CN113716100A - Household automatic packaging equipment for home-entry quartz optical fiber - Google Patents

Abstract

The invention discloses household automatic packaging equipment for home-entry quartz optical fibers, which comprises a feeding rack assembly, wherein a quartz optical fiber feeding assembly is arranged on the feeding rack assembly, a packaging bag bin assembly is arranged behind the quartz optical fiber feeding assembly, feeding, grabbing and transplanting assemblies are arranged on the packaging bag bin assembly and the quartz optical fiber feeding assembly, a labeling and heat-sealing rack is arranged behind the feeding rack assembly, a labeling mechanism is arranged on the side surface of the labeling and heat-sealing rack, a quartz optical fiber bagging mechanism is fixed on the labeling and heat-sealing rack, a bagging and heat-sealing mechanism is arranged behind the quartz optical fiber bagging mechanism, a packaging and conveying assembly is arranged behind the bagging and heat-sealing mechanism, and a stacking mechanism is arranged on the side surface of the packaging and conveying assembly; the invention realizes the automation of quartz optical fiber packaging, has reasonable structure and high automation degree, saves the action space, reduces the power consumption and has good market application value.

Description

Household automatic packaging equipment for home-entry quartz optical fiber

Technical Field

The invention relates to the technical field of optical fiber packaging equipment, in particular to household automatic packaging equipment for household quartz optical fibers.

Background

The quartz optical fiber is an optical fiber which takes a pure quartz glass material with high refractive index as a core and takes an organic or inorganic material with low refractive index as a cladding, has the characteristics of low consumption and wide band, and is widely applied to cable televisions and communication systems; due to the characteristic that the quartz optical fiber is not suitable for being bent, the existing household optical fiber is wound and packaged by a reel in a stranded mode, the quartz optical fiber coil is very easy to be disordered in the transportation and moving processes, the quartz optical fiber is inconvenient to use and store, and equipment for automatically packaging the quartz optical fiber is not provided.

Accordingly, the prior art is deficient and needs improvement.

Disclosure of Invention

The invention provides household automatic packaging equipment for household quartz optical fibers, aiming at solving the problem of automatic packaging of the quartz optical fibers.

The technical scheme provided by the invention comprises a feeding rack assembly, wherein a quartz optical fiber feeding assembly is arranged on the feeding rack assembly, a packaging bag bin assembly is arranged behind the quartz optical fiber feeding assembly, a feeding grabbing and transplanting assembly is arranged on the packaging bag bin assembly and the quartz optical fiber feeding assembly, a labeling and heat-sealing rack is arranged behind the feeding rack assembly, a labeling mechanism is arranged on the side surface of the labeling and heat-sealing rack, a quartz optical fiber bagging mechanism is fixed on the labeling and heat-sealing rack, a bagging and heat-sealing mechanism is arranged behind the quartz optical fiber bagging mechanism, a packaging and conveying assembly is arranged behind the bagging and heat-sealing mechanism, and a stacking mechanism is arranged on the side surface of the packaging and conveying assembly.

In order to facilitate automatic feeding of the quartz optical fiber coiled material, a quartz optical fiber feeding assembly is arranged on the feeding rack assembly; the packaging bag bin assembly provides automatic packaging bag feeding for packaging of the quartz optical fiber; the feeding grabbing transplanting assembly automatically moves the quartz optical fiber and the packaging bag to the labeling heat-sealing rack, so that the subsequent packaging operation is facilitated; the labeling and heat-sealing machine frame is convenient for fixing the labeling mechanism, the quartz optical fiber bagging mechanism and the bagging and heat-sealing mechanism, and the labeling mechanism is used for providing label printing and automatically labeling; the quartz optical fiber bagging mechanism automatically transfers the quartz optical fiber into a packaging bag; the bag filling and heat sealing mechanism carries out vacuumizing and sealing operation on the packaging bag filled with the quartz optical fiber; the packaging conveying assembly transmits the packaged quartz optical fiber; the stacking mechanism carries out stacking transportation on the quartz optical fiber.

Preferably, the feeding rack assembly comprises an optical fiber feeding rack, a first tray pushing device, a second tray pushing device, a third tray pushing device, a fourth tray pushing device and a correlation photoelectric device are arranged on the optical fiber feeding rack, the first tray pushing device is fixed on the front side of the feeding rack, the second tray pushing device is fixed on the rear left side of the feeding rack, the third tray pushing device is fixed on the rear side of the feeding rack, the fourth tray pushing device is fixed on the rear right side of the feeding rack, and the fourth tray pushing device is fixed on the right rear corner of the feeding rack.

The optical fiber feeding rack is used for fixing the quartz optical fiber feeding assembly, the packaging bag bin assembly and the feeding grabbing and transplanting assembly; the first tray material pushing device, the second tray material pushing device, the third tray material pushing device and the fourth tray material pushing device are matched with each other, the quartz optical fibers are sequentially fed, and the photoelectric device is matched with the feeding grabbing transplanting assembly to grab the quartz optical fibers.

