CN218949700U - Full-automatic vacuum packaging equipment - Google Patents

Abstract

The utility model provides full-automatic vacuum packaging equipment which comprises a vacuum bag feeding platform, wherein a bag hooking mechanism is arranged on the upper side of the vacuum bag feeding platform, a bag taking and transferring mechanism is arranged at the side surface position of the bag hooking mechanism, a transferring platform assembly is arranged at the rear side position of the bag taking and transferring mechanism, a corresponding CCD (charge coupled device) is arranged on the upper side of the transferring platform assembly, a finished product transferring mechanism is arranged at the rear side of the vacuum bag feeding platform, and the finished product transferring mechanism corresponds to the transferring platform assembly in front-back mode. The full-automatic vacuum packaging equipment provided by the utility model fully utilizes the upper and lower layer space structures, saves the whole size space of the equipment, automatically completes the work of loading materials, clamping humidity, drying agents, automatically completing sealing, labeling and the like, realizes the process accuracy, improves the working efficiency, improves the accuracy of process requirement implementation, improves the production efficiency, has high vacuumizing heat sealing efficiency and strong reliability, and improves the safety of personnel.

Description

Full-automatic vacuum packaging equipment

Technical Field

The utility model relates to the technical field of vacuum packaging, in particular to full-automatic vacuum packaging equipment.

Background

The outer vacuum packing machine is to discharge the air inside the packing bag to the packed matter via the air sucking nozzles, withdraw the air sucking nozzles after reaching set vacuum degree, and complete the sealing.

In the electronics trade, can prevent oxidation, pollution, moist etc. of electronic product in production preservation or transportation, the use of protection electronic product that can be better, like a full-automatic vacuum packaging equipment of application publication No. CN212423738U, it includes the packagine machine body, the fixed frame of bottom fixedly connected with of packagine machine body, the side fixed mounting of fixed frame has the driving machine, all be connected with the pivot through the bearing rotation on the fixed frame near the left and right sides of its top inner wall, outside having realized can be simple quick outside pushing out the fixed frame to the gyro wheel, be convenient for remove the packagine machine body, and after removing suitable position, can fix the packagine machine body, it is convenient to use packagine machine body to provide.

However, in the existing vacuum packaging technology at present, most of the existing vacuum packaging technology is to take and load materials by manpower, manually place humidity cards and drying agents, manually vacuumize and seal, paste labels and the like, so that the packaging work efficiency is low, the accuracy of the technology is poor, the labor intensity of workers is increased, and meanwhile, the workers have the risk of scalding, so that the safety is low, and therefore, the full-automatic vacuum packaging equipment is necessary to solve the technical problems.

Disclosure of Invention

The utility model provides full-automatic vacuum packaging equipment, which solves the problems of low packaging work efficiency, poor process completion accuracy and increased labor intensity of staff in the existing vacuum packaging process.

In order to solve the technical problems, the utility model provides full-automatic vacuum packaging equipment, which comprises: a vacuum bag feeding platform;

the bag hooking mechanism is arranged on the upper side of the vacuum bag feeding platform, the bag taking and transferring mechanism is arranged on the side face of the bag hooking mechanism, the transferring platform assembly is arranged on the rear side of the bag taking and transferring mechanism, and the corresponding CCD (charge coupled device) detection is arranged on the upper side of the transferring platform assembly;

the automatic feeding device comprises a vacuum bag feeding platform, a finished product transferring mechanism, a reel receiving trolley, a vacuumizing heat sealing mechanism, a label printer, an electric cabinet, a robot taking mechanism, a humidity card feeding device, a drying agent feeding device, a pushing disc mechanism, a tray mechanism and a module lifting assembly, wherein the finished product transferring mechanism is arranged at the rear side of the vacuum bag feeding platform, the finished product transferring mechanism corresponds to the transferring platform assembly front and back, the reel receiving trolley is correspondingly arranged at the bottom of the finished product transferring mechanism, the vacuumizing heat sealing mechanism is arranged at the left side of the finished product transferring mechanism, the label printer is arranged at the outer side of the vacuumizing heat sealing mechanism, the electric cabinet is arranged at the rear side of the label printer, the robot taking mechanism is arranged at the side of the label printer, the bottom of the robot taking mechanism is correspondingly provided with the humidity card feeding device, the drying agent feeding device is arranged at the front side of the humidity card feeding device, the tray mechanism is arranged at the front side of the drying agent feeding device, the tray mechanism is provided with the tray mechanism, the upper side of the tray mechanism is provided with the module lifting assembly, and the reel feeding trolley is arranged at the left side of the vacuum bag feeding platform.

