CN217452936U - Full-automatic edge-covering incision and two-dimensional code association and dust removal integrated machine - Google Patents

Abstract

The utility model discloses a full-automatic edge-covering notch and two-dimension code association and dust removal integrated machine, which comprises an inner stopper arranging machine, an assembly arranging machine, an aluminum cylinder conveyor, a press-fitting closing machine, an aluminum cylinder edge-covering notch forming machine and an automatic dust remover; the inner plug arranging machine is used for conveying inner plugs to the press fitting correlation machine, the assembly arranging machine is used for conveying assemblies to the press fitting correlation machine, and the aluminum barrel conveyor is used for conveying aluminum barrels to the press fitting correlation machine; the dust remover is used for removing dust of the second component after the notch and the edge cover are formed. The utility model discloses the equipment of stopper and subassembly, aluminium section of thick bamboo and part one in the collection, the relevance of interior sign indicating number and outer sign indicating number, the incision of bottle lid are bordured, the multiple functions of bottle lid dust removal are as an organic whole, and the production and processing overall process need not artifical the participation and transports, and the production process is continuous, has improved bottle lid production efficiency.

Description

Full-automatic edge covering incision and two-dimensional code association and dust removal integrated machine

Technical Field

The utility model relates to a bottle lid production facility technical field, in particular to full-automatic incision and two-dimensional code of borduring are related, dust removal all-in-one.

Background

Under the promotion and influence of the internet technology and the continuous improvement of a product tracing system, two-dimensional codes are added into various anti-counterfeiting bottle caps at present, wherein the two-dimensional codes outside the bottle caps are called as outer codes and are used for logistics management and control; the two-dimensional code inside the bottle cap is called an inner code and is used for interacting with a consumer who opens the bottle cap.

After the bottle lid pressure equipment was gone up the bottle, the code is unable to be observed, and the producer can be correlated with interior code and outer code for the management and control that interior code can be accurate.

The bottle cap is produced by sequentially carrying out the processes of two-dimension code association, assembly, incision, edge covering, dust removal and the like, the processes are carried out on different production equipment step by step during production, and the bottle cap is manually transported to next equipment to carry out the next process after the previous process is finished. If the two-dimension code is correlated and assembled, after the inner code on the component and the outer code on the aluminum cylinder are respectively identified and correlated on the two-dimension code correlation equipment, the qualified products are sent into the assembling machine, the assembling machine firstly assembles the inner plug and the component (the inner plug is arranged in the component), and finally the aluminum cylinder is assembled outside the component.

The production mode has the problems of discontinuous production process and low production efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art not enough, provide a full-automatic incision and two-dimensional code of borduring are correlated, dust removal all-in-one, the equipment of stopper and subassembly in the collection, an aluminium section of thick bamboo and the equipment of part one, the interior sign indicating number is bordured with the correlation of outer sign indicating number, the incision of bottle lid, the bottle lid removes dust multiple functions as an organic whole, and the production and processing overall process need not artifical the participation and transports, and the production process is continuous, has improved bottle lid production efficiency.

The purpose of the utility model is realized through the following technical scheme:

a full-automatic edge covering notch and two-dimension code association and dust removal integrated machine comprises an inner plug arranging machine, an assembly arranging machine, an aluminum cylinder conveyor, a press-fitting closing machine, an aluminum cylinder edge covering notch forming machine and an automatic dust remover;

the inner plug arranging machine is used for conveying inner plugs to the press fitting correlation machine, the assembly arranging machine is used for conveying assemblies to the press fitting correlation machine, and the aluminum barrel conveyor is used for conveying aluminum barrels to the press fitting correlation machine;

the press-fitting connection machine is used for pressing the inner plug into the assembly to form a first part, identifying an inner code of the first part, assembling the aluminum cylinder on the first part to form a second part, identifying an outer code of the second part and then associating the inner code with the outer code;

the aluminum cylinder edge-covering notch forming machine is used for cutting and edge-covering the aluminum cylinder of the second component;

the dust remover is used for removing dust of the cut and wrapped part II;

and the press-fitting correlation machine conveys the second part to an aluminum cylinder edge-covering notch forming machine through a first feeding component, and the aluminum cylinder edge-covering notch forming machine conveys the second part subjected to notch and edge covering to a dust remover through a second feeding component. The utility model discloses the equipment of stopper and subassembly, aluminium section of thick bamboo and part one in the collection, the relevance of interior sign indicating number and outer sign indicating number, the incision of bottle lid is bordured, the multiple functions of bottle lid dust removal are as an organic whole, and the production and processing overall process need not artifical the participation and transports, and the production process is continuous, has improved bottle lid production efficiency