Preferably, the quartz optical fiber feeding assembly comprises a feeding rail, the feeding rail is fixed on the feeding rack, a plurality of feeding trays are arranged on the feeding rail, a bin ejecting device is arranged on the right side of the feeding rail and fixed at the bottom of the optical fiber feeding rack, and the bin ejecting device penetrates through the feeding trays.

The feeding track is matched with the tray pushing device to push the feeding tray to move, the feeding tray is used for placing the quartz optical fiber coiled materials, the bin ejecting device ejects the feeding tray, and the feeding grabbing and transplanting assembly is convenient to grab and operate the quartz optical fiber.

Preferably, feed bin liftout device includes the liftout support, the bottom right side of liftout support is fixed with step motor, the bottom of liftout support is fixed with the pedestal bearing, the centre of liftout support is provided with the ball screw subassembly, the ball screw subassembly passes the pedestal bearing, the higher authority of ball screw is connected with the liftout guiding axle, the liftout guiding axle passes the liftout support, the top of liftout guiding axle is fixed with the kickoff board.

In order to jack up the loading tray conveniently, a stock bin jacking device is fixed at the bottom of the loading frame assembly, the jacking frame is used for fixing a stepping motor, a bearing with a seat and a jacking guide shaft, the stepping motor drives a ball screw assembly to rotate, the bearing with the seat assists the ball screw assembly to rotate, the ball screw assembly drives the jacking guide shaft to lift, the jacking guide shaft drives a jacking plate to lift, and the jacking plate is used for jacking the loading tray.

Preferably, the subassembly is transplanted including the material loading to the material loading, the material loading is transplanted the stand and is fixed in the higher authority of material loading frame subassembly, the higher authority of material loading transplantation stand is fixed with rodless cylinder bottom plate, rodless cylinder bottom plate's side is fixed with transplants rodless cylinder, the higher authority of rodless cylinder bottom plate is connected with slider, slider's the higher authority is connected with transplanting manipulator connecting plate, one side of transplanting manipulator connecting plate is provided with the wrapping bag and snatchs the manipulator, the opposite side of transplanting manipulator connecting plate is provided with quartz fiber and snatchs the manipulator, quartz fiber snatchs the below of manipulator and is connected with and snatchs clamping jaw subassembly.

In order to move quartz fiber and wrapping bag to on pasting mark heat-seal frame, paste mark and bagging-off operation the wrapping bag feed bin subassembly with quartz fiber material loading subassembly's the higher authority is provided with the material loading and snatchs the subassembly of transplanting, material loading transplantation stand is used for fixing rodless cylinder bottom plate, rodless cylinder bottom plate is used for fixing and transplants rodless cylinder and slider, transplant rodless cylinder cooperation slider and drive and move about the manipulator connecting plate, transplant the manipulator connecting plate and be used for fixing the wrapping bag and snatch the manipulator with quartz fiber, the wrapping bag snatchs the manipulator and is used for snatching the wrapping bag, quartz fiber snatchs the manipulator and is used for snatching quartz fiber, snatch the clamping jaw subassembly and be used for snatching and put down quartz fiber.

Preferably, the labeling mechanism comprises a labeling support, a labeling bottom plate is fixed on the labeling support, a labeling sliding assembly is fixed on the labeling bottom plate, a sliding servo motor is arranged on the side face of the labeling sliding assembly, a labeling manipulator is connected to the upper face of the labeling sliding assembly, a label sucker module is arranged below the labeling manipulator, a label printing device is arranged on the side face of the labeling support, and a label blowing module is arranged on the inner side of the label printing device.

In order to realize automatic label printing and labeling operation, a labeling mechanism is arranged on the side face of the labeling heat-sealing rack, a labeling support is used for fixing a labeling bottom plate, the labeling bottom plate is used for fixing a labeling sliding assembly and a sliding servo motor, the labeling sliding assembly is matched with the sliding servo motor to drive a labeling manipulator to move left and right, the labeling manipulator drives the labeling manipulator to perform labeling operation, a label sucking disc module is used for sucking up a label, a label printing device is used for performing label printing, and the label sucking disc module is blown to facilitate label sucking.

Preferably, quartz fiber bagging mechanism includes dam device, dam device is fixed in the higher authority of material loading rack subassembly, dam device is provided with quartz fiber at the back and checks the scanning subassembly, quartz fiber is provided with quartz fiber and pushes the subassembly at the back of checking the scanning subassembly, quartz fiber pushes the higher authority of subassembly and is fixed with the certificate label and puts into the subassembly, the side that the subassembly was put into to the certificate label is provided with out the bag subassembly, it checks the scanning subassembly to be provided with the wrapping bag at the back of opening the bag subassembly, the wrapping bag is checked the scanning subassembly and is fixed in the side that the subassembly was put into to the certificate label.