The whole system of the vacuum bag feeding platform integrates the storage and feeding of the packaging bags; feeding raw materials and receiving products; the upper and lower space structures are fully utilized in the processes of configuration of a drying agent, configuration of a humidity card, sticking of a label, vacuumizing and sealing of a packaging bag, detection of a CCD (charge coupled device) and the like, so that the whole size space of the equipment is saved; the process accuracy is improved, the working efficiency is improved, the accuracy of implementing the process requirements is improved, and the production efficiency is improved; the vacuumizing heat sealing efficiency is high, and the reliability is strong; and by arranging the grating and the protective cover, the safety of personnel is improved, and the equipment is only responsible for watching and adding the transfer work of the plastic package bag and the reel feeding and discharging trolley in the process of completing full-automatic vacuum packaging.

Preferably, the bag taking and transferring mechanism comprises a transferring module, the bottom of the transferring module is connected with a transferring platform, an X-axis motor is installed at the bottom of the transferring platform, an X-axis bidirectional screw mechanism is installed at the output end of the X-axis motor, bag pulling and clamping claw mechanisms are installed at two sides of the X-axis bidirectional screw mechanism, a Z-axis motor is installed at the bottom of the X-axis bidirectional screw mechanism, and a Z-axis screw mechanism corresponding to the X-axis bidirectional screw mechanism is installed at the output end of the Z-axis motor.

The bag taking and transferring mechanism realizes automatic logistics flow of products in three working sections of bagging, vacuumizing and sealing.

Preferably, the inner wall of the Z-axis screw rod mechanism is connected with a synchronous belt assembly, the side face of the Z-axis screw rod mechanism is connected with a sliding rail assembly, the inner wall of the X-axis bidirectional screw rod mechanism is provided with a plurality of bottom suction nozzle assemblies, and the upper surface of the transfer platform is provided with a vacuum bag through the bottom suction nozzle assemblies.

Preferably, the robot extracting mechanism comprises a robot, a rotary cylinder is arranged at the bottom of the robot, a reel clamping jaw cylinder is arranged at the output end of the rotary cylinder, a drying agent humidity card sucker is arranged at the bottom of the reel clamping jaw cylinder, a vacuum pressure gauge display device is arranged at the upper side of the rotary cylinder, a label suction cylinder is arranged at the bottom of the outer side of the vacuum pressure gauge display device, a label suction mechanism is arranged at the bottom output end of the label suction cylinder, and a CCD detection assembly is arranged on the side surface of the label suction mechanism.

The robot material taking mechanism replaces manual work to carry out configuration and placement of the humidity card and the drying agent, and label pasting and detection work is carried out.

Preferably, the transfer platform assembly comprises a bag taking mechanism substrate, a bag taking lifting module is arranged on the surface of the bag taking mechanism substrate, corresponding bag taking guide mechanisms are arranged on two sides of the bag taking lifting module, a plurality of vacuum bag suction nozzles are arranged at the bottom of the bag taking lifting module, and a code reader is arranged on the side face of each vacuum bag suction nozzle.

The transfer platform assembly realizes the carrying of the packaging bags from the storage bin to the loading mobile platform.

Preferably, a buffer component corresponding to the bottom surface of the bag taking mechanism substrate is installed at the bottom of the bag taking lifting module, a bag hooking up-down cylinder is installed on the side surface of the bottom of the bag taking lifting module, and a bag hooking horizontal cylinder is installed at the output end of the bag hooking up-down cylinder.

Preferably, the evacuation heat sealing mechanism includes the heat-seal assembly base plate, the heat-seal assembly fixing base is installed to the rear side of heat-seal assembly base plate, spacing cylinder is all installed to the bottom both sides of heat-seal assembly base plate, heating seat mechanism is installed to the front side of spacing cylinder, the heat-seal pushing cylinder is all installed at the front side both ends of heat-seal assembly base plate, heat-seal pushing mechanism is installed to the bottom of heat-seal pushing cylinder, lifting module is installed to the upside of heat-seal assembly base plate, the evacuation cylinder is installed to lifting module's bottom, evacuation module is installed to evacuation cylinder's output, spring buffer mechanism is installed to heat-seal pushing mechanism's bottom.

