading.
As shown in fig. 1 and 2, the container hanging device 10 includes a portal frame 101, and a container connecting frame 104 connected to a cross beam of the portal frame 101 through a traverse driving structure 102 and moving transversely and having a lifting driving mechanism 103 for driving the container 60 to move up and down, wherein the container connecting frame 104 is connected to the container 60 to hoist the container 60, and the traverse driving structure 102 and the lifting driving mechanism 103 are used to hoist the container and adjust the container to move left and right in the process of loading the container.
The telescopic boom 1 comprises two parallel square steel beams 11 as shown in fig. 1 and 7, the two square steel beams 11 are stably connected through a connecting rod and are made of steel beams, the overall structural strength is good, the bearing is high, the gravity bending deformation of the longer telescopic boom 1 can be reduced as much as possible, and the overall weight of the telescopic boom can also be reduced; support the flexible guide frame 31 that is equipped with on the mount pad 3 and supplies flexible arm 1 to pass, flexible guide frame 31 is the frame construction that steel material made, forms the structure that the side link up in the frame construction and supplies flexible arm 1 to wear to establish including flexible activity, and both sides in the frame construction are equipped with respectively and play about 11 square girder steel about to inject with the slip guide of flexible slip guide effect prescribe a limit to the structure 311, as shown in the figure for the flexible slip guide wheel that corresponds the lateral surface of 11 square girder steel and the lower surface setting of two square girder steel.
The support mounting base 3 is provided with a telescopic adjustment structure 6 for driving the telescopic arm 1 to perform telescopic movement, as shown in fig. 1, the telescopic adjustment structure 6 comprises a hoisting motor 61 fixedly arranged on the telescopic guide frame 31, two telescopic tensioning devices 62 fixedly arranged on the telescopic guide frame 31 and respectively arranged corresponding to two ends of the telescopic arm 1 in the telescopic direction, and a telescopic pull rope 63 which is connected and wound on the hoisting motor 61 and is pulled to the end part of the corresponding telescopic arm 1 through the two telescopic tensioning devices 62 at two ends respectively; when the telescopic arm 1 needs to be adjusted in a telescopic mode, the winding motor 61 is started to normally or reversely rotate to pull the telescopic pull rope 63, and the telescopic pull rope 63 is tensioned by the telescopic tensioning device 62 in the pulling process so that the telescopic arm 1 can be adjusted to be stable and accurate in stretching.
The telescopic tensioning device 62 in this embodiment is a tensioning device especially used for telescopic adjustment of such a telescopic arm with a large length and a long telescopic adjustment displacement distance, and its structure includes a horizontal mounting seat a1, an L-shaped hinge bracket a2, a tensioning spring a3, an upper guide wheel a4, an L-shaped fixing bracket a5 and a lower guide wheel a6 as shown in fig. 1, fig. 5 and fig. 6. The horizontal mounting seat a1 is used for being fixedly mounted on the telescopic guide frame 31 and connected with other components, and is shown to be provided with a rectangular mounting bottom plate; the L-shaped connecting part of the two L-shaped arms of the L-shaped hinge frame a2 is hinged to one end of the horizontal mounting seat a1 through a shaft rod, the concave internal angle of the L shape is opposite to the upward direction of the horizontal mounting seat a1, the specific structure is as shown in the figure, the L-shaped hinge frame a2 is composed of two L-shaped rods a21 which are correspondingly arranged at intervals, the tail ends of the L-shaped arms of the two L-shaped rods 21, which face the other end of the horizontal mounting seat a2, are connected through a connecting rod a22, and the tail ends of the corresponding other arms of the two L-shaped rods are connected through a mounting plate a 23. One end of the tension spring a3 is connected to an L-shaped arm of the L-shaped hinge bracket a2 facing the other end of the horizontal mounting seat a1, namely, an arm provided with a connecting rod a22, the end of the tension spring a3 is looped and sleeved on the connecting rod a22, and the other end of the tension spring a3 is connected to the other end of the horizontal mounting seat a1, and the ends of the tension spring a3 are connected through the structure: the tension-adjustable position adjusting structure is connected to a horizontal mounting seat a1, the position adjusting structure is characterized in that two side vertical plates a11 which are opposite at intervals are arranged on the horizontal mounting seat a1, adjusting grooves a12 are correspondingly formed in the two side vertical plates a11, an annular ring is arranged at the other end of a tension spring a3 and is sleeved on a sliding shaft rod a13, two ends of the sliding shaft rod a13 are arranged in the adjusting grooves a12 in a penetrating manner, two ends of the sliding shaft rod a13 are respectively provided with an anti-falling positioning ring a14 which can be clamped on the outer surface of the side vertical plate a11, one end of the adjusting groove a12 is provided with an adjusting through hole a15, an adjusting bolt a16 is arranged in the adjusting through hole a15, the end of the adjusting bolt a16 which penetrates into the adjusting groove a12 is connected with the sliding shaft rod a13 through a thread screwing structure, the other end of the adjusting tension bolt a16 is an adjusting end for adjustment operation, when the tension degree needs to be further adjusted, the adjusting bolt a16 is used for driving the sliding shaft rod a13 to move in the adjusting groove 539a 12, the adjustment can be realized, the operation is simple, and the structure is stable. The upper guide wheel a4 is erected on the other arm of the L shape of the L-shaped hinge frame a2, namely, is erected on the corresponding arm of the two L-shaped rods provided with the mounting plate a23 through a shaft rod frame, and is arranged on the downward surface of the mounting plate a 23. L type mount a 5's structure is for corresponding two arm plates of its L type two arms, its L type one arm tip with articulated L type articulated frame a 2's horizontal installation seat a1 one end fixed connection, and this arm plate is equipped with strengthening rib plate structure a51 and supplies to be connected with the firm of horizontal installation seat a1 and the flexible driven frame of telescopic arm, another arm dorsad L type articulated frame a2 of L type mount a5, and is oriented downwards promptly, and this arm plate is equipped with and constitutes the enhancement installation arm a52 that the installation is strengthened and supplies to support with the flexible driven frame attach of telescopic arm, still is equipped with strengthening rib plate a53 between two arm plates, reinforcing structure intensity that can be better, can bear higher traction power. The lower guide wheels a6 are erected on an arm of the L-shaped fixed frame a5, which is away from the L-shaped hinged frame a2, i.e. a downward-facing arm plate, in this embodiment, the lower guide wheels a6 are erected on the downward-facing arm plate two by two at intervals, i.e. the two lower guide wheels a6 are erected on two side surfaces of the arm plate provided with the reinforced mounting arm a52 through the shaft rod frame, and the two lower guide wheels a6 and the upper guide wheel a4 are arranged corresponding to the same plane, and the two arm plates are provided with rope guide holes a61 corresponding to the upper guide wheels a4, which are communicated through to allow the telescopic ropes 63 for driving the telescopic arm 1 to stretch and pass through, and the specific winding structure is as shown in the figure.