Further, the press-fitting correlation machine comprises a workbench, a first press-fitting mechanism for press-fitting the inner plug and the assembly, a second press-fitting mechanism for press-fitting the aluminum cylinder and the first component, an inner code recognition machine for recognizing an inner code on the assembly, an outer code recognition machine for recognizing an outer code on the aluminum cylinder, and a first material disc rotatably arranged on the workbench, wherein a plurality of assembling tools for fixing the inner plug and the assembly are uniformly distributed on the first material disc along the circumferential direction;

interior stopper reason material machine, subassembly reason material machine, first pressure equipment mechanism, interior sign indicating number recognizer, aluminium section of thick bamboo conveyer second pressure equipment mechanism, outer sign indicating number recognizer set up along the circumference of first charging tray in proper order, and interior stopper reason material machine, subassembly reason material machine, first pressure equipment mechanism, interior sign indicating number recognizer, aluminium section of thick bamboo conveyer, second pressure equipment mechanism, outer sign indicating number recognizer correspond with at least one equipment frock on the first charging tray respectively in proper order.

Further, the first feeding component comprises a negative pressure suction barrel, a driving piece for driving the negative pressure suction barrel to reciprocate along the vertical direction, a first conveying belt and a material pouring disc;

the negative pressure suction tube is arranged above the first material disc through the driving piece and corresponds to the assembling tool up and down, and the negative pressure suction tube is arranged behind the external code recognition machine;

the first conveying belt is arranged between the press fitting closing machine and the aluminum cylinder edge-covering notch forming machine, the material pouring plate is arranged between the conveying belt discharging end and the aluminum cylinder edge-covering notch forming machine, a semicircular first guide grooves are uniformly formed in the circumference of the material pouring plate, a coaxial material guiding rail is arranged outside the material pouring plate, and one end of the material guiding rail extends to the aluminum cylinder edge-covering notch forming machine.

Further, the aluminum cylinder edge-covering notch forming machine comprises a frame, a gear ring, a rotating ring disc, a notch tool, a central rotating column and a plurality of rotating driving components;

the height of the gear ring is gradually increased from one side of the rack to the other side of the rack, and the gear ring is fixed at the top of the rack;

the top of the central rotating column is rotationally connected with the top of the rack, the bottom of the central rotating column is connected with an output shaft of the motor, and a guide fixing disc coaxial with the central rotating column is fixed outside the central rotating column;

the plurality of rotary driving assemblies are connected with the guide fixing disc in a sliding manner; the rotary driving assembly comprises a rotary pressing shaft, a first connecting rod, a pressing head and a return spring, the rotary pressing shaft and the first connecting rod are respectively connected with the guide fixing disc in a sliding mode, the top of the first connecting rod abuts against the bottom surface of the gear ring, the first connecting rod is connected with the rotary pressing shaft through a connecting plate, the pressing head is arranged at the bottom of the rotary pressing shaft, teeth matched with the gear ring are arranged at the top of the rotary pressing shaft, the return spring is sleeved outside the first connecting rod, and the return spring is arranged between the guide fixing disc and the connecting plate;

the rotary ring disc is coaxially arranged outside the central rotary column, the rotary ring disc is positioned below the guide fixed disc, a plurality of notch tools are arranged, and the notch tools are respectively coaxially arranged with the compression heads of the rotary driving assemblies;

the outer edge of the rotating ring disc is evenly provided with b semicircular second guide grooves, b notch tools are evenly arranged on the rotating base, the notch tools and the second guide grooves are coaxially and correspondingly arranged, and the notch tools are connected with the rotating base through connecting pieces which drive the notch tools to reciprocate vertically.

Further, the connecting piece includes slide rail, slider, second connecting rod and ring rail, the vertical setting of slide rail is in the side of rotating the base, the incision frock pass through the slider with slide rail sliding connection, the ring rail sets up the rotating base below, the second connecting rod sets up in the slider bottom, second connecting rod bottom sets up on the ring rail, the ring rail is by the feed end of rotating the ring dish square height increase gradually to the discharge end.

Further, the second feeding component comprises a blanking plate and a second conveying belt, the blanking plate is arranged at the discharging end of the rotating ring disc, a blanking groove is formed in the blanking plate, and the width of the blanking groove is larger than the diameter of the notch tool and smaller than the diameter of the bottle cap; a guide frame is arranged between the feeding end and the discharging end of the rotating ring disc;

the second conveying belt is arranged above the blanking plate.