The vacuumizing and heat sealing mechanism completes vacuumizing and heat sealing processes.

Preferably, the upper side of reel receipts material dolly is installed the hold-in range subassembly, the side-mounting of hold-in range subassembly has the motor, the outside output of hold-in range subassembly is installed and is pushed away a set mechanism, the reel disc is installed in the outside of pushing away a set mechanism.

The synchronous belt assembly completes the bagging process.

Preferably, the drying agent feeding device comprises a drying agent storage chamber, a plurality of filtering air inlets are correspondingly arranged on the front side of the drying agent storage chamber, a drying agent feeding chamber is correspondingly arranged in the drying agent storage chamber, a drying agent sensing device is arranged on the upper surface of the drying agent feeding chamber, a drying agent jacking motor is arranged at the bottom of the drying agent feeding chamber, a transfer feeding cylinder is arranged on the side face of the drying agent feeding chamber, a temperature and humidity display meter is arranged on the side face of the drying agent storage chamber, a rotary cylinder is arranged on the upper side of the drying agent storage chamber, and a turnover sealing mechanism is arranged on the upper side of the drying agent storage chamber through an output end of the rotary cylinder.

The drying agent feeding device is used for completing the configuration work of the drying agent.

Compared with the related art, the full-automatic vacuum packaging equipment provided by the utility model has the following components in part by weight

The beneficial effects are that:

the utility model provides full-automatic vacuum packaging equipment, which fully utilizes an upper layer space structure and a lower layer space structure, saves the whole size space of the equipment, automatically completes the work of loading materials, clamping humidity, drying agents, automatically completing sealing, labeling and the like, realizes the process accuracy, improves the working efficiency, improves the accuracy of process requirement implementation, improves the production efficiency, has high vacuumizing heat sealing efficiency and strong reliability, and improves the safety of personnel.

Drawings

Fig. 1 is a schematic structural view of a first embodiment of a fully automatic vacuum packaging apparatus according to the present utility model;

fig. 2 is a schematic structural view of a bag taking and transferring mechanism of a full-automatic vacuum packaging device;

fig. 3 is a schematic structural view of a robotic reclaimer mechanism of a fully automatic vacuum packaging device provided by the utility model;

fig. 4 is a schematic structural diagram of a transfer platform assembly of a full-automatic vacuum packaging device according to the present utility model;

fig. 5 is a schematic structural view of a vacuumizing heat sealing mechanism of a full-automatic vacuum packaging device;

FIG. 6 is a schematic structural view of a reel material receiving trolley of the full-automatic vacuum packaging equipment;

fig. 7 is a schematic structural diagram of a desiccant feeding device of a full-automatic vacuum packaging apparatus according to the present utility model;

fig. 8 is a schematic structural view of a second embodiment of a fully automatic vacuum packaging apparatus provided by the present utility model;

fig. 9 is a schematic structural view of a third embodiment of a fully automatic vacuum packaging apparatus according to the present utility model.