The structure of the telescopic tensioning device 62 is that the upper guide wheel is arranged on the L-shaped hinged frame, the lower guide wheel is arranged on the L-shaped fixed frame, when in use, the traction rope for driving the telescopic arm is wound on the upper guide wheel and the lower guide wheel, a larger tensioning adjustment moving space can be achieved through the structure, the L-shaped hinged frame can swing in a hinged mode, the swinging range is larger, the upper guide wheel and the lower guide wheel can have a larger tensioning adjustment moving space, the elastic tensioning realized through the tensioning spring can provide a larger elastic force action correspondingly, so that the tensioning effect is realized, the tensioning spring can further realize the adjustment requirement of the tensioning degree through the position adjustment structure and the horizontal mounting seat, therefore, the structure can realize the tensioning adjustment of a larger distance, and can meet the use requirement, and is particularly suitable for the telescopic tensioning driving of the telescopic arm with a longer length, and above-mentioned specific structure setting, overall structure intensity is high, can reach great longer flexible arm drive adjustment needs structural strength to reach better tensioning effect.
The telescopic guide frame 31 is provided with a brake device b3 for limiting the telescopic sliding of the telescopic arm 1, as shown in fig. 1, 7, 8 and 9, and is mounted on the telescopic guide frame 31 and arranged corresponding to the square steel beam 11, and the structure of the brake device b3 includes a brake driving cylinder b31 hinged on the telescopic guide frame 31, a driving arm b32 with one end hinged on the telescopic guide frame 31 and the other end hinged on the brake driving cylinder b31, and a brake block b33 connected on the driving arm b32 and corresponding on the surface of the telescopic arm 1, specifically, as shown in the figure, the brake driving cylinder b31 is hinged on the telescopic guide frame 31 through a hinge mounting bracket b34 fixedly arranged on the end surface of the telescopic guide frame 31 corresponding to the telescopic direction of the telescopic arm 1, the driving arm b32 is hinged on the telescopic guide frame 31 through a hinge seat b35 fixedly arranged on the upper side surface of the telescopic guide frame 31 through which the telescopic arm 1 passes, the brake block b33 is fixedly arranged on one surface of the driving arm b32 facing the telescopic arm b2 and is arranged close to one end of the hinged seat b35, the structural arrangement structure is stable in installation, the driving force of the brake driving cylinder b31 can be well transferred to apply pressure to the brake block b33, the structural strength is high, and the brake is stable; brake block b33 can adopt the brake block b33 of nylon material, is a preferred material that can do benefit to and provides the brake braking effect, still, as shown in the figure, drive arm b32 and brake block b33 and correspond the top surface in flexible guide frame b1 of square steel beam b 21's upper surface top, and the brake braking position is inside flexible guide frame b1, and the structure is difficult for receiving the damage of external environmental factor. In addition, the setting positions and the setting number of the brake devices b3 can be installed according to the size of the whole mechanical device, for example, 2 groups of the brake devices b3 are arranged on the telescopic guide frame b1 corresponding to one end of the telescopic arm b2 in the telescopic direction respectively corresponding to the two square steel beams b21, so that stable and balanced brake can be achieved, and as shown in the figure, 4 groups of the brake devices b3 are arranged on the telescopic guide frame b1 corresponding to two ends of the telescopic arm b2 in the telescopic direction respectively corresponding to the two square steel beams b21, so that the brake strength is high, the brake devices b3 are very stable, and the brake devices are particularly suitable for brake setting of a longer and heavier telescopic arm b 2.
The brake block of the brake device b3 with the structure is arranged on the driving arm, one end of the driving arm is fixedly hinged, the other end of the driving arm is hinged to the brake driving cylinder, the brake block is pressed down to be attached to the surface of the telescopic arm through the action of the brake driving cylinder to achieve the effect of increasing friction braking, the brake devices can be arranged at multiple points according to the structural arrangement of the telescopic arm, so that the brake effect can achieve quick braking and stable braking, the brake device b3 with the structure can be used for the braking of a longer and heavier telescopic arm, the brake pressure capable of achieving pressing down easily and stably acts on the brake block, the brake block can generate resistance to the maximum extent, and the braking is achieved.
The telescopic arm device 20 further comprises an extending leveling device 7 arranged on the telescopic arm 1, as shown in fig. 1, 10-13, for keeping the telescopic arm 1 straight after extending, wherein one end of the telescopic arm 1 extending into the container is a front end, and the other end is a rear end, the telescopic leveling device 7 comprises a leveling connecting mechanism f1 and a leveling driving mechanism f2, the leveling connecting mechanism f1 is a structure capable of changing height in a lifting manner, the lower part of the leveling connecting mechanism f1 is arranged on the front end of the telescopic arm 1 extending out, the upper part of the leveling connecting mechanism f1 is used for being connected with surrounding fixed objects, the leveling connecting mechanism f2 is mainly arranged on the upper part of the container 60 and used for driving the leveling connecting mechanism f1 to change height in a lifting manner according to needs, the leveling connecting mechanism f1 is arranged on the telescopic arm 1 and is arranged by the other end of the telescopic arm 1, and thus, the leveling driving mechanism f2 is used for driving and changing the height of the connecting mechanism f1, so that the upper portion thereof can be connected to the upper portion of the container 60 and the height of the telescopic arm 1 in a straight state can be adjusted. As shown in the figure, the leveling connection mechanism f1 includes a first-stage lifting structure f3 connected to the telescopic arm f0 and having an elastic tension lifting structure, a second-stage lifting structure f4 connected to the upper end of the first-stage lifting structure f3 and driven by the leveling driving mechanism f2 to lift, and a top connection part f5 disposed on the second-stage lifting structure f4, in this embodiment, the top connection part f5 is an electromagnetic adsorption part, and the electromagnetic adsorption part is powered on to generate magnetism and is connected to an adsorbable fixed metal, such as the inner top surface of a container, so that connection is achieved by powering on close to the container without other connection operations, and the use is more convenient, and the first-stage lifting structure f3 of a specific elastic tension lifting structure can play a role in keeping upward acting force, which is beneficial to stability of magnetic close to adsorption connection and adsorption connection.