Furthermore, the second conveying belt and the discharge end of the rotating ring disc are provided with arc-shaped transition rails.

Furthermore, the top of the first connecting rod is rotatably connected with a rolling column, and the rolling column is tightly propped against the bottom surface of the gear ring.

Further, the bottom of the second connecting rod is provided with a roller.

Further, a rubber layer is arranged inside the pressing head.

The utility model has the advantages that:

1) the utility model discloses the equipment of stopper and subassembly, aluminium section of thick bamboo and part one in the collection, the relevance of interior sign indicating number and outer sign indicating number, the incision of bottle lid are bordured, the multiple functions of bottle lid dust removal are as an organic whole, and the production and processing overall process need not artifical the participation and transports, and the production process is continuous, has improved bottle lid production efficiency.

2) The utility model discloses a cooperation of ring gear and tooth forms the planet wheel structure, makes the collet autogyration in 7 drive swivel ring dishes pivoted of central rotation axis to drive the bottle lid and rotate and accomplish the incision, bordure, the operation of the incision make-up machine that bordures of an aluminium section of thick bamboo only needs a motor drive can realize that the collet is at vertical reciprocating motion, collet autogyration, the rotation of swivel ring dish and incision frock at vertical reciprocating motion, and transmission efficiency is high. And the feeding and discharging of the aluminum cylinder edge-covering notch forming machine are all automatically carried out, manual intervention is not needed, and the working efficiency is improved.

Drawings

Fig. 1 is a schematic view of the overall structure of the full-automatic edge covering incision and two-dimensional code association and dust removal integrated machine in the embodiment of the utility model;

FIG. 2 is a schematic diagram of a press-fit coupling line;

FIG. 3 is a top view of the press fit coupling line;

FIG. 4 is a schematic view of a first principle of inner plug feeding;

FIG. 5 is a schematic diagram of a feeding principle of an inner plug;

FIG. 6 is a cross-sectional view of an aluminum barrel hemming notch forming machine;

FIG. 7 is a top view of the material pouring tray and the rotating ring tray;

FIG. 8 is a schematic structural diagram of a blanking plate;

FIG. 9 is a cross-sectional view of the blanking plate in use;

in the figure, 1, an inner plugging and sorting machine; 2. a component arranging machine; 3. an aluminum barrel conveyor; 4. a press fitting connection machine; 5. an aluminum cylinder edge-covering and notch-cutting forming machine; 6. an automatic dust remover; 7. a work table; 8. a first press-fitting mechanism; 9. a second press-fitting mechanism; 10. an internal code recognizer; 11. an outer code recognizer; 12. a first tray; 13. assembling a tool; 14. a negative pressure suction tube; 15. a drive member; 16. a first conveyor belt; 17. pouring a material tray; 18. a first guide groove; 19. a material guiding rail; 20. a frame; 21. a ring gear; 22. rotating the ring plate; 23. a notch tool; 24. a central rotating column; 25. rotating the base; 26. a rotation drive assembly; 27. a guide fixing disc; 28. rotating the pressing shaft; 29. a first connecting rod; 30. a compression head; 31. a return spring; 32. connecting plates; 33. a second guide groove; 34. a slide rail; 35. a slider; 36. a second connecting rod; 37. an annular track; 38. a blanking plate; 39. a second conveyor belt; 40. a discharging groove; 41. a transition track; 42. a rolling post; 43. a roller; 44. a notching tool; 45. a feeding track; 46. a receiving hole; 47. a rotating shaft; 48. and a support plate.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. Based on the embodiments in the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-9, the present invention provides a technical solution:

as shown in fig. 1-9, a full-automatic hemming notch and two-dimension code association and dust removal integrated machine comprises an inner stopper arranging machine 1, an assembly arranging machine 2, an aluminum cylinder conveyor 3, a press fitting closing machine 4, an aluminum cylinder hemming notch forming machine 5 and an automatic dust remover 6;

the inner plug arranging machine 1 is used for conveying inner plugs to the press fitting joint machine 4, the assembly arranging machine 2 is used for conveying assemblies to the press fitting joint machine 4, and the aluminum barrel conveyor 3 is used for conveying aluminum barrels to the press fitting joint machine 4;

the press-fitting association machine 4 is used for pressing the inner plug into the assembly to form a first part, identifying an inner code of the first part, assembling the aluminum cylinder on the first part to form a second part, identifying an outer code of the second part, and associating the inner code with the outer code;

the aluminum cylinder edge-covering notch forming machine 5 is used for cutting and edge-covering the aluminum cylinder of the second component;

the dust remover is used for removing dust of the cut and covered edge part II;

and the press fitting connection machine 4 conveys the second part to an aluminum cylinder edge covering and cutting forming machine 5 through a first feeding component, and the aluminum cylinder edge covering and cutting forming machine 5 conveys the second part subjected to cutting and edge covering to a dust remover through a second feeding component.