Reference numerals in the drawings: 1. 2 parts of vacuum bag feeding platform, 2 parts of bag hooking mechanism, 3 parts of bag taking and transferring mechanism, 4 parts of transferring platform assembly, 5 parts of CCD detection, 6 parts of finished product transferring mechanism, 7 parts of reel receiving trolley, 8 parts of vacuumizing and heat sealing mechanism, 9 parts of electric cabinet, 10 parts of label printer, 11 parts of robot material taking mechanism, 12 parts of humidity card feeding device, 13 parts of drying agent feeding device, 14 parts of pushing disc mechanism, 15 parts of tray mechanism, 16 parts of reel feeding trolley, 17 parts of module lifting assembly, 18 parts of transferring module, 19 parts of transferring platform, 20 parts of bag pulling and clamping claw mechanism, 21 parts of X-axis bidirectional screw rod mechanism, 22 parts of Z-axis screw rod mechanism, 23 parts of Z-axis motor, 24 parts of synchronous belt assembly, 25 parts of slide rail assembly, 26 parts of X-axis motor, 27 parts of bottom suction nozzle assembly, 28 parts of vacuum bag, 29 parts of robot, 30 parts of rotary cylinder, 31 parts of reel clamping claw mechanism, 32 parts of drying agent humidity card sucker, 33, CCD detection components, 34, suction mark mechanisms, 35, suction mark cylinders, 36, vacuum pressure gauge display devices, 37, transfer cylinders, 38, vacuum bag suction nozzles, 39, code readers, 40, bag hooking horizontal cylinders, 41, bag hooking up-down cylinders, 42, buffer components, 43, bag taking guide mechanisms, 44, bag taking lifting modules, 45, bag taking mechanism substrates, 46, heat seal pressing cylinders, 47, lifting modules, 48, heat seal pressing mechanisms, 49, limit cylinders, 50, vacuum suction nozzles, 51, vacuum suction modules, 52, vacuum suction cylinders, 53, heating seat mechanisms, 54, spring buffer mechanisms, 55, heat seal component fixing seats, 56, heat seal component substrates, 57, synchronous belt components, 58, heel discs, 59, pushing disc mechanisms, 60, motors, 61, drying agent storage chambers, 62, filter air inlets, 63, drying agent feeding chambers, 64. the drying agent jacking motor, 65, a transfer loading air cylinder, 66, a temperature and humidity display meter, 67, a rotary air cylinder, 68, a drying agent sensing device, 69, a turnover sealing mechanism, 70, a reel loading module, 71, a reel guide shaft, 72, a loading trolley, 73, a reel disc, 74, an inductor, 75, a trolley guide assembly, 76, an in-place inductor, 77, a positioning air cylinder, 78, a lifting fork arm, 79, a finished product transfer X-axis module, 80, a finished product transfer Z-axis module, 81, a vacuum pressure detection device, 82, a sucker assembly, 83, a pressure plate air cylinder, 84 and a suction nozzle fixing disc.

Detailed Description

The utility model will be further described with reference to the drawings and embodiments.

First embodiment

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, and fig. 7 in combination, fig. 1 is a schematic structural diagram of a first embodiment of a fully automatic vacuum packaging apparatus according to the present utility model; fig. 2 is a schematic structural view of a bag taking and transferring mechanism of a full-automatic vacuum packaging device; fig. 3 is a schematic structural view of a robotic reclaimer mechanism of a fully automatic vacuum packaging device provided by the utility model; fig. 4 is a schematic structural diagram of a transfer platform assembly of a full-automatic vacuum packaging device according to the present utility model; fig. 5 is a schematic structural view of a vacuumizing heat sealing mechanism of a full-automatic vacuum packaging device; FIG. 6 is a schematic structural view of a reel material receiving trolley of the full-automatic vacuum packaging equipment; fig. 7 is a schematic structural diagram of a desiccant feeding device of a full-automatic vacuum packaging device. A fully automatic vacuum packaging apparatus comprising: a vacuum bag feeding platform 1;

the bag hooking mechanism 2 is arranged on the upper side of the vacuum bag feeding platform 1, the bag taking and transferring mechanism 3 is arranged on the side surface of the bag hooking mechanism 2, the transferring platform assembly 4 is arranged on the rear side of the bag taking and transferring mechanism 3, and the corresponding CCD (charge coupled device) detection 5 is arranged on the upper side of the transferring platform assembly 4;

wherein, finished product transfer mechanism 6 is installed to the rear side of vacuum bag loading platform 1, finished product transfer mechanism 6 corresponds with the front and back of carrying platform subassembly 4, the bottom of finished product transfer mechanism 6 corresponds and installs reel receipts material dolly 7, evacuation heat-seal mechanism 8 is installed in the left side of finished product transfer mechanism 6, label printer 10 is installed in the outside of evacuation heat-seal mechanism 8, automatically controlled cabinet 9 is installed to the rear side of label printer 10, robot feeding mechanism 11 is installed to the side of label printer 10, humidity card loading attachment 12 is installed to the bottom of robot feeding mechanism 11 corresponds, drier loading attachment 13 is installed to the front side of humidity card loading attachment 12, pushing disc mechanism 14 is installed to the front side of drier loading attachment 13, tray mechanism 15 is installed to the front side of pushing disc mechanism 14, module lifting means 17 is installed to the upside of tray mechanism 15, reel loading dolly 16 is installed in the left side of vacuum bag loading platform 1.