The primary lifting structure f3, as shown in the figure, comprises a primary scissor component f31, a lifting sliding guide groove component f32 fixedly arranged on the side edge of the telescopic arm 1, a spring mounting seat f33 fixedly arranged on the telescopic arm f0 and a primary lifting spring f34, one end of the lower part of the primary scissor component f31 is provided with a primary lower guide wheel f311 which is embedded in the lifting sliding guide groove component f32 to slide, the other end of the lower part of the primary scissor component f31 is vertically bent and extends upwards to form a spring hinge arm f312, and the vertical bent part is hinged with one end of the spring mounting seat f33, one end of the primary lifting spring f34 is connected on the spring hinge arm f312, the other end is connected on the other end of the spring mounting seat f33, so that the primary scissor component f31 has the effect of elastic tension, and the primary lifting spring f34 elastically pulls one end of the primary scissor component f31 which is hinged at a fixed position, the primary scissor component f31 can reach a lifting state, and when the primary scissor component f31 is pressed downwards, the primary lifting spring f34 can be stretched and can slide through the primary lower guide wheel f311 to be compressed and deformed. In the embodiment, as shown in the figure, the other end of the primary lifting spring f34 is connected to the other end of the spring mounting seat f33, in which two spring mounting seat vertical plates f331 are disposed on the spring mounting seat f33 at opposite intervals, shaft rod adjusting grooves f332 are correspondingly disposed on the two spring mounting seat vertical plates f331, the other end of the primary lifting spring f34 is connected to an adjusting sliding shaft rod f333, two ends of the adjusting sliding shaft rod f333 are disposed in the shaft rod adjusting grooves f332 and are provided with shaft rod anti-dropping positioning rings f334, one end of the shaft rod adjusting groove f332 is provided with a shaft rod adjusting through hole f335, a shaft rod adjusting bolt f336 is disposed in the shaft rod adjusting through hole f335, an end of the shaft rod adjusting bolt f336 penetrating into the shaft rod adjusting groove f332 is connected to the adjusting sliding shaft rod f333 through a thread screwing mechanism, and the other end of the shaft rod adjusting bolt f336 is a shaft rod adjusting end for adjusting operation, when the elastic tension needs to be further adjusted, the adjusting sliding shaft lever f333 is driven to move in the shaft lever adjusting groove f332 through the rotating shaft lever adjusting bolt f336, so that the adjustment can be realized, the operation is simple, and the structure is stable.
The second-stage lifting structure f4 disclosed in this embodiment includes, as shown in the figure, a first-stage connecting seat f41 connected to an upper end of a first-stage scissor component f31, a second-stage scissor component f42 connected to the first-stage connecting seat f41, and a second-stage connecting seat f43 connected to an upper end of a second-stage scissor component f42, wherein one end of a bottom of the first-stage connecting seat f41 is hinged to one end of an upper portion of the first-stage scissor component f31, the other end of the upper portion of the first-stage scissor component f31 is provided with a first-stage upper guide wheel f313 to slide on a bottom surface of the first-stage connecting seat f41, a second-stage lower sliding groove block f411 is provided on a side surface of the first-stage connecting seat f41, two ends of a lower portion of the second-stage scissor component f42 are respectively provided with second-stage lower guide wheels f to be embedded in the second-stage lower sliding groove block f411, a second-stage upper sliding groove block f431 is provided on a side surface of the second-stage connecting seat f43, two ends of the upper guide wheels 421 of the second-stage scissor component f42 are respectively embedded in the second-stage upper sliding groove block f431, the top connecting part f5 is fixedly arranged on the top surface of the secondary connecting seat f43, and the leveling driving mechanism f2 controls and drives the two ends of the lower part of the secondary scissor component f42 to adjust the sliding distance in the secondary lower sliding groove block f411, so that the top connecting part f5 is driven to lift, the adjusting structure is simple and easy to achieve, and the action change is stable.
The leveling driving mechanism f2 disclosed in this embodiment includes, as shown in the figure, a leveling hoisting motor f21 fixedly installed on the other end of the telescopic boom 1 and a leveling pulling rope f23 connected to the second-stage scissor component f42 and wound on the leveling hoisting motor f21 and guided by the end through a transition guide wheel f22, in the figure, the front ends of the square steel beams 11 of the telescopic boom 1 are respectively provided with an extending leveling device 7, the same leveling hoisting motor f21 is used for synchronous driving, the leveling force load of the structure is larger and more balanced, the extending leveling device 7 respectively penetrates the leveling pulling rope f23 from the square steel beams 11 and is guided to the middle of the transition guide and together, the pulling is connected to the leveling hoisting motor f21, the lifting action is realized by deformation control of the leveling hoisting rope f21 and the leveling pulling rope f23 on the second-stage scissor component f42, the height adjustment change is realized, and the pulling rope shift sensor 24 is further provided on the telescopic boom 1 in this embodiment for improving the accuracy of height adjustment, the leveling pulling rope f23 is provided with a fixed length block f25, the end part of the pulling rope displacement sensor f24 is connected with the fixed length block f25, and the pulling rope of the pulling rope displacement sensor f24 is pulled through the position movement of the fixed length block f25 to obtain the length change, so that the control requirement is met.
When the extending leveling device 7 is arranged and used in a container loading process, after the telescopic arm extends into the container to reach a required depth, the height of the leveling connecting mechanism is adjusted through the leveling driving mechanism to enable the height of the leveling connecting mechanism to reach the upper part and be connected with the top surface in the container, the leveling connecting mechanism can play a role of pulling the telescopic arm after connection, so that the telescopic arm is prevented from sagging again, and the upper stretching and shrinking arm can be adjusted through the leveling driving mechanism to adjust the telescopic arm with sagging deformation to be in a straight state. The whole mechanical structure is stable in arrangement, not prone to failure, smooth and stable in action, reliable in using effect, simple in mechanical automatic operation program and easy to realize in mechanical production and manufacturing.
The carrying translation vehicle 2, as shown in fig. 14 and 15, comprises a section steel frame g1, the section steel frame g1 is divided into a working part mounting area g11 and a power mounting area g12 on opposite sides, the working part mounting area g12 is used for mounting a carrying working device g2 for carrying materials, and the power mounting area g11 is used for mounting an independent power system g3 for driving the integral movement and providing power for the carrying working device g 2; the lateral surface of the other two opposite sides of the section steel frame g1 is respectively provided with a translation pulley g13 sliding on a sliding rail g01 of a telescopic arm g0, the translation pulley g13 is connected with an independent power system g3 of a power mounting area g12 for transmission, the independent power system g3 comprises a contact elastic sheet g31 which is close to the telescopic arm g0 and fixedly connected to the section steel frame g1, and the electric energy required by the independent power system g3 is obtained through the sliding contact of the contact elastic sheet g31 and a sliding contact wire g02 arranged on the telescopic arm g 0. To facilitate control of the vehicle in use, the independent power system g3 may include a wireless network control processing module (not visible) for wirelessly controlling the vehicle operation. Independent driving system g3 is used for connecting drive translation pulley g13 pivoted gear motor g32, air compressor machine g33 and air tank g34 including fixed mounting sets up on shaped steel frame g1, air compressor machine g33 circular telegram work compressed gas stores in air tank g34, air tank g34 is equipped with air supply processing apparatus g35, delivery work device g2 passes through pipe connection air supply processing apparatus g35 and provides gaseous kinetic energy by it.