In order to realize the automatic bagging-off operation of quartz fiber paste the mark heat-seal frame the higher authority is fixed with quartz fiber bagging-off mechanism, dam device realizes ordered bagging-off, wait for preceding bagging-off operation to accomplish, dam device rises, quartz fiber checks that the scanning subassembly scans to the quartz fiber who sends and prepare the bagging-off and checks the affirmation, quartz fiber pushes the subassembly and pushes quartz fiber in the wrapping bag, the certificate label is put into the subassembly and is put into the bag with the label, it opens the wrapping bag to open the bag subassembly, the wrapping bag is checked the scanning subassembly and is scanned the confirmation of checking to the wrapping bag that the conveying was come.

Preferably, bagging-off heat-seal machine constructs including the conveyer subassembly, the conveyer subassembly is fixed in paste the higher authority of mark heat-seal frame, the back of conveyer subassembly is provided with heat-seal base subassembly, the higher authority of heat-seal base subassembly is provided with the heat-seal and pushes down the subassembly, the heat-seal is pushed down and is provided with heating element below the subassembly, heating element is fixed in on the heat-seal base subassembly, the side of heat-seal base subassembly is provided with the vacuum and takes out mouth subassembly, the opposite side of heat-seal base subassembly is fixed with heat-seal conveyor belt subassembly, heat-seal conveyor belt subassembly is fixed in paste the higher authority of mark heat-seal frame.

The bag filling and heat sealing mechanism is used for vacuumizing and heat sealing the packaging bags filled with the quartz optical fibers, and the conveying belt assembly is used for conveying the packaging bags filled with the quartz optical fibers to the heat sealing conveying belt assembly; the heat-sealing base assembly is used for fixing the heat-sealing pressing assembly, the heating assembly and the vacuum pumping nozzle assembly; the heat-sealing pressing assembly performs heat-sealing pressing on the opening of the packaging bag; the heating assembly heats the heat-sealing pressing assembly; the vacuum pumping nozzle assembly is used for performing vacuum pumping operation; the heat-seal conveying belt assembly conveys the sealed and packaged packaging bags to the packaging conveying assembly.

Compared with the prior art, the quartz optical fiber packaging device has the advantages that the quartz optical fiber packaging device realizes quartz optical fiber packaging automation, is reasonable in structure and high in automation degree, saves action space, reduces power consumption, improves production efficiency, and has good market application value.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a household quartz optical fiber automatic packaging device according to the present invention;

FIG. 2 is a schematic structural view of a loader rack assembly of the present invention;

FIG. 3 is a schematic structural diagram of a silica fiber loading assembly according to the present invention;

FIG. 4 is a schematic structural diagram of a bin ejecting device according to the present invention;

FIG. 5 is a schematic structural view of a loading grabbing and transplanting assembly of the present invention;

FIG. 6 is a schematic view of the labeling mechanism of the present invention;

FIG. 7 is a schematic structural diagram of a silica fiber bagging mechanism according to the present invention;

FIG. 8 is a schematic structural view of a bagging and heat-sealing mechanism of the invention;

reference numerals: 1. a feeder frame assembly; 11. an optical fiber feeding rack; 12. a first tray pusher; 13. a second tray pusher; 14. a third tray pusher; 15. a fourth tray pusher; 16. a correlation photoelectric device; 2. a quartz optical fiber feeding assembly; 21. a feeding track; 22. a feeding tray; 23. a bin liftout device; 231. a material ejecting bracket; 232. a stepping motor; 233. a pedestal bearing; 234. a ball screw assembly; 235. a material ejecting guide shaft; 236. a material ejecting plate; 3. a packaging bag bin assembly; 4. a loading grabbing transplanting assembly; 41. loading and transplanting the upright columns; 42. a rodless cylinder base plate; 43. transplanting a rodless cylinder; 44. a sliding device; 45. transplanting manipulator connecting plates; 46. a packaging bag grabbing manipulator; 47. a quartz optical fiber grabbing manipulator; 48. a gripping jaw assembly; 5. labeling and heat sealing the machine frame; 6. a labeling mechanism; 61. labeling a bracket; 62. labeling the bottom plate; 63. labeling the sliding component; 64.

a sliding servo motor; 65. labeling mechanical arms; 66. a label sucker module; 67. a label printing device; 68. a label blowing module; 7. a quartz optical fiber bagging mechanism; 71. a material blocking device; 72. the quartz optical fiber checking and scanning component; 73. a silica fiber push-in component; 74. a credential tag drop-in component; 75. a bag opening assembly; 76. the packaging bag checking and scanning component; 8. a bagging and heat-sealing mechanism; 81. a conveyor belt assembly; 82. a heat seal base assembly; 83. heat-sealing the pressing group; 84. a heating assembly; 85. a vacuum nozzle assembly; 86. a heat-seal conveyor belt assembly; 9. a package conveying assembly; 10. and a stacking mechanism.

Detailed Description

The technical features mentioned above are combined with each other to form various embodiments which are not listed above, and all of them are regarded as the scope of the present invention described in the specification; also, modifications and variations may be suggested to those skilled in the art in light of the above teachings, and it is intended to cover all such modifications and variations as fall within the true spirit and scope of the invention as defined by the appended claims.