The whole system of the vacuum bag feeding platform 1 integrates the storage and feeding of the packaging bags; feeding raw materials and receiving products; the upper and lower space structures are fully utilized in the processes of configuration of a drying agent, configuration of a humidity card, sticking of a label, vacuumizing and sealing of a packaging bag, detection of a CCD (charge coupled device) and the like, so that the whole size space of the equipment is saved; the process accuracy is improved, the working efficiency is improved, the accuracy of implementing the process requirements is improved, and the production efficiency is improved; the vacuumizing heat sealing efficiency is high, and the reliability is strong; and by arranging the grating and the protective cover, the safety of personnel is improved, and the equipment is only responsible for watching and adding the transfer work of the plastic package bag and the reel feeding and discharging trolley in the process of completing full-automatic vacuum packaging.

The bag taking and transferring mechanism 3 comprises a transferring module 18, wherein the bottom of the transferring module 18 is connected with a transferring platform 19, an X-axis motor 26 is arranged at the bottom of the transferring platform 19, an X-axis bidirectional screw mechanism 21 is arranged at the output end of the X-axis motor 26, bag pulling and clamping claw mechanisms 20 are arranged at two sides of the X-axis bidirectional screw mechanism 21, a Z-axis motor 23 is arranged at the bottom of the X-axis bidirectional screw mechanism 21, and a Z-axis screw mechanism 22 corresponding to the X-axis bidirectional screw mechanism 21 is arranged at the output end of the Z-axis motor 23.

The bag taking and transferring mechanism 3 realizes automatic logistics flow of products in three working sections of bagging, vacuumizing and sealing.

The inner wall of the Z-axis screw rod mechanism 22 is connected with a synchronous belt assembly 24, the side surface of the Z-axis screw rod mechanism 22 is connected with a sliding rail assembly 25, the inner wall of the X-axis bidirectional screw rod mechanism 21 is provided with a plurality of bottom suction nozzle assemblies 27, and the upper surface of the transfer platform 19 is provided with a vacuum bag 28 through the bottom suction nozzle assemblies 27.

The robot feeding mechanism 11 comprises a robot 29, a rotary cylinder 30 is arranged at the bottom of the robot 29, a reel clamping jaw cylinder 31 is arranged at the output end of the rotary cylinder 30, a desiccant humidity card sucker 32 is arranged at the bottom of the reel clamping jaw cylinder 31, a vacuum pressure gauge display device 36 is arranged at the upper side of the rotary cylinder 30, a label suction cylinder 35 is arranged at the outer bottom of the vacuum pressure gauge display device 36, a label suction mechanism 34 is arranged at the bottom output end of the label suction cylinder 35, and a CCD detection component 33 is arranged on the side surface of the label suction mechanism 34.

The robot material taking mechanism 11 replaces manual work to carry out the configuration and placement of the humidity card and the drying agent, and the label pasting and detecting work.

The transfer platform assembly 4 comprises a bag taking mechanism substrate 45, a bag taking lifting module 44 is arranged on the surface of the bag taking mechanism substrate 45, corresponding bag taking guide mechanisms 43 are arranged on two sides of the bag taking lifting module 44, a plurality of vacuum bag suction nozzles 38 are arranged at the bottom of the bag taking lifting module 44, and a code reader 39 is arranged on the side face of each vacuum bag suction nozzle 38.

The transfer platform assembly 4 enables the transport of packages from a bin to a loading mobile platform.

The bottom of the bag taking lifting module 44 is provided with a buffer assembly 42 corresponding to the bottom surface of the bag taking mechanism substrate 45, the bottom side surface of the bag taking lifting module 44 is provided with a bag hooking up-down cylinder 41, and the output end of the bag hooking up-down cylinder 41 is provided with a bag hooking horizontal cylinder 40.

The vacuumizing heat sealing mechanism 8 comprises a heat sealing assembly substrate 56, a heat sealing assembly fixing seat 55 is arranged on the rear side of the heat sealing assembly substrate 56, limiting air cylinders 49 are arranged on two sides of the bottom of the heat sealing assembly substrate 56, a heating seat mechanism 53 is arranged on the front side of each limiting air cylinder 49, heat sealing pressing air cylinders 46 are arranged on two ends of the front side of the heat sealing assembly substrate 56, a heat sealing pressing mechanism 48 is arranged on the bottom of each heat sealing pressing air cylinder 46, a lifting module 47 is arranged on the upper side of the heat sealing assembly substrate 56, a vacuumizing air cylinder 52 is arranged on the bottom of the lifting module 47, a vacuumizing module 51 is arranged at the output end of each vacuumizing air cylinder 52, and a spring buffer mechanism 54 is arranged on the bottom of each heat sealing pressing mechanism 48.