The bottle cap includes an inner plug, a component and an aluminum cylinder, which is common knowledge in the art and is not described herein.

The working principle is as follows: the inner plug, the assembly and the aluminum cap of the bottle cap are respectively fed to the press fitting and closing machine 4 through the inner plug arranging machine 1, the assembly arranging machine 2 and the aluminum cylinder conveyor 3. Firstly, the inner plug reaches the press-fitting connection machine 4, then the component is fed in place, at the moment, the component is coaxially sleeved outside the inner plug, and then the component and the inner plug are pressed to form a first component. And after the assembly and the inner plug are tightly pressed, identifying an inner code on the assembly, and after the identification of the inner code is finished, feeding the aluminum cylinder to enable the aluminum cylinder to be coaxially sleeved outside the first part. And then, the aluminum cylinder and the first component are compressed to form a second component, the second component is compressed to identify the outer code on the aluminum cylinder, and the identified inner code and the identified outer code are associated. And the related qualified parts are conveyed to the aluminum cylinder edge-covering notch forming machine 5 through the first feeding component to be processed in the next procedure.

And conveying the second part conveyed to the aluminum cylinder edge-covering notch forming machine 5 to an automatic dust remover 6 through a second feeding component after the processes of notching and edge covering to remove dust and finish processing.

The utility model discloses the equipment of stopper and subassembly, aluminium section of thick bamboo and part one in the collection, the relevance of interior sign indicating number and outer sign indicating number, the incision of bottle lid are bordured, the multiple functions of bottle lid dust removal are as an organic whole, and the production and processing overall process need not artifical the participation and transports, and the production process is continuous, has improved bottle lid production efficiency.

Further, as shown in fig. 1 to 3, the press-fitting connection line 4 includes a workbench 7, a first press-fitting mechanism 8 for press-fitting the inner plug and the assembly, a second press-fitting mechanism 9 for press-fitting the aluminum cylinder and the first component, an inner code recognizer 10 for recognizing an inner code on the assembly, an outer code recognizer 11 for recognizing an outer code on the aluminum cylinder, and a first tray 12 rotatably disposed on the workbench 7, wherein a plurality of assembling tools 13 for fixing the inner plug and the assembly are circumferentially and uniformly distributed on the first tray 12;

interior stopper reason material machine 1, subassembly reason material machine 2, first pressure equipment mechanism 8, interior sign indicating number recognizer 10, 3 second pressure equipment mechanism 9 of aluminium section of thick bamboo conveyer, outer sign indicating number recognizer 11 set up along first charging tray 12's circumference in proper order, and interior stopper reason material machine 1, subassembly reason material machine 2, first pressure equipment mechanism 8, interior sign indicating number recognizer 10, aluminium section of thick bamboo conveyer 3, second pressure equipment mechanism 9, outer sign indicating number recognizer 11 correspond with at least one equipment frock 13 on the first charging tray 12 respectively in proper order. Wherein the assembly tool 13 is used for providing support for the first component or the second component or the inner plug.

In this embodiment, the number of the assembly tools 13 is 24.

When the first tray 12 does not rotate, the inner plugging arranging machine 1, the first assembling tool 13 and the second assembling tool 13 form an inner plugging station in an up-and-down corresponding mode; the component arranging machine 2, the third assembling tool 13 and the fourth assembling tool 13 correspond to each other up and down to form a component feeding station; the first press-fitting mechanism 8, the fifth assembly tool 13 and the sixth assembly tool 13 correspond to each other up and down to form a part first press-fitting station; the inner code recognition machine 10, the seventh assembly tool 13 and the eighth assembly tool 13 correspond to each other up and down to form an inner code recognition station; the aluminum cylinder conveyor 3, the ninth assembly tool 13 and the tenth assembly tool 13 correspond to each other up and down to form an aluminum cylinder feeding station; the second press-fitting mechanism 9, the eleventh assembly tool 13 and the twelfth assembly tool 13 correspond to each other up and down to form a second press-fitting station of the component; the outer code recognition machine 11, the thirteenth assembly tool 13 and the fourteenth assembly tool 13 correspond to each other up and down to form an outer code recognition station.