In order to facilitate an understanding of the invention, the invention is described in more detail below with reference to the accompanying drawings and specific examples. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

The present invention will be described in detail with reference to the accompanying drawings.

Example 1: as shown in fig. 1, in order to solve the problem of automatic packaging of the quartz optical fiber, the invention provides a household automatic packaging device for the quartz optical fiber, which comprises a feeding rack assembly 1, wherein a quartz optical fiber feeding assembly 2 is arranged on the feeding rack assembly 1, a packaging bag bin assembly 3 is arranged behind the quartz optical fiber feeding assembly 2, a feeding grabbing and transplanting assembly 4 is arranged above the packaging bag bin assembly 3 and the quartz optical fiber feeding assembly 2, a labeling and heat sealing rack 5 is arranged behind the feeding rack assembly 1, a labeling mechanism 6 is arranged on the side surface of the labeling and heat sealing rack 5, a quartz optical fiber bagging mechanism 7 is fixed on the labeling and heat sealing rack 5, a bagging and heat sealing mechanism 8 is arranged behind the quartz optical fiber bagging and heat sealing mechanism 7, and a packaging and conveying assembly 9 is arranged behind the bagging and heat sealing mechanism 8, the side of the package conveying assembly 9 is provided with a palletizing mechanism 10.

The quartz optical fiber feeding assembly 2 moves the quartz optical fiber to the lower side of the feeding grabbing transplanting assembly 4, and the feeding grabbing transplanting assembly 4 grabs the quartz optical fiber and moves the quartz optical fiber to a translation mechanism of the labeling and heat sealing rack 5; the feeding grabbing and transplanting assembly 4 sucks up the packaging bag and moves the packaging bag to a packaging bag translation mechanism of the labeling and heat sealing rack 5; the labeling and heat-sealing machine frame 5 prints labels on the quartz optical fibers and automatically labels the labels, the translation mechanism transmits the quartz optical fibers and the packaging bags to the quartz optical fiber bagging mechanism 7, the quartz optical fiber bagging mechanism 7 puts the quartz optical fibers into the labels and pushes the quartz optical fibers into the packaging bags, the translation mechanism moves the packaging bags filled with the quartz optical fibers to the bagging and heat-sealing mechanism 8, and the bagging and heat-sealing mechanism 8 vacuumizes and heat-seals the packaging bags; after the packaging is finished, the quartz optical fibers are conveyed to a stacking mechanism 10 through a packaging conveying assembly 9, and the stacking mechanism 10 stacks and stores the packaged quartz optical fibers.

In order to facilitate automatic feeding of the quartz optical fiber coiled material, a quartz optical fiber feeding assembly 2 is arranged on the feeding rack assembly 1; the packaging bag bin assembly 3 provides automatic packaging bag feeding for packaging of the quartz optical fiber; the feeding grabbing and transplanting assembly 4 automatically moves the quartz optical fiber and the packaging bag to the labeling and heat sealing rack 5, so that the subsequent packaging operation is facilitated; the labeling and heat-sealing machine frame 5 is convenient for fixing the labeling mechanism 6, the quartz optical fiber bagging mechanism 7 and the bagging and heat-sealing mechanism 8, and the labeling mechanism 6 is used for providing label printing and automatically labeling; the quartz optical fiber bagging mechanism 7 automatically transfers the quartz optical fiber into a packaging bag; the bag-filling heat-sealing mechanism 8 performs vacuum-pumping and sealing operations on the packaging bag filled with the quartz optical fiber; the packaging conveying component 9 transmits the packaged quartz optical fiber; the stacking mechanism 10 performs stacking transportation on the quartz optical fiber.

Example 2: as shown in fig. 2, in order to fix the feeding device conveniently, a feeding rack assembly 1 is provided, the feeding rack assembly 1 includes an optical fiber feeding rack 11, a first tray pushing device 12, a second tray pushing device 13, a third tray pushing device 14, a fourth tray pushing device 15 and a correlation photoelectric device 16 are provided on the optical fiber feeding rack 11, the first tray pushing device 12 is fixed on the front side of the feeding rack, the second tray pushing device 13 is fixed on the rear left side of the feeding rack, the third tray pushing device 14 is fixed on the rear side of the feeding rack, the fourth tray pushing device 15 is fixed on the rear right side of the feeding rack, and the fourth tray pushing device is fixed on the right rear corner of the feeding rack.

The first tray pushing device 12 pushes the feeding tray 22 with the quartz optical fibers to the left, the second tray pushing device 13 pulls the feeding tray 22 with the quartz optical fibers to the back, the third tray pushing device 14 pulls the feeding tray 22 with the quartz optical fibers to the right, after the feeding grabbing and transplanting assembly 4 grabs the quartz optical fibers on the feeding tray 22 in sequence, the fourth tray pushing device 15 pushes the empty feeding tray 22 out forwards, and the actions are repeated to complete automatic feeding operation.