The gear motor g32 is connected with a bidirectional transmission device g36 fixedly arranged on a section steel frame g1 between two translation pulleys g13, the bidirectional transmission input end of the bidirectional transmission device g36 is connected with the output end of the gear motor g32 for transmission, and two output ends of the bidirectional transmission device g36 are respectively connected with the translation pulleys g13 on the corresponding side for transmission through a long half shaft g37 and a universal coupling g 38. The translation pulley g13 comprises a driven pulley g131 and a driving pulley g132 which are arranged on the same side and at the two opposite ends of the same side and slide on a sliding rail g01 of the telescopic arm g0, the driving pulley g132 is connected with a corresponding universal coupling g38 for transmission, and the translation pulley g13 further comprises a carrying sliding guide wheel g133 which is arranged on the same side and at the two opposite ends of the same side and slides on the sliding rail g01 of the telescopic arm g 0.
The carrying translation car 2 with the structure is provided with the independent power system which can provide moving power and carrying material work power of the carrying translation car, therefore, the carrying translation car can realize translation without a transmission moving mechanism with a complex connection relation between the carrying translation car and the telescopic arm and the carrying working device does not need to be connected with the unexpected driving energy of the carrying translation car to realize work, the independent power system obtains electric energy through the contact of a contact elastic sheet and a sliding contact line, the electric mode is a sliding contact conductive mode, a conductive wire does not need to be pulled, no part moving along with the carrying translation car exists, and therefore the problem that some existing carrying translation cars are not suitable for application on the telescopic arm with telescopic activity can be solved, and the problems that limitation exists in the mechanism setting and the power connection setting of the transmission translation can be solved. In addition, the structure setting of above-mentioned carrying translation dolly, balanced reasonable layout can reach the overall structure of carrying translation dolly and stabilize and carry the removal steadily, be difficult for breaking down etc..
The carrying working device g2 is a linkage manipulator for grabbing the material barrel with the handle, as shown in fig. 15-18, the linkage manipulator comprises a linkage mounting cross bar d1 fixedly mounted and connected to the carrying translation trolley 2, a carrying linkage left driving structure d2 and a carrying linkage right driving structure d3 fixedly arranged on the linkage mounting cross bar d1, a plurality of groups of carrying double-claw hand grips d4 which are arranged at intervals and hinged to the linkage mounting cross bar d1 through hinge structures d5 respectively, a carrying left linkage arm d6 which is connected with the hinge structure d5 of the same side claw of each group of carrying double-claw hand grips d4 respectively and is connected with the output end of the carrying linkage left driving structure d2, and a carrying right linkage arm d7 which is connected with the hinge structure d5 of the other same side claw of each group of carrying double-claw hand grip d4 respectively and is connected with the output end of the carrying linkage right driving structure d 3; the double-claw opening and closing action of each group of carrying double-claw hand-grabbed d4 is synchronously driven by the actions of the carrying linkage left driving structure d2 and the carrying linkage right driving structure d3, so that the purpose of synchronously opening and closing the double-claw hand-grabbed 4 to grab a plurality of charging barrels is achieved.
In order to achieve stable grabbing of the bucket with the handle, as shown in the figure, the claw carrying the double-hand-grabber d4 is a linkage L-shaped claw d41, the tail ends of L-shaped cross arms of the two linkage L-shaped claws d41 are opposite, the upper end of an L-shaped vertical arm is fixedly connected to a hinge structure d5, the two linkage L-shaped claws d41 are driven to swing to open and close through rotation corresponding to the hinge structure d5, meshing concave-convex structures which are mutually embedded are respectively arranged on the tail end faces of the L-shaped cross arms of the two linkage L-shaped claws d41, and the closing stability during grabbing can be improved. In addition, in order to lift the linked mechanical arm and take the position corresponding to the concave position of the handle of the charging basket when the linked mechanical arm is lifted and lowered to grab the charging basket, the hinged structure d5 is hinged on the linked installation cross rod d1 through a hinged block d8 fixedly connected to the linked installation cross rod d1, the hinged block d8 comprises a shaft rod hinged hole d81 penetrated by two hinged structures d5 (the hinged structure d5 in the figure is a shaft rod for realizing hinging) which are arranged side by side and are used for carrying two claws on the same double-claw hand grab d4, two opposite sides respectively extend and protrude to form a hinged block locking part d82 for locking and connecting with the linked installation cross rod d1 and a splayed part d83 corresponding to the lower part of the two shaft rod hinged hole d81, the splayed opening of the splayed part d83 is downward, the structure is provided with the function of adapting to the structure of the charging basket, avoiding collision and leading-in, when the two linked L-shaped claws d41 of the linked mechanical arm grab d4 are closed, the two linked L-shaped linked L-claw carrying parts 41 correspond to the splayed opening 83, in this way, the provision of the hinge structure d5 does not cause an obstruction in the grasping. In addition, in order to achieve better synchronous linkage and enable the opening and closing movement distances of each carrying double-claw hand grab to be consistent so as to keep accurate alignment of movement, the carrying linkage left driving structure d2 and the carrying linkage right driving structure d3 respectively comprise a power driving cylinder d231 and a driving block d232 connected to a piston cylinder of the power driving cylinder d231 and used for being connected and driving the carrying left linkage arm d6 or the carrying right linkage arm d7, a finger cylinder d233 used for playing synchronous movement of the two driving blocks d232 is connected between the two driving blocks d232, through the structural arrangement, the two power driving cylinders d231 mainly push the linkage power pneumatically, and the arrangement of the finger cylinder d can ensure that the telescopic sliding distances of the left side and the right side are consistent; the structure is also favorable for simplifying the arrangement of a mechanical structure, is favorable for stably and reliably grabbing a plurality of articles with handles by simultaneously grabbing and clamping at one time, is simple in structure arrangement, is easy to produce and manufacture, and is not easy to break down.
The linkage manipulator of above-mentioned structure is got, sets up multiunit delivery double claw on its linkage installation horizontal pole and holds in hand, and all delivery double claw hold in hand by same drive structure driven, and the linkage is effectual, and unified action is favorable to keeping the uniformity when snatching the storage bucket, keeps accurate to can reach better synchronous linkage, stably snatch the work application of a plurality of storage buckets, can effectively promote transport loading efficiency. In addition, the structure can be simplified, the arrangement of a driving transmission structure and driving equipment can be reduced by the driving mode of linkage, so that the weight of the whole linkage manipulator is reduced, the structure is simpler, the production and the manufacture are easy to realize, the structure is not easy to break down, and the linkage manipulator is convenient to overhaul.