The working principle is as follows: the inner plug is conveyed to a feeding station through the inner plug arranging machine 1 and is supported by the first assembling tool 13 and the second assembling tool 13, and then the first assembling tool 13 and the second assembling tool 13 move to the component feeding station along with the rotation of the first material tray 12. The component handler 2 delivers the components to the first and second assembly tools 13 supporting the inner plugs. The assembly is fed coaxially to the inner and outer portions. And then the first material tray 12 continuously rotates to a first part pressing station for first pressing, and the first pressing mechanism 8 at the first part pressing station presses the inner plug and the assembly to form a first part. After the first part is formed, the first tray 12 continues to rotate to the inner code recognition station, and at the moment, the inner code recognition machine 10 recognizes the inner code on the part.

After the identification is finished, the first material tray 12 continues to rotate to the aluminum cylinder feeding station, and the aluminum cylinder conveyor 3 conveys the aluminum cylinder to the outside of the first part. After the aluminum cylinder is in place, the first material tray 12 continues to rotate to a second part press-fitting station, and the second press-fitting mechanism 9 presses the aluminum cylinder and the first part to form a second part. And after the second part is molded, the first material tray 12 continues to rotate to an outer code recognition station, and at the moment, the outer code recognition machine 11 recognizes the outer code on the aluminum cylinder. And after the identification of the external code is finished, the internal code and the external code are correlated on the computer. And if the correlation is qualified, the qualified part II continues to the next process, and if the correlation is unqualified, the part II is removed.

The inner code recognizer 10, the outer code recognizer 11, and the association between the inner code and the outer code are all conventional technical means in the art, and are not described herein. The first press-mounting machine comprises a press head and a cylinder driving the press head to do vertical reciprocating linear motion. The second press-fitting machine and the first press-fitting machine have the same structure, and both are conventional technical means in the field, and the specific principle is not described herein.

The first material tray 12 rotates intermittently, the interval time is 2-5S, and when the first material tray 12 stops rotating, the inner plug feeding, the assembly feeding, the first press mounting, the inner code identification, the aluminum cylinder feeding, the second press mounting and the outer code identification are carried out simultaneously.

As shown in fig. 4 and 5, the loading of the inner plug is described (the loading of the aluminum cylinder and the assembly is the same), the discharging end of the inner plug arranging machine 1 is provided with a feeding rail 45, and one end of the discharging rail, which is far away from the inner plug arranging machine 1, corresponds to the assembling tool 13 up and down. Be equipped with the accommodation hole 46 that supplies interior stopper to pass through on the ejection of compact track, accommodation hole 46 with equipment frock 13 corresponds the setting from top to bottom, and accommodation hole 46 top is coaxial to be equipped with the cylinder, and cylinder piston end is equipped with the pressure head. Ejection of compact track tip is equipped with the locating part, the locating part includes pivot 47 and backup pad 48, pivot 47 with ejection of compact track rotates to be connected, the cover is equipped with the torsional spring in the pivot 47.

When the inner plugs are fed, the inner plugs are arranged in a straight line in the feeding track 45, the inner plug at the foremost end is positioned above the accommodating hole 46 and supported by the support plate 48, the inner plugs are coaxial with the accommodating hole 46, the air cylinder driving head moves downwards, the pressure head drives the inner plugs to move downwards, the rotating shaft 47 rotates under the action of the support plate 48 in the process, the support plate 48 moves downwards to leave the position of the accommodating hole 46, and therefore the inner plugs can enter the inner plug feeding station through the accommodating hole 46. The material loading of interior stopper is ended, and the cylinder resets, and pivot 47 resets under the effect of torsional spring, and pivot 47 resets and drives backup pad 48 and resets, and then guarantees that backup pad 48 can provide the support for next interior stopper.

Further, as shown in fig. 1 and 7, the first feeding member includes a negative pressure suction cylinder 14, a driving member 15 for driving the negative pressure suction cylinder 14 to reciprocate in a vertical direction, a first conveying belt 16, and a material pouring tray 17;

the negative pressure suction tube 14 is arranged above the first material tray 12 through the driving part 15 and is arranged corresponding to the assembling tool 13 up and down, and the negative pressure suction tube 14 is arranged behind the outer code recognition machine 11;

the first conveying belt 16 is arranged between the press-fitting connection machine 4 and the aluminum cylinder edge-covering notch forming machine 5, the material pouring plate 17 is arranged between the conveying belt discharging end and the aluminum cylinder edge-covering notch forming machine 5, a semicircular first guide grooves 18 are uniformly arranged on the circumference of the material pouring plate 17, a coaxial circular arc-shaped material guide rail 19 is arranged outside the material pouring plate 17, and one end of the material guide rail 19 extends to the aluminum cylinder edge-covering notch forming machine 5.