The optical fiber feeding rack 11 is used for fixing the quartz optical fiber feeding assembly 2, the packaging bag bin assembly 3 and the feeding grabbing and transplanting assembly 4; the first tray material pushing device 12, the second tray material pushing device 13, the third tray material pushing device 14 and the fourth tray material pushing device 15 are matched with each other, the quartz optical fibers are sequentially fed, and the photoelectric device 16 is matched with the feeding grabbing and transplanting assembly 4 to carry out quartz optical fiber grabbing operation.

Example 3: as shown in fig. 3, in order to facilitate the feeding operation of the silica fiber, a silica fiber feeding assembly 2 is arranged on the feeding rack assembly 1, the silica fiber feeding assembly 2 includes a feeding rail 21, the feeding rail 21 is fixed on the feeding rack, a plurality of feeding trays 22 are arranged on the feeding rail 21, a bin ejecting device 23 is arranged on the right side of the feeding rail 21, the bin ejecting device 23 is fixed at the bottom of the fiber feeding rack 11, and the bin ejecting device 23 penetrates through the feeding tray 22.

The feeding tray 22 with the quartz optical fibers is moved on the feeding rail 21 through the feeding rack assembly 1, the bin jacking device 23 jacks up the quartz optical fibers, and the feeding grabbing and transplanting assembly 4 is waited for to grab the quartz optical fibers.

In this embodiment, as shown in fig. 4, in order to lift the loading tray 22 conveniently, a bin lifting device 23 is fixed at the bottom of the loading frame assembly 1, the bin lifting device 23 includes a lifting support 231, a stepping motor 232 is fixed at the right side of the bottom of the lifting support 231, a bearing 233 with a seat is fixed at the bottom of the lifting support 231, a ball screw assembly 234 is arranged in the middle of the lifting support 231, the ball screw assembly 234 penetrates through the bearing 233 with the seat, a lifting guide shaft 235 is connected to the upper surface of the ball screw, the lifting guide shaft 235 penetrates through the lifting support 231, and a lifting plate 236 is fixed at the top of the lifting guide shaft 235.

The synchronizing wheel with the stepping motor 232 is connected with the synchronizing wheel of the ball screw assembly 234 through a synchronous belt to drive the ball screw assembly 234 to rotate, the rotation of the ball screw assembly 234 drives the lifting of the ejection guide shaft 235, the lifting of the ejection guide shaft 235 simultaneously drives the lifting of the ejector plate 236, and the ejector plate 236 pushes up the feeding tray 22.

The ejecting support 231 is used for fixing the stepping motor 232, the seated bearing 233 and the ejecting guide shaft 235, the stepping motor 232 drives the ball screw assembly 234 to rotate, the seated bearing 233 assists the ball screw assembly 234 to rotate, the ball screw assembly 234 drives the ejecting guide shaft 235 to lift, the ejecting guide shaft 235 drives the ejecting plate 236 to lift, and the ejecting plate 236 is used for ejecting the loading tray 22.

Example 4: as shown in fig. 5, in order to move the silica fiber and the packaging bag to the labeling and heat sealing machine frame 5 for labeling and bagging, a feeding grabbing and transplanting assembly 4 is arranged on the packaging bag bin assembly 3 and the silica fiber feeding assembly 2, the feeding grabbing and transplanting assembly 4 comprises a feeding transplanting upright post 41, the feeding transplanting upright post 41 is fixed on the feeding frame assembly 1, a rodless cylinder bottom plate 42 is fixed on the feeding transplanting upright post 41, a transplanting rodless cylinder 43 is fixed on the side surface of the rodless cylinder bottom plate 42, a sliding device 44 is connected on the rodless cylinder bottom plate 42, a transplanting manipulator connecting plate 45 is connected on the sliding device 44, a packaging bag grabbing manipulator 46 is arranged on one side of the transplanting manipulator connecting plate 45, and a silica fiber grabbing manipulator 47 is arranged on the other side of the transplanting manipulator connecting plate 45, and a grabbing clamping jaw assembly 48 is connected to the lower part of the quartz optical fiber grabbing mechanical arm 47.

The transplanting rodless cylinder 43 drives the sliding device 44 to move back and forth on the rodless cylinder bottom plate 42, the sliding device 44 drives the transplanting manipulator connecting plate 45 to move back and forth, meanwhile, the packaging bag grabbing manipulator 46 grabs the packaging bag downwards, the quartz optical fiber grabbing manipulator 47 moves downwards, the grabbing clamping jaw assembly 48 grabs the quartz optical fiber, the transplanting rodless cylinder 43 drives the sliding device 44, and the packaging bag and the quartz optical fiber are moved to the translation mechanism on the labeling heat-sealing rack 5.