Considering that some multiaxis arms are different with portable carrying trolley's use work action, if the multiaxis arm can realize driving linkage manipulator and get the lift, and some portable carrying trolley are reciprocating motion can not go up and down, then will have the storage bucket and can go up and down to dodge linkage manipulator and get reciprocating motion and can not collide with the storage bucket, can correspond to the handle position above the storage bucket, from this, this embodiment further following structure sets up. The conveying inner end 4 of the arrangement conveying device 30 is an independent conveying section d9 separated from the conveying outer end 5, as shown in fig. 18, the independent conveying section d9 is provided with a conveying positioning blocking structure, as shown in the figure, baffles are arranged at the conveying end part and the left and right sides of the independent conveying section d9, and the conveying is kept orderly arranged and stopped in place and advanced. In order to prevent the subsequent leakage problem caused by the lack of the middle when a plurality of material barrels are arranged in order, a leakage-proof sensing device d91 used for respectively sensing that the arranged material barrels are in place can be arranged on the independent conveying section d9, it is described here that for the material barrels shown in the drawing, according to the size of the material barrels, the strength and the power strength of a mechanical structure and the working use requirement of a linkage manipulator are obtained through the linkage manipulator, preferably, the carrying double-claw hand claw d4 can be provided with 5-10 groups on the linkage installation cross rod d1, the leakage-proof sensing devices are arranged in corresponding numbers, for example, 8 material barrels are synchronously clamped in a linkage manner, and the leakage-proof sensing devices d91 are arranged in a one-to-one correspondence manner. In addition, the bottom of independent transport section d9 is connected and is equipped with jacking pushing mechanism d92 that is used for driving independent transport section d9 whole lift, and lift when getting the location through jacking pushing mechanism d92 lift action and cooperating linkage manipulator and snatch and need the storage bucket to dodge, can be equipped with the removal response equipment that targets in place on linkage installation horizontal pole d1, collision when avoiding appearing going up and down or the translation.
In this embodiment carry outer end 5 and be equipped with the liftable action on the one end tip of carrying inner 4 and plug into and be used for blockking article and carry the feed mechanism that blocks that gets into independent transport section d9, carry and can be equipped with the liftable action on the outer end 5 and be used for article transportation in-process to block quantitative mechanism that blocks, this structural setting is favorable to carrying quantitative control, ensures to carry into the quantity of independent transport section d 9.
The linkage effect is got to the linkage manipulator of above-mentioned structure is good, and unified action is favorable to keeping the uniformity when snatching the storage bucket, keeps accurate to can reach synchronous linkage, stably snatch the work application of a plurality of storage buckets, can effectively promote transport loading efficiency. In addition, the structure can be simplified, the arrangement of a driving transmission structure and driving equipment can be reduced by a linkage driving mode, so that the weight of the whole linkage manipulator is reduced, the structure is simpler, the production and the manufacture are easy to realize, the structure is not easy to break down, and the maintenance is convenient.
The transfer manipulator 50 is a multi-axis manipulator, a composite hand-grasping device for grasping the objects of the pallet tray 70 and the pallet tray 70 is arranged at the working end of the multi-axis manipulator, as shown in fig. 1, 19-21, the composite hand-grasping device comprises an installation cross rod c1 for fixedly connecting the working end of the multi-axis manipulator, an object grasping mechanism c2 and a pallet grasping mechanism c3 which are arranged on the installation cross rod c1, the object grasping mechanism c2 grasps the objects stacked on the pallet tray to a subsequent station where the objects need to be carried out, and the pallet grasping mechanism c3 is used for grasping the pallet tray 70 which has grasped the stacked objects and carrying out stacking or position shifting. As shown in the figure, since the article grasping mechanism c2 of the bucket with handle is used for grasping the article with handle of the present embodiment, the article grasping mechanism c2 is a handle article grasping mechanism for grasping the article with handle, the handle article grasping mechanism comprises a left transferring driving cylinder c21 and a right transferring driving cylinder c22 which are respectively and fixedly installed on the installation cross bar c1, a plurality of sets of double-claw hand grippers c24 which are respectively and fixedly arranged on the installation cross bar c1 through hinge rods c23 in a spaced arrangement, a left linkage arm c25 which is respectively connected with the hinge rod c23 of the same side claw of each set of double-claw hand grippers c24 and is connected with the piston rod of the left transferring driving cylinder c21, a right linkage arm c26 which is respectively connected with the hinge rod c23 of the other same side claw of each set of double-claw hand gripper c24 and is connected with the piston rod of the right transferring driving cylinder c22, and the double-claw hand gripper 24 of each set of double-claw c24 is synchronously driven by the actions of the left transferring driving cylinder c21 and the right transferring driving cylinder c22, through the structure, synchronous opening and closing actions are achieved to grab a plurality of charging barrels, the linkage structure principle is clearly understood through the content description and the drawings, repeated description is omitted here, it needs to be described that when the article grabbing mechanism c2 grabs articles and transfers work, the tray grabbing mechanism c3 is in a relatively rising state, and the specific implementation structure is described in detail later. In order to achieve stable grabbing of the bucket with the handle, as shown in the figure, the claws of the two-hand claw c24 are L-shaped claws c241, the tail ends of L-shaped cross arms of the two L-shaped claws c241 are opposite, the upper ends of L-shaped vertical arms are fixedly connected to a hinge rod c23, the two L-shaped claws c241 are driven to swing to realize opening and closing by rotation of a corresponding hinge rod c23, and concave-convex structures which are embedded with each other are respectively arranged on the tail end faces of the L-shaped cross arms of the two L-shaped claws c241, so that the closing stability during grabbing can be improved. In this embodiment, in order to raise the position corresponding to the depression of the bucket handle when the bucket is grabbed in a descending manner, the hinge rod c23 is hinged to the mounting cross rod c1 through a hinge block c27 fixedly connected to the mounting cross rod c1, the hinge block c27 comprises two hinge holes c271 for the hinge rod c23 of two claws of the same double-claw gripper c24 to pass through, two opposite sides respectively extend and protrude to form a locking part c272 for the locking connection of the mounting cross bar c1, and a U-shaped fork part c273 corresponding to the lower part of the two hinge holes c271, the two U-shaped vertical arms of the U-shaped fork part c273 are in a conical structure, the U-shaped opening is in a downward bell mouth shape, the structure is provided with a material barrel adapting structure, the collision and the leading-in are avoided, when the two L-shaped claws c241 of the gripper c24 are closed by the hands, the two L-shaped claws c241 correspond to the U-shaped openings of the U-shaped fork parts c273, so that the arrangement of the hinge block c27 does not cause obstruction in the grasping.