The vacuuming and heat sealing mechanism 8 completes vacuuming and heat sealing process.

The upper side of reel receipts material dolly 7 is installed hold-in range subassembly 57, and motor 60 is installed to the side of hold-in range subassembly 57, and pushing away a set mechanism 59 is installed to the outside output of hold-in range subassembly 57, and reel disc 58 is installed in pushing away the outside of set mechanism 59.

The timing belt assembly 57 completes the bagging process.

The drying agent feeding device 13 comprises a drying agent storage chamber 61, a plurality of filtering air inlets 62 are correspondingly arranged on the front side of the drying agent storage chamber 61, a corresponding drying agent feeding chamber 63 is arranged in the drying agent storage chamber 61, a drying agent sensing device 68 is arranged on the upper surface of the drying agent feeding chamber 63, a drying agent jacking motor 64 is arranged at the bottom of the drying agent feeding chamber 63, a transfer feeding cylinder 65 is arranged on the side face of the drying agent feeding chamber 63, a temperature and humidity display meter 66 is arranged on the side face of the drying agent storage chamber 61, a rotary cylinder 67 is arranged on the upper side of the drying agent storage chamber 61, and a turnover sealing mechanism 69 is arranged on the upper side of the drying agent storage chamber 61 through the output end of the rotary cylinder 67.

The desiccant feeding device 13 is used for completing the configuration work of the desiccant.

The working principle of the full-automatic vacuum packaging equipment provided by the utility model is as follows: when the vacuum bag packaging machine is used, a person places a product plastic package bag into a vacuum bag feeding platform 1, the product is placed into a reel feeding trolley 16, a start button is clicked, the equipment can convey the plastic package bag to a transferring platform 19 through a transferring platform component 4 and a bag feeding structure of a bag taking and transferring mechanism 3 to wait for bagging, a module lifting component 17 can lift the product to be packaged to a position to be packaged, wait for configuring a humidity card box drying agent, a label and the like, a humidity card is completed through a humidity card feeding device 12 and a drying agent feeding device 13, a drying agent provided by a drying agent supply system is placed on the product to be packaged and then the label is pasted, the bagging of the product is completed through a bagging system of a reel receiving trolley 7, the loading moving platform of the bag taking and transferring mechanism 3 can carry the plastic package bag of the packaged product to a vacuumizing and heat sealing mechanism 8 for processing after the bagging is completed, vacuumizing and heat sealing are completed through a vacuumizing machine, and sealing is completed through a heat sealing system after the above actions are completed, the packaged product is conveyed to the reel receiving trolley 7, and a vacuum whole sealing process of the product is completed.

Compared with the related art, the full-automatic vacuum packaging equipment provided by the utility model has the following components in part by weight

The beneficial effects are that:

the upper and lower layers of space structures are fully utilized, the whole size space of the equipment is saved, the equipment automatically completes the work of loading materials, humidity cards, drying agents, automatically completing sealing, labeling and the like, the process accuracy is improved, the process requirement implementation accuracy is improved, the production efficiency is improved, the vacuumizing heat sealing efficiency is high, the reliability is high, and the safety of personnel is improved.

Second embodiment

Referring to fig. 8, fig. 8 is a schematic structural diagram of a second embodiment of a fully automatic vacuum packaging apparatus according to the present utility model. Based on the full-automatic vacuum packaging equipment provided by the first embodiment of the application, the second embodiment of the application provides another full-automatic vacuum packaging equipment. The second embodiment is merely a preferred manner of the first embodiment, and implementation of the second embodiment does not affect the implementation of the first embodiment alone.

Specifically, the second embodiment of the present application provides a full-automatic vacuum packaging apparatus, which is different from the first embodiment in that the reel feeding cart 16 includes a feeding cart 72.

A heel guide shaft 71 is installed on the upper side of the feeding trolley 72, a plurality of heel disks 73 are installed on the surface of the heel guide shaft 71, and corresponding sensors 74 are installed on the bottom of the heel guide shaft 71.

The trolley guiding components 75 are installed on two sides of the bottom of the feeding trolley 72, the corresponding in-place sensor 76 is installed on the outer side of the feeding trolley 72, the positioning cylinder 77 is installed on the upper portion of the in-place sensor 76, the lifting fork arms 78 are installed on the upper side of the positioning cylinder 77, and the reel feeding module 70 is installed on the upper side of the lifting fork arms 78.