Wherein the driving member 15 is connected with a linear slide rail 34 or a horizontally arranged cylinder for driving the driving member 15 to perform reciprocating linear motion in the horizontal direction.

And the qualified second part of the inner code and the outer code is adsorbed by the negative pressure suction tube 14 and then driven by the driving part 15 to move upwards, and the negative pressure suction tube 14 and the second part are driven by the horizontally movable linear slide rail 34 or the horizontally arranged cylinder to move horizontally integrally, so that the qualified second part is transferred to the first conveying belt 16. And a second component on the first conveying belt is sent to the aluminum cylinder edge-covering notch forming machine 5 from the material pouring tray 17.

Further, as shown in fig. 1 and fig. 6 to 9, the aluminum drum edge covering and cutting forming machine 5 includes a frame 20, a gear ring 21, a rotating ring disc 22, a cutting tool 23, a central rotating column 24, a rotating base 25 and a plurality of rotating driving components 26;

the height of the gear ring 21 is gradually increased from one side of the frame 20 to the other side, and the gear ring 21 is fixed on the top of the frame 20;

the top of the central rotating column 24 is rotatably connected with the top of the rack 20, the bottom of the central rotating column 24 is connected with an output shaft of the motor, and a guide fixing disc 27 coaxial with the central rotating column 24 is fixed outside the central rotating column 24;

a plurality of the rotary driving assemblies 26 are slidably connected with the guide fixing disc 27; the rotary driving assembly 26 comprises a rotary pressing shaft 28, a first connecting rod 29, a pressing head 30 and a return spring 31, the rotary pressing shaft 28 and the first connecting rod 29 are respectively connected with the guide fixing disc 27 in a sliding manner, the top of the first connecting rod 29 is tightly pressed against the bottom surface of the gear ring 21, the first connecting rod 29 is connected with the rotary pressing shaft 28 through a connecting plate 32, the pressing head 30 is arranged at the bottom of the rotary pressing shaft 28, teeth matched with the gear ring 21 are arranged at the top of the rotary pressing shaft 28, the return spring 31 is sleeved outside the first connecting rod 29, and the return spring 31 is arranged between the guide fixing disc 27 and the connecting plate 32;

the rotating ring disc 22 and the rotating base 25 are coaxially arranged outside the central rotating column 24, the rotating ring disc 22 is positioned below the guide fixing disc 27, a plurality of notch tools 23 are arranged, and the notch tools 23 are respectively coaxially arranged with the pressing heads 30 of the plurality of rotating driving assemblies 26; wherein the guide fixing disc 27, the rotating ring disc 22 and the rotating base 25 are arranged in sequence from top to bottom along the axial direction of the central rotating column 24.

B semicircular second guide grooves 33 are uniformly formed in the outer edge of the rotating ring disc 22, b notch tools 23 are uniformly arranged on the rotating base 25, the notch tools 23 and the second guide grooves 33 are coaxially and correspondingly arranged, and the notch tools 23 are connected with the rotating base 25 through connecting pieces which drive the notch tools 23 to reciprocate vertically.

The second feeding component comprises a blanking plate 38 and a second conveying belt 39, the blanking plate 38 is arranged at the discharging end of the rotary ring disc 22, a blanking groove 40 is arranged on the blanking plate 38, and the width of the blanking groove 40 is larger than the diameter of the notch tool 23 and smaller than the diameter of the bottle cap; the second conveyor belt 39 is disposed above the blanking plate 38.

A guide frame is arranged between the feeding end and the discharging end of the rotating ring disc 22; the guide frame is provided with a notching tool 44, and the notching tool 44 comprises a prepressing knife, a wrapping knife and a notching knife.

Wherein the middle part of the material pouring tray 17 is provided with a rotating shaft, the rotating shaft is connected with a stepping motor, and the stepping motor drives the rotating shaft to drive the material pouring tray 17 to rotate. The bottom of the material pouring tray 17 is provided with a non-rotating tray, the tray is provided with a circular through hole, when the first guide groove 18 moves to correspond to the second guide groove 33 (namely, when the first guide groove 18 and the second guide groove 33 form a circular groove structure), the circular through hole is coaxial with the circular groove, and at the moment, the notch tool 23 is coaxial with the circular through hole.