In addition, the tray grabbing mechanism c3 is connected with the installation cross bar c1 through a frame lifting driving structure c4, and the tray grabbing mechanism c3 is driven by the action of the lifting driving structure c4 to ascend and reset relative to the installation cross bar c 1. As shown in the figure, the tray grabbing mechanism c3 includes a connecting frame c31, tray transferring driving cylinders c32 disposed on two opposite sides of the connecting frame c31, and tray side clamping blocks c33 respectively disposed on piston rods of the tray transferring driving cylinders c32, the piston rods of the tray transferring driving cylinders c32 on two opposite sides of the connecting frame c31 are back-to-back and extend outwards from the connecting frame c31, the upper ends of the tray side clamping blocks c33 are connected to the piston rods of the tray transferring driving cylinders c32, the lower ends of the tray side clamping blocks c33 extend downwards to form a tray clamping portion c331, an anti-slip component c332 is disposed on the inner side surface of the tray clamping portion c331, the anti-slip component c332 can be a bump or an anti-slip component adapted to the side structure of a pallet, when grabbing a pallet, all the tray transferring driving cylinders c32 are operated to push out the tray side clamping blocks c33, and the mechanical arm is lowered to make the tray side clamping blocks c33 on two opposite sides of the pallet respectively, the connecting frame body c31 can be provided with a travel sensing switch c34 for sensing the in-place during descending, the mechanical arm stops descending after the travel sensing switch c34 senses the in-place, and then the tray transfer driving cylinder c32 can be controlled to operate and retract the tray side clamping block c33, so that the pallet is clamped and moved, and otherwise, the pallet is put down. In the frame lifting driving structure c4 disclosed in this embodiment, the connecting frame c31 is provided with a frame mounting plate c41, the frame mounting plate c41 is provided with a frame lifting driving cylinder c42, a piston rod of the frame lifting driving cylinder c42 is connected to the mounting cross rod c1 downward, and a guide rod guide sleeve guiding structure c43 is provided between the mounting cross rod c1 and the frame mounting plate c41, so that when the tray grabbing mechanism c3 needs to be controlled to ascend, the tray grabbing mechanism c3 can be pushed to ascend integrally by the action of the frame lifting driving cylinder c42, and the tray grabbing mechanism c3 ascends smoothly under the guiding action of the guide rod guide sleeve guiding structure c 43.
The composite hand grabbing device with the structure is compounded with the object grabbing mechanism for grabbing objects and the tray grabbing mechanism for grabbing trays, so that the composite hand grabbing device can be used for stacking trays, and can also be used for grabbing objects stacked on the stacking trays, and can reduce labor and equipment configuration. The whole mechanical arm is stable in hand-holding structure, convenient to use, stable and reliable.
The pallet tray placing table 40 is provided with a shaping positioning device 8 for shaping and positioning the objects piled on the pallet tray, as shown in fig. 1, fig. 2, fig. 22 and fig. 23, the shaping positioning device 8 comprises a shaping supporting bracket e1, a shaping pushing component e3 connected to the shaping supporting bracket e1 through a guide rail slider structure e2 and a shaping driving cylinder e5 fixedly arranged on the shaping supporting bracket e1 and connected with a shaping pushing component e3 through a piston rod of the shaping pushing component e3, the shaping positioning device is mainly characterized in that the shaping pushing component e3 comprises a shaping sliding connecting part e31 connected with the guide rail slider structure e2 and an L-shaped right-angle rod e32 connected to the shaping sliding connecting part e31 through the action of a shaping driving cylinder e5 to push the shaping pushing component e3 to be pushed out under the guiding limit of the guide rail slider structure e2 for shaping operation, the piston rod of the shaping driving cylinder e5 is fixedly connected with the outer side of the joint of the two L-shaped arms of the L-shaped right-angle rod piece e32, the joint of the two L-shaped arms of the L-shaped right-angle rod piece e32 corresponds to the movable axis of the piston rod of the shaping driving cylinder e5, and therefore the balance effect of pushing force can be guaranteed, the length of the two L-shaped arms of the L-shaped right-angle rod piece e32 can be consistent with the length of the two adjacent sides of the corresponding stacking tray, during use, the L-shaped right-angle rod piece e32 is arranged on the outer side of one corner of the stacked barrel materials, and the two L-shaped arms of the L-shaped right-angle rod piece e32 capture the two adjacent sides of the barrel materials stacked on the stacking tray to push, shape and adjust and position. Shaping positioner 8 that above-mentioned structure set up, overall structure sets up simply, stable in structure, the whole pocket after its shaping promotes the L type structure of the L type right angle member of part is particularly suitable for the stack of barrel material is lived the promotion, it promotes connecting portion and plastic support holder guidable sliding connection through the shaping, and the piston rod of the two arm junctions of L type right angle member's L type corresponds the plastic actuating cylinder, consequently, the effect that the driving force of plastic actuating cylinder can be better is promoted on L type right angle member and the barrel material with the stack, and can guarantee that L type right angle member can reach directional steady promotion.
In order to further improve accurate positioning and meet the requirement of achieving better mechanical automatic grabbing positioning, as shown in the figure, the stacking tray placement table e4 comprises a placement mounting base e41 and a placement conveying device e42 arranged on the placement mounting base e41, one end of the placement conveying device e42 is a placement input end e43, the other end of the placement conveying device e44 is a placement positioning end e44, the L-shaped right-angle rod piece e32 is arranged corresponding to one corner of the placement positioning end e44 and is arranged corresponding to the lowermost layer of barrel materials stacked on the stacking tray in height, so that the barrel materials can be pushed smoothly, and the two adjacent sides of the barrel materials stacked on the stacking tray are also caught by two L-shaped arms of the L-shaped right-angle rod piece e32 to push, shape and adjust and position. Here, the preliminary positioning at the time of placing the stacker tray 70 is realized by further conveyance by the lay conveyor e42, and therefore, the precise positioning can be improved. The positioning of the laying conveyor e42 can be realized in various ways, for example, the laying positioning end e44 is provided with a tray sensing device for sensing a stacking tray, or the end and/or the side edge of the laying positioning end e44 is provided with a blocking positioning structure for blocking the stacking tray, so that the structure is simple, and the effect is good. In addition, as shown in fig. 23, the laying conveyor e42 comprises a laying conveyor frame e45, a laying conveyor belt e46 erected on the laying conveyor frame e45, and a laying conveyor transmission mechanism e47 fixedly installed on the laying conveyor frame e45 and connected with a transmission laying conveyor belt e46, the laying conveyor belt e46 is a laying conveyor hinge respectively arranged on two sides of the length of the laying conveyor frame e45 correspondingly, and a laying conveyor bearing groove part e48 for embedding the laying conveyor hinge and supporting the load of the laying conveyor hinge is arranged on the laying conveyor frame e45, so that better bearing support conveying can be achieved, and the conveying is ensured to be smooth and reliable.