The feeding and transplanting upright column 41 is used for fixing a rodless cylinder bottom plate 42, the rodless cylinder bottom plate 42 is used for fixing a transplanting rodless cylinder 43 and a sliding device 44, the transplanting rodless cylinder 43 is matched with the sliding device 44 to drive a transplanting manipulator connecting plate 45 to move left and right, the transplanting manipulator connecting plate 45 is used for fixing a packaging bag grabbing manipulator 46 and a quartz optical fiber grabbing manipulator 47, the packaging bag grabbing manipulator 46 is used for grabbing packaging bags, the quartz optical fiber grabbing manipulator 47 is used for grabbing quartz optical fibers, and the grabbing clamping jaw assembly 48 is used for grabbing and putting down the quartz optical fibers.

Example 5: as shown in fig. 6, in order to realize automatic label printing and labeling operation, a labeling mechanism 6 is arranged on the side surface of the labeling heat sealing machine frame 5, the labeling mechanism 6 comprises a labeling support 61, a labeling bottom plate 62 is fixed on the labeling support 61, a labeling sliding assembly 63 is fixed on the labeling bottom plate 62, a sliding servo motor 64 is arranged on the side surface of the labeling sliding assembly 63, a labeling manipulator 65 is connected on the labeling sliding assembly 63, a label sucking disc module 66 is arranged below the labeling manipulator 65, a label printing device 67 is arranged on the side surface of the labeling support 61, and a label blowing module 68 is arranged on the inner side of the label printing device 67.

A sliding servo motor 64 drives a labeling sliding assembly 63 to move left and right on a labeling bottom plate 62, after the labeling sliding assembly 63 drives a labeling manipulator 65 to move to a specified position, the labeling manipulator 65 moves downwards, and a label sucking disc module 66 sucks a label printed by a label printing device 67 and is matched with a label blowing module 68 to suck the label and paste the label onto a quartz optical fiber.

The labeling support 61 is used for fixing the labeling bottom plate 62, the labeling bottom plate 62 is used for fixing the labeling sliding assembly 63 and the sliding servo motor 64, the labeling sliding assembly 63 is matched with the sliding servo motor 64 to drive the labeling manipulator 65 to move left and right, the labeling manipulator 65 drives the labeling manipulator 65 to perform labeling operation, the label suction cup module 66 is used for sucking up labels, the label printing device 67 is used for printing labels, and the label blowing module 68 is convenient for the label suction cup module 66 to suck up labels.

Example 6: as shown in fig. 7, in order to realize the automatic bagging operation of quartz fiber, a quartz fiber bagging mechanism 7 is fixed on the labeling heat-sealing rack 5, the quartz fiber bagging mechanism 7 comprises a material blocking device 71, the material blocking device 71 is fixed on the material loading rack assembly 1, a quartz fiber checking and scanning assembly 72 is arranged behind the material blocking device 71, a quartz fiber pushing assembly 73 is arranged behind the quartz fiber checking and scanning assembly 72, a certificate label placing assembly 74 is fixed on the quartz fiber pushing assembly 73, a bag opening assembly 75 is arranged on the side of the certificate label placing assembly 74, a packaging bag checking and scanning assembly 76 is arranged behind the bag opening assembly 75, and the packaging bag checking and scanning assembly 76 is fixed on the side of the certificate label placing assembly 74.

The quartz optical fiber checking and scanning component 72 scans and checks quartz optical fibers, the packaging bag checking and scanning component 76 scans and checks packaging bags conveyed, the material blocking device 71 blocks the quartz optical fibers conveyed subsequently, the certificate label placing component 74 places qualified labels on the quartz optical fibers, the quartz optical fiber pushing component 73 pushes the quartz optical fibers leftwards, the packaging bag opening component 75 opens the packaging bags through suckers, and the quartz optical fiber pushing component 73 pushes the quartz optical fibers into the packaging bags.

The material blocking device 71 achieves orderly bagging, the material blocking device 71 rises after the front bagging operation is finished, the quartz optical fiber checking and scanning assembly 72 scans, checks and confirms the quartz optical fiber which is conveyed to be ready for bagging, the quartz optical fiber pushing assembly 73 pushes the quartz optical fiber into the packaging bag, the certificate label placing assembly 74 places the label into the bag, the bag opening assembly 75 opens the packaging bag, and the packaging bag checking and scanning assembly 76 scans, checks and confirms the conveyed packaging bag.

Example 7: as shown in fig. 8, in order to automatically perform the vacuum-pumping and heat-sealing operations for the packing bag in which the silica optical fiber is loaded, a bagging heat-sealing mechanism 8 is fixed on the labeling heat-sealing rack 5, the bagging heat-sealing mechanism 8 comprises a conveying belt component 81, the conveying belt component 81 is fixed on the labeling and heat sealing rack 5, a heat sealing base component 82 is arranged behind the conveying belt component 81, the heat-seal base assembly 82 is provided with a heat-seal pressing-down assembly 83 on the upper side, the heat-seal pressing-down assembly 83 is provided with a heating assembly 84 on the lower side, the heating unit 84 is fixed to the heat-seal base unit 82, and a vacuum nozzle unit 85 is provided on a side of the heat-seal base unit 82, and a heat-sealing conveying belt assembly 86 is fixed on the other side of the heat-sealing base assembly 82, and the heat-sealing conveying belt assembly 86 is fixed on the labeling heat-sealing machine frame 5.