The working process is as follows: and the material pouring tray 17 sends the second part to the aluminum cylinder edge-covering and cutting forming machine 5. The material pouring tray 17 is used for ensuring that the second component and the notch tool 23 are correspondingly loaded one by one.

The notch tool 23 is driven to do reciprocating linear motion under the action of the connecting piece, and the height of the notch tool 23 when the notch tool is positioned on one side close to the two-dimensional code correlation forming machine is lower than the height of the notch tool 23 when the notch tool is positioned on one side close to the dust remover.

When the first guide groove 18 and the second guide groove 33 form a circular groove structure correspondingly, and the notch tool 23 descends lower than the circular through hole, the second component falls onto the notch tool 23 directly after falling into the circular through hole through the circular groove, the second component is supported by the notch tool 23, and at this time, the second component is transferred from the first conveyor belt 16 to the aluminum cylinder edge-covering notch forming machine 5.

Then, the central rotary column 24 drives the guide fixing disc 27, the rotary ring disc 22 and the rotary base 25 to synchronously rotate, the rotary driving component 26 on the guide fixing disc 27 synchronously moves, and when the rotary driving component 26 moves, because the top of the rotary pressing shaft 28 is meshed with the gear ring 21 through the teeth, the rotary pressing shaft 28 rotates along with the guide fixing disc 27, and also does self-rotation motion (namely, the rotary pressing shaft 28 rotates around the axis of the rotary pressing shaft) under the action of the gear ring 21 and the teeth, and the rotary pressing shaft 28 drives the pressing head 30 to synchronously self-rotate while self-rotating.

And because the height of ring gear 21 is crescent gradually, therefore the connecting rod can be along vertical motion when ring gear 21 bottom moves, and the vertical motion of connecting rod drives rotatory last item 28 synchronous vertical motion through the effect of link plate 32 during vertical motion, and then realizes that the clamp head 30 moves towards the bottle lid.

Initially, the clamp head 30 is positioned above the cap and as the clamp head 30 rotates with the guide retainer 27, the clamp head 30 moves toward the cap and clamps against the exterior of the cap. When the pressing head 30 is pressed outside the bottle cap, the bottle cap is driven to rotate on the notch tool 23 due to self-rotation of the pressing head 30. The cap is automatically notched as it passes the notching tool 44.

After the bottle cap is cut, the height of the gear ring 21 is gradually reduced along with the continuous rotation of the guide fixing disc 27, at the moment, the connecting rod is reset under the action of the reset spring 31 to drive the rotary pressing shaft 28 to reset, and the pressing head 30 is synchronously reset to leave the cut bottle cap.

When the guide fixing disc 27 moves, the bottle cap and the notch tool 23 synchronously rotate along with the rotating base 25, and when the bottle cap and the notch tool 44 rotate, the bottle cap is driven to rotate automatically by the self-rotation of the pressing head 30, so that the notch of the bottle cap is realized. When the bottle cap and the notch tool 23 continue to rotate to the discharge end of the rotating ring disc 22 along with the rotating base 25, the connecting piece drives the notch tool 23 to move upwards, so that the notch tool 23 enters the discharging groove 40, and the bottle cap is located above the discharging groove 40 at the moment. When the notch tool 23 continues to move, the connecting piece drives the notch tool 23 to move downwards, so that the notch tool 23 is located below the blanking plate 38, and at the moment, because the width of the blanking groove 40 is smaller than the diameter of the bottle cap, the bottle cap is left on the blanking groove 40, and automatic blanking after the bottle cap is notched is realized. When the next cap enters the discharge chute 40, it pushes the previous cap to the second conveyor belt 39, and the previous cap is conveyed away by the second conveyor belt 39.

The utility model discloses a cooperation of ring gear 21 and tooth forms the planet wheel structure, makes the collet 30 autogyration in central rotation axis 47 drive swivel ring dish 22 pivoted to drive the bottle lid and rotate and accomplish the incision, bordure, 5 operations of the incision make-up machine of borduring of aluminium section of thick bamboo only need a motor drive can realize collet 30 at vertical reciprocating motion, collet 30 autogyration, swivel ring dish 22's rotation and incision frock 23 at vertical reciprocating motion, and transmission efficiency is high. And the feeding and discharging of the aluminum cylinder edge-covering notch forming machine 5 are all automatically carried out, manual intervention is not needed, and the working efficiency is improved.