The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications thereof by those skilled in the art should be considered as not departing from the scope of the present invention.

Claims (10)

1. A telescopic arm type automatic container loading system is characterized by comprising a container hanging device, a telescopic arm device, an arrangement conveying device, a stacking tray placing table, a transferring manipulator and a system control module; the container hanging device is used for stably hanging the container to move, the telescopic arm device comprises a telescopic arm which can change the length in the container in a telescopic way, a carrying translation vehicle which is arranged on the telescopic arm to move and a support mounting seat for realizing the telescopic action of the telescopic arm by stably mounting and supporting the telescopic arm, one end of the arrangement conveying device is a conveying inner end which is correspondingly arranged between the entrance and the exit of the container and the support mounting seat and is correspondingly arranged below the telescopic arm, the other end of the conveying device extends out towards one side from the conveying outer end, the transferring manipulator and the pallet placing table are arranged corresponding to the conveying outer end, the stacking tray placing table is used for placing a stacking tray, the transferring manipulator is used for carrying and transferring the articles on the stacking tray and the conveying outer end of the arranging and conveying device, the arrangement conveying device is used for conveying articles on the inner end and the outer end, and the carrying translation vehicle is used for conveying the articles on the inner end and in the container to carry and transfer; the system control module is used for intelligently controlling the whole system.
2. The automated container handling system of claim 1, wherein the container suspension device comprises a gantry and a container linkage coupled to the gantry to move laterally on a cross member of the gantry via a traversing drive mechanism and having a lift drive mechanism for moving the container up and down, wherein the gantry includes a truck parking area and a container loading and unloading area under the gantry, and the container linkage moves back and forth between the truck parking area and the container loading and unloading area.
3. The system as claimed in claim 1, wherein the transferring robot is a multi-axis robot, the working end of the multi-axis robot is provided with a composite grasping device for grasping the object of the pallet and the pallet, the composite grasping device comprises a mounting rail fixedly connected to the working end of the multi-axis robot, and an object grasping mechanism and a pallet grasping mechanism arranged on the mounting rail, the pallet grasping mechanism and the mounting rail are connected by a frame lifting driving mechanism, and the pallet grasping mechanism is driven by the lifting driving mechanism to move up and down relative to the mounting rail.
4. The automatic container loading system of claim 3, wherein the article grabbing mechanism is a handled article grabbing mechanism for grabbing handled articles, the handled article grabbing mechanism comprises a left transferring driving cylinder and a right transferring driving cylinder which are respectively and fixedly mounted on the mounting cross bar, a plurality of sets of double-claw grippers which are respectively hinged on the mounting cross bar through hinge rods in an interval arrangement, a left linkage arm which is respectively connected with the hinge rods of the same side claws of each set of double-claw grippers and is connected with the piston rod of the left transferring driving cylinder, a right linkage arm which is respectively connected with the hinge rods of the other same side claws of each set of double-claw grippers and is connected with the piston rod of the right transferring driving cylinder, and the double-claw opening and closing actions of each set of double-claw grippers are synchronously driven through the actions of the left transferring driving cylinder and the right transferring driving cylinder; the tray snatchs mechanism transports the actuating cylinder and sets up the tray side clamp splice on the piston rod of actuating cylinder is transported to the tray including connecting the framework, setting on connecting the relative both sides of framework, the flexible activity in the tray transport actuating cylinder's of the tray for carrying on the back of the body direction mutually outside the connection framework, the upper end of tray side clamp splice is connected on the piston rod of actuating cylinder is transported to the tray, and the lower extreme downwardly extending tray presss from both sides the portion, be equipped with the anticreep part on the medial surface of tray clamp portion.
5. The automated container loading system of claim 1, wherein the pallet placement table is provided with a shaping positioning device for shaping and positioning the objects stacked on the pallet, the shaping positioning device comprises a shaping support bracket, a shaping pushing member connected to the shaping support bracket through a guide rail slider structure, and a shaping driving cylinder fixedly disposed on the shaping support bracket and having a piston rod connected to the shaping pushing member, the shaping pushing member comprises a shaping sliding connection part connected to the guide rail slider structure and an L-shaped right-angle rod connected to the shaping sliding connection part, the piston rod of the shaping driving cylinder is fixedly connected to the outside of the L-shaped two-arm connection part of the L-shaped right-angle rod, and the L-shaped two-arm connection part of the L-shaped right-angle rod corresponds to the movable axis of the piston rod of the shaping driving cylinder, all the objects stacked on the stacking tray are pushed to move to a positioning position by correspondingly embedding the L-shaped right-angle rod piece and one corner of the objects stacked on the stacking tray; the stacking tray placing table comprises a placing and installing base and a placing and conveying device arranged on the placing and installing base, wherein one end of the placing and conveying device is a placing input end, the other end of the placing and conveying device is a placing and positioning end, the L-shaped right-angle rod piece is arranged corresponding to one corner of the placing and positioning end, the height of the L-shaped right-angle rod piece is arranged corresponding to the lowest layer of barrel materials stacked on the stacking tray, and two adjacent sides of the barrel materials stacked on the stacking tray are captured by two L-shaped arms of the L-shaped right-angle rod piece.
6. The system of any one of claims 1-5, wherein the telescopic boom comprises two parallel side-by-side square steel beams, and the two square steel beams are firmly connected by a connecting rod; the support mounting seat is provided with a telescopic guide frame for the telescopic arm to pass through, and two sides in the telescopic guide frame are respectively provided with a sliding guide limiting structure which plays a role in limiting the two square steel beams up and down, left and right and guiding telescopic sliding; the support mounting seat is also provided with a telescopic adjustment structure for driving the telescopic arm to stretch and retract, and the telescopic adjustment structure comprises a hoisting motor fixedly arranged on a telescopic guide frame, two telescopic tensioning devices fixedly arranged on the telescopic guide frame and respectively arranged corresponding to two ends of the telescopic arm in the telescopic direction, and a telescopic pull rope which is connected and wound on the hoisting motor and is respectively pulled to the corresponding end parts of the telescopic arm through the two telescopic tensioning devices at two ends for connection; and a brake device for limiting the telescopic arm to slide in a telescopic manner is arranged on the telescopic guide frame.
7. The system as claimed in claim 6, wherein the telescopic arm device further comprises a leveling device disposed on the telescopic arm for keeping the telescopic arm straight after extending, the telescopic arm is extendable into the container and has a front end and a rear end, the leveling device comprises a leveling connection mechanism for changing height in a lifting manner and a leveling driving mechanism for driving the leveling connection mechanism to lift, the leveling connection mechanism is disposed on the front end of the telescopic arm, and an upper portion of the leveling connection mechanism is used for connecting to a surrounding fixed object, the leveling driving mechanism is disposed on the telescopic arm, or the leveling driving mechanism is disposed on a support mounting seat for supporting and erecting the telescopic arm, or the leveling driving mechanism is disposed on a surrounding object of the telescopic arm.