The quartz optical fiber filled into the packaging bag is conveyed to the heat-sealing conveying belt component 86 through the conveying belt component 81, the vacuum pumping component 85 is used for vacuumizing the packaging bag, the heat-sealing pressing component 83 is heated through the heating component 84, the heat-sealing pressing component 83 is pressed through the air cylinder to perform heat-sealing operation on the packaging bag, and after heat sealing is completed, the packaged quartz optical fiber is conveyed to the packaging conveying component 9 through the heat-sealing conveying belt component 86.

The bagging heat-sealing mechanism 8 is used for vacuumizing and heat-sealing the packaging bag filled with the quartz optical fiber, and the conveying belt component 81 is used for conveying the packaging bag filled with the quartz optical fiber to the heat-sealing conveying belt component 86; the heat seal base assembly 82 is used to hold the heat seal hold-down assembly 83, the heating assembly 84 and the vacuum nozzle assembly 85; the heat-sealing pressing component 83 carries out heat-sealing pressing on the opening of the packaging bag; the heating unit 84 heats the heat-seal pressing unit 83; the vacuum nozzle assembly 85 will perform the vacuuming operation; the heat-seal conveyor belt assembly 86 conveys the sealed packages to the package conveyor assembly 9.

The working principle of the invention is as follows: moving the feeding tray 22 with the quartz optical fiber on the feeding rail 21 through the feeding rack assembly 1, and jacking the quartz optical fiber by the stock bin jacking device 23 to wait for the feeding grabbing and transplanting assembly 4 to grab the quartz optical fiber; a transplanting rodless cylinder 43 drives a sliding device 44 to move back and forth on a rodless cylinder bottom plate 42, the sliding device 44 drives a transplanting manipulator connecting plate 45 to move back and forth, meanwhile, a packaging bag grabbing manipulator 46 grabs a packaging bag downwards, a quartz optical fiber grabbing manipulator 47 moves downwards, a grabbing clamping jaw assembly 48 clamps a quartz optical fiber, the transplanting rodless cylinder 43 drives the sliding device 44 to move the packaging bag and the quartz optical fiber to a translation mechanism on a labeling heat-sealing rack 5; a sliding servo motor 64 drives a labeling sliding assembly 63 to move left and right on a labeling bottom plate 62, the labeling sliding assembly 63 drives a labeling manipulator 65 to move to a specified position, then the labeling manipulator 65 moves downwards, a label sucking disc module 66 is used for sucking a label printed by a label printing device 67 and attaching the label to a quartz optical fiber in cooperation with a label blowing module 68, and the labeled quartz optical fiber is moved to a quartz optical fiber bagging mechanism 7 through a translation mechanism; the quartz optical fiber checking and scanning component 72 scans and checks the quartz optical fiber, the packaging bag checking and scanning component 76 scans and checks the transmitted packaging bag, the material blocking device 71 blocks the quartz optical fiber which is subsequently transmitted, the certificate label placing component 74 places qualified labels on the quartz optical fiber, the quartz optical fiber pushing component 73 pushes the quartz optical fiber leftwards, the packaging bag opening component 75 opens the packaging bag through a sucker, the quartz optical fiber pushing component 73 pushes the quartz optical fiber into the packaging bag, and the material blocking device 71 releases the blocking; the quartz optical fiber loaded into the packaging bag is conveyed to a heat-sealing conveying belt component 86 through a conveying belt component 81, a vacuum nozzle component 85 is used for vacuumizing the packaging bag, a heating component 84 is used for heating a heat-sealing pressing component 83, the heat-sealing pressing component 83 is pressed down through an air cylinder to perform heat-sealing operation on the packaging bag, and after the heat sealing is completed, the heat-sealing conveying belt component 86 is used for conveying the packaged quartz optical fiber to a packaging conveying component 9; and then the quartz optical fibers are conveyed to a stacking mechanism 10 through a packaging conveying assembly 9, and the stacking mechanism 10 stacks and stores the packaged quartz optical fibers.

The technical features mentioned above are combined with each other to form various embodiments which are not listed above, and all of them are regarded as the scope of the present invention described in the specification; also, modifications and variations may be suggested to those skilled in the art in light of the above teachings, and it is intended to cover all such modifications and variations as fall within the true spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. The utility model provides an automatic equipment for packing of domestic quartz fiber that registers one's residence, a serial communication port, including the material loading frame subassembly, the higher authority of material loading frame subassembly is provided with quartz fiber material loading subassembly, quartz fiber material loading subassembly is provided with wrapping bag feed bin subassembly in the back, wrapping bag feed bin subassembly with the higher authority of quartz fiber material loading subassembly is provided with the material loading and snatchs the subassembly of transplanting, the back of material loading frame subassembly is provided with pastes the mark heat-seal frame, the side of pasting the mark heat-seal frame is provided with labeller and constructs, the higher authority of pasting the mark heat-seal frame is fixed with quartz fiber bagging-off mechanism, quartz fiber bagging-off mechanism is provided with bagging-off heat-seal mechanism in the back, bagging-off heat-seal mechanism's back is provided with packing transport component, packing transport component's side is provided with the yard mechanism.