Working principle: when the feeding trolley is used, the heel guide shaft 71 and the positioning cylinder 77 arranged on the feeding trolley 72 drive the lifting fork arms 78 to control the heel feeding module 70 to feed materials, so that the automatic feeding of materials is realized.

The beneficial effects are that: the heel guide shaft 71 and the positioning cylinder 77 arranged on the feeding trolley 72 drive the lifting fork arm 78 to control the heel feeding module 70 to feed, so that the automatic feeding of materials is realized.

Third embodiment

Referring to fig. 9, fig. 9 is a schematic structural diagram of a third embodiment of a fully automatic vacuum packaging apparatus according to the present utility model. Based on the first embodiment and the second embodiment of the present application, a third embodiment of the present application proposes another fully automatic vacuum packaging device. The third embodiment is merely a preferable mode of the first embodiment and the second embodiment, and implementation of the third embodiment does not affect separate implementation of the first embodiment and the second embodiment.

Specifically, the third embodiment of the present application provides a full-automatic vacuum packaging apparatus, which is different in that a finished product transferring X-axis module 79 is mounted on the upper side of the synchronous belt assembly 57.

The bottom of the finished product transferring X-axis module 79 is provided with a finished product transferring Z-axis module 80, and the bottom of the finished product transferring Z-axis module 80 is provided with a vacuum pressure detection device 81.

The upper surface of the vacuum pressure detection device 81 is provided with a suction nozzle fixing disc 84, the bottom of the suction nozzle fixing disc 84 is provided with a pressure plate cylinder 83, and the bottom of the pressure plate cylinder 83 is provided with a suction disc assembly 82.

Working principle: when the vacuum sealing device is used, the sucking disc assembly 82 is driven to work through the finished product transferring X-axis module 79 and the pressure disc cylinder 83, the packaged product conveying work is completed, the packaged product can be conveyed to the rel receiving trolley 7, and the whole vacuumizing sealing process of one product is completed.

The beneficial effects are that: the suction disc assembly 82 is driven to work through the finished product transferring X-axis module 79 and the pressure disc cylinder 83, packaged product conveying work is completed, packaged products can be conveyed to the reel receiving trolley 7, and the whole vacuumizing and sealing process of one product is completed.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (9)

1. A fully automatic vacuum packaging apparatus, comprising: a vacuum bag feeding platform;

the bag hooking mechanism is arranged on the upper side of the vacuum bag feeding platform, the bag taking and transferring mechanism is arranged on the side face of the bag hooking mechanism, the transferring platform assembly is arranged on the rear side of the bag taking and transferring mechanism, and the corresponding CCD (charge coupled device) detection is arranged on the upper side of the transferring platform assembly;

the automatic feeding device comprises a vacuum bag feeding platform, a finished product transferring mechanism, a reel receiving trolley, a vacuumizing heat sealing mechanism, a label printer, an electric cabinet, a robot taking mechanism, a humidity card feeding device, a drying agent feeding device, a pushing disc mechanism, a tray mechanism and a module lifting assembly, wherein the finished product transferring mechanism is arranged at the rear side of the vacuum bag feeding platform, the finished product transferring mechanism corresponds to the transferring platform assembly front and back, the reel receiving trolley is correspondingly arranged at the bottom of the finished product transferring mechanism, the vacuumizing heat sealing mechanism is arranged at the left side of the finished product transferring mechanism, the label printer is arranged at the outer side of the vacuumizing heat sealing mechanism, the electric cabinet is arranged at the rear side of the label printer, the robot taking mechanism is arranged at the side of the label printer, the bottom of the robot taking mechanism is correspondingly provided with the humidity card feeding device, the drying agent feeding device is arranged at the front side of the humidity card feeding device, the tray mechanism is arranged at the front side of the drying agent feeding device, the tray mechanism is provided with the tray mechanism, the upper side of the tray mechanism is provided with the module lifting assembly, and the reel feeding trolley is arranged at the left side of the vacuum bag feeding platform.