8. The system of claim 7, wherein the leveling mechanism comprises a primary lifting structure with a resilient tension lifting structure connected to the telescopic arm, a secondary lifting structure connected to the upper end of the primary lifting structure and driven by the leveling mechanism, and a top connecting member disposed on the secondary lifting structure; the primary lifting structure comprises a primary scissor component, a lifting sliding guide groove component fixedly arranged on the side edge of the telescopic arm, a spring mounting seat fixedly arranged on the telescopic arm and a primary lifting spring, wherein a primary lower guide wheel is arranged at one end of the lower part of the primary scissor component and embedded in the lifting sliding guide groove component to slide, the other end of the lower part of the primary scissor component is vertically bent and upwards extended to form a spring hinged arm, the vertical bent part is hinged with one end of the spring mounting seat, one end of the primary lifting spring is connected to the spring hinged arm, and the other end of the primary lifting spring is connected to the other end of the spring mounting seat; the leveling driving mechanism comprises a leveling winch motor fixedly arranged on the telescopic arm and a leveling traction rope which is connected and wound on the leveling winch motor and the end part of which is guided to be connected with the secondary scissor component through a transition guide wheel, and the leveling winch motor is used for winding the leveling traction rope to achieve deformation control on the secondary scissor component so as to realize lifting action; the leveling traction rope is provided with a fixed length block, and the end part of the pull rope displacement sensor is connected with the fixed length block.
9. The automated container loading system of claim 6, wherein the translational vehicle comprises a steel frame having a working portion mounting area and a power mounting area, the working portion mounting area being disposed on opposite sides of the steel frame, the working portion mounting area being configured to mount a working vehicle configured to carry the material, the power mounting area being configured to mount a separate power system configured to drive the movement of the entire container and to provide power to the working vehicle; the outer side surfaces of the other two opposite sides of the profile steel frame are respectively provided with a translation pulley which slides on a sliding rail of the telescopic arm, the translation pulleys are connected with an independent power system of the power installation area for transmission, the independent power system comprises a contact elastic sheet which is fixedly connected and arranged on the profile steel frame and close to the telescopic arm, and the contact elastic sheet is in sliding contact with a sliding contact line arranged on the telescopic arm to conduct electricity so as to obtain electric energy required by the independent power system; the independent power system also comprises a speed reduction motor, an air compressor and an air tank which are fixedly arranged on the profile steel frame and used for connecting and driving the translation pulley to rotate, the air compressor is electrified to work to compress air and is stored in the air tank, the air tank is provided with an air source processing device, and the carrying working device is connected with the air source processing device through a pipeline and provides air kinetic energy; the independent power system also comprises a wireless network control processing module which is used for wirelessly controlling the carrying work.
10. The system of claim 9, wherein the carrier handling device is a linkage robot for gripping the handled material barrels, the linkage robot comprises a linkage mounting cross bar fixedly mounted and connected, a left carrier linkage driving structure and a right carrier linkage driving structure fixedly disposed on the linkage mounting cross bar, a plurality of sets of left carrier double-claw grippers hinged to the linkage mounting cross bar via hinge structures, a left carrier linkage arm connected to the hinge structures of the same side claw of each set of left carrier double-claw grippers and connected to the output end of the left carrier linkage driving structure, and a right carrier linkage arm connected to the hinge structures of the other same side claw of each set of left carrier double-claw grippers and connected to the output end of the right carrier linkage driving structure; arrange conveyor's transport inner for with carry the independent section of carrying the outer end separation, the bottom of independent section of carrying is connected and is equipped with the jacking pushing mechanism who is used for driving whole lift and supplies to cooperate the linkage manipulator to get accurate clamp and get the action, carry and be equipped with the liftable action on the one end tip that outer end and transport inner were plugged into and be used for blockking article and carry the feed mechanism that blocks that gets into independent section of carrying, be equipped with the liftable action on carrying the outer end and be used for article transportation in-process to block quantitative mechanism that blocks.
CN202210067488.4A 2022-01-20 2022-01-20 Telescopic arm type automatic container loading system Pending CN114604651A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202210067488.4A CN114604651A (en) 2022-01-20 2022-01-20 Telescopic arm type automatic container loading system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202210067488.4A CN114604651A (en) 2022-01-20 2022-01-20 Telescopic arm type automatic container loading system

Publications (1)

Publication Number Publication Date
CN114604651A true CN114604651A (en) 2022-06-10

Family

ID=81857914

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202210067488.4A Pending CN114604651A (en) 2022-01-20 2022-01-20 Telescopic arm type automatic container loading system

Country Status (1)

Country Link
CN (1) CN114604651A (en)

Similar Documents

Publication Publication Date Title
CN114435992A (en) Working method of telescopic arm type automatic container loading system
CN111704042B (en) Hoisting equipment and method
CN207566453U (en) A kind of warehouse tubing transfer robot
CN110407107B (en) Accurate allocation and transportation hoist of qxcomm technology
CN105645314A (en) Decorating ceramic tile stacking and conveying trolley
WO2020106765A1 (en) Rack and hoist system
CN116238925A (en) Automatic loading and unloading device based on standard manipulator
CN111217253A (en) Full-automatic integral air carrying mechanism for vehicle body
CN114835026A (en) Double-deck container bank bridge of dolly liftable
CN213738231U (en) Handling device is used in steel construction production
CN114604651A (en) Telescopic arm type automatic container loading system
CN114644240A (en) Container loading telescopic arm
CN209052306U (en) Walking lifting equipment
CN212024035U (en) Gantry type sucker hoisting device
CN208829132U (en) Monkey
CN208843323U (en) A kind of cantilever palletizing machine
CN108995570B (en) Component transfer trolley and transfer system
CN211419288U (en) Loading device for steel drum
CN208413724U (en) A kind of removable miniature crane
CN112830143A (en) Storage floor truck capable of quickly clamping box goods
CN211712477U (en) Full-automatic integral air carrying mechanism for vehicle body
CN207090358U (en) A kind of empty rail combined type automatic lifting toter
CN111410119A (en) Hoisting and transporting method for large engineering equipment
CN220549902U (en) Container straddle carrier
CN220701160U (en) Novel goods transfer car (buggy)

Legal Events

Date Code Title Description
PB01 Publication
PB01 Publication
SE01 Entry into force of request for substantive examination
SE01 Entry into force of request for substantive examination