2. The household home-entry quartz optical fiber automatic packaging equipment as claimed in claim 1, wherein the feeding rack assembly comprises an optical fiber feeding rack, a first tray pushing device, a second tray pushing device, a third tray pushing device, a fourth tray pushing device and a correlation photoelectric device are arranged on the optical fiber feeding rack, the first tray pushing device is fixed on the front side of the feeding rack, the second tray pushing device is fixed on the rear left side of the feeding rack, the third tray pushing device is fixed on the rear side of the feeding rack, the fourth tray pushing device is fixed on the rear right side of the feeding rack, and the correlation photoelectric device is fixed on the right rear corner of the feeding rack.

3. The automatic packaging equipment for household home-entry silica fibers according to claim 2, wherein the silica fiber feeding assembly comprises a feeding rail, the feeding rail is fixed on the feeding rack, a plurality of feeding trays are arranged on the feeding rail, a bin ejecting device is arranged on the right side of the feeding rail, the bin ejecting device is fixed at the bottom of the fiber feeding rack, and the bin ejecting device penetrates through the feeding trays.

4. The automatic household home-entry quartz optical fiber packaging equipment as claimed in claim 3, wherein the bin ejecting device comprises an ejecting support, a stepping motor is fixed on the right side of the bottom of the ejecting support, a bearing with a seat is fixed on the bottom of the ejecting support, a ball screw assembly is arranged in the middle of the ejecting support, the ball screw assembly penetrates through the bearing with the seat, an ejecting guide shaft is connected to the upper surface of the ball screw, the ejecting guide shaft penetrates through the ejecting support, and an ejecting plate is fixed on the top of the ejecting guide shaft.

5. The automatic household quartz optical fiber packaging equipment as claimed in claim 1, wherein the feeding grabbing and transplanting assembly comprises a feeding and transplanting stand column, the feeding and transplanting stand column is fixed on the upper surface of the feeding frame assembly, a rodless cylinder bottom plate is fixed on the upper surface of the feeding and transplanting stand column, a transplanting rodless cylinder is fixed on the side surface of the rodless cylinder bottom plate, a sliding device is connected on the upper surface of the rodless cylinder bottom plate, a transplanting manipulator connecting plate is connected on the sliding device, a packaging bag grabbing manipulator is arranged on one side of the transplanting manipulator connecting plate, a quartz optical fiber grabbing manipulator is arranged on the other side of the transplanting manipulator connecting plate, and a grabbing clamping jaw assembly is connected on the lower surface of the quartz optical fiber grabbing manipulator.

6. The household home-entry quartz optical fiber automatic packaging equipment as claimed in claim 1, wherein the labeling mechanism comprises a labeling support, a labeling bottom plate is fixed on the labeling support, a labeling sliding assembly is fixed on the labeling bottom plate, a sliding servo motor is arranged on the side surface of the labeling sliding assembly, a labeling manipulator is connected on the labeling sliding assembly, a label sucking disc module is arranged on the lower surface of the labeling manipulator, a label printing device is arranged on the side surface of the labeling support, and a label blowing module is arranged on the inner side of the label printing device.

7. The automatic household quartz optical fiber packaging equipment as claimed in claim 1, wherein the quartz optical fiber bagging mechanism comprises a material blocking device, the material blocking device is fixed on the upper surface of the feeding rack assembly, a quartz optical fiber checking and scanning assembly is arranged behind the material blocking device, a quartz optical fiber pushing assembly is arranged behind the quartz optical fiber checking and scanning assembly, a certificate label is fixed on the upper surface of the quartz optical fiber pushing assembly and is placed into the assembly, a bag opening assembly is arranged on the side surface of the certificate label placing assembly, a packaging bag checking and scanning assembly is arranged behind the bag opening assembly and is fixed on the side surface of the certificate label placing assembly.

8. The automatic household home-entry quartz optical fiber packaging equipment as claimed in claim 1, wherein the bagging heat-sealing mechanism comprises a conveyor belt assembly, the conveyor belt assembly is fixed on the labeling heat-sealing machine frame, a heat-sealing base assembly is arranged behind the conveyor belt assembly, a heat-sealing pressing assembly is arranged on the heat-sealing base assembly, a heating assembly is arranged below the heat-sealing pressing assembly, the heating assembly is fixed on the heat-sealing base assembly, a vacuum nozzle assembly is arranged on the side surface of the heat-sealing base assembly, a heat-sealing conveyor belt assembly is fixed on the other side of the heat-sealing base assembly, and the heat-sealing conveyor belt assembly is fixed on the labeling heat-sealing machine frame.

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