2. The full-automatic vacuum packaging equipment according to claim 1, wherein the bag taking and transferring mechanism comprises a transferring module, the bottom of the transferring module is connected with a transferring platform, an X-axis motor is installed at the bottom of the transferring platform, an X-axis bidirectional screw mechanism is installed at the output end of the X-axis motor, bag pulling and clamping claw mechanisms are installed at two sides of the X-axis bidirectional screw mechanism, a Z-axis motor is installed at the bottom of the X-axis bidirectional screw mechanism, and a Z-axis screw mechanism corresponding to the X-axis bidirectional screw mechanism is installed at the output end of the Z-axis motor.

3. The full-automatic vacuum packaging device according to claim 2, wherein the inner wall of the Z-axis screw mechanism is connected with a synchronous belt assembly, the side surface of the Z-axis screw mechanism is connected with a slide rail assembly, the inner wall of the X-axis bidirectional screw mechanism is provided with a plurality of bottom suction nozzle assemblies, and the upper surface of the transfer platform is provided with a vacuum bag through the bottom suction nozzle assemblies.

4. The full-automatic vacuum packaging device of claim 1, wherein the robot material taking mechanism comprises a robot, a rotary cylinder is installed at the bottom of the robot, a reel clamping jaw cylinder is installed at the output end of the rotary cylinder, a desiccant humidity card sucker is installed at the bottom of the reel clamping jaw cylinder, a vacuum pressure gauge display device is installed at the upper side of the rotary cylinder, a label suction cylinder is installed at the outer bottom of the vacuum pressure gauge display device, a label suction mechanism is installed at the bottom output end of the label suction cylinder, and a CCD detection assembly is installed on the side face of the label suction mechanism.

5. The full-automatic vacuum packaging device according to claim 1, wherein the transfer platform assembly comprises a bag taking mechanism substrate, a bag taking lifting module is arranged on the surface of the bag taking mechanism substrate, corresponding bag taking guide mechanisms are arranged on two sides of the bag taking lifting module, a plurality of vacuum bag suction nozzles are arranged at the bottom of the bag taking lifting module, and a code reader is arranged on the side face of each vacuum bag suction nozzle.

6. The full-automatic vacuum packaging device according to claim 5, wherein a buffer assembly corresponding to the bottom surface of the bag taking mechanism substrate is installed at the bottom of the bag taking lifting module, a bag hooking up-down cylinder is installed at the bottom side surface of the bag taking lifting module, and a bag hooking horizontal cylinder is installed at the output end of the bag hooking up-down cylinder.

7. The full-automatic vacuum packaging device of claim 1, wherein the vacuumizing heat sealing mechanism comprises a heat sealing assembly substrate, a heat sealing assembly fixing seat is arranged on the rear side of the heat sealing assembly substrate, limiting cylinders are arranged on two sides of the bottom of the heat sealing assembly substrate, heating seat mechanisms are arranged on the front sides of the limiting cylinders, heat sealing pressing cylinders are arranged on two ends of the front sides of the heat sealing assembly substrate, heat sealing pressing mechanisms are arranged on the bottoms of the heat sealing pressing cylinders, lifting modules are arranged on the upper sides of the heat sealing assembly substrate, vacuumizing cylinders are arranged on the bottoms of the lifting modules, vacuumizing modules are arranged at the output ends of the vacuumizing cylinders, and spring buffering mechanisms are arranged on the bottoms of the heat sealing pressing mechanisms.

8. The full-automatic vacuum packaging device of claim 1, wherein a synchronous belt assembly is installed on the upper side of the reel receiving trolley, a motor is installed on the side face of the synchronous belt assembly, a pushing disc mechanism is installed at the outer output end of the synchronous belt assembly, and a reel disc is installed on the outer side of the pushing disc mechanism.

9. The full-automatic vacuum packaging device as claimed in claim 1, wherein the desiccant loading means comprises a desiccant storage chamber, a plurality of filtered air inlets are correspondingly installed at the front side of the desiccant storage chamber, a corresponding desiccant loading chamber is installed inside the desiccant storage chamber, a desiccant sensing device is installed on the upper surface of the desiccant loading chamber, a desiccant jacking motor is installed at the bottom of the desiccant loading chamber, a transfer loading cylinder is installed on the side surface of the desiccant loading chamber, a temperature and humidity display meter is installed on the side surface of the desiccant storage chamber, a rotary cylinder is installed on the upper side of the desiccant storage chamber, and a turnover sealing mechanism is installed on the upper side of the desiccant storage chamber through the output end of the rotary cylinder.

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