Further, as shown in fig. 6, the connecting member includes a slide rail 34, a slide block 35, a second connecting rod 36 and an annular rail 37, the slide rail 34 is vertically disposed on the side surface of the rotating base 25, the notch tool 23 is slidably connected to the slide rail 34 through the slide block 35, the annular rail 37 is disposed below the rotating base 25, the second connecting rod 36 is disposed at the bottom of the slide block 35, the bottom end of the second connecting rod 36 is disposed on the annular rail 37, and the annular rail 37 is gradually increased from the feeding end of the rotating ring disc 22 to the square height of the discharging end.

The principle that the connecting piece drives the notch tool 23 to reciprocate is as follows: the connecting rod can be always guaranteed to be attached to the annular rail 37 under the action of gravity. At the feeding end of the rotating ring disc 22, the height of the annular rail 37 is low, so that the overall height of the connecting piece and the notch tool 23 is lower than that of the tray of the material pouring disc 17. After the bottle cap is dropped on the notch tool 23, the connecting piece moves upwards due to the gradual increase of the height of the annular track 37 along with the rotation of the connecting piece, and the notch tool 23 moves upwards synchronously. The link member peaks when it moves to the blanking plate 38 of the rotating ring plate 22. And then the connecting piece continues to move, and the height of the annular track 37 gradually becomes lower, so that the connecting piece descends, the notch tool 23 descends synchronously, and the bottle cap is separated from the notch tool 23 under the action of the blanking plate 38.

Further, as shown in fig. 7, the second conveyor belt 39 and the discharge end of the rotating ring plate 22 are provided with a circular arc-shaped transition track 41. The bottle cap enters the transition track 41 after being separated from the notch tool 23, and the transition track 41 plays a role in transition and guiding of the bottle cap, so that the bottle cap is guaranteed to smoothly enter the second conveying belt 39.

Further, as shown in fig. 6, a rolling column 42 is rotatably connected to the top of the first connecting rod 29, and the rolling column 42 abuts against the bottom surface of the ring gear 21.

The bottom of the second connecting rod 36 is provided with a roller 43. The rolling column 42 and the roller 43 can reduce the friction when the first connecting rod 29 and the second connecting rod 36 move respectively, and ensure that the moving processes of the two are smooth.

Further, a rubber layer is arranged inside the pressing head 30. The friction between multiplicable clamp head of rubber layer and the bottle lid that sets up avoids the clamp head to drive the bottle lid and skids when rotating, and the rubber layer still can provide the protection to the bottle lid simultaneously, avoids clamp head and bottle lid direct contact to make the bottle lid surface produce wearing and tearing.

The foregoing is illustrative of the preferred embodiments of the present invention, and it is to be understood that the invention is not limited to the precise forms disclosed herein, and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the invention as defined by the appended claims. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention, which is to be limited only by the claims appended hereto.

Claims (10)

1. The utility model provides a full-automatic incision and two-dimensional code correlation, dust removal all-in-one of borduring which characterized in that: the automatic cleaning machine comprises an internal plugging and arranging machine, an assembly arranging machine, an aluminum cylinder conveyor, a press fitting and closing machine, an aluminum cylinder edge-covering and notch forming machine and an automatic dust remover;

the inner plug arranging machine is used for conveying inner plugs to the press fitting correlation machine, the assembly arranging machine is used for conveying assemblies to the press fitting correlation machine, and the aluminum barrel conveyor is used for conveying aluminum barrels to the press fitting correlation machine;

the press-fitting connection machine is used for pressing the inner plug into the assembly to form a first part, identifying an inner code of the first part, assembling the aluminum cylinder on the first part to form a second part, identifying an outer code of the second part and then associating the inner code with the outer code;

the aluminum cylinder edge-covering notch forming machine is used for cutting and edge-covering the aluminum cylinder of the second component;

the dust remover is used for removing dust of the cut and covered edge part II;

and the press-fitting correlation machine conveys the second part to an aluminum cylinder edge-covering notch forming machine through a first feeding component, and the aluminum cylinder edge-covering notch forming machine conveys the second part subjected to notch and edge covering to a dust remover through a second feeding component.

2. The full-automatic hemming notch and two-dimension code association and dust removal all-in-one machine according to claim 1, comprising: the press-fitting correlation machine comprises a workbench, a first press-fitting mechanism for press-fitting an inner plug and a component, a second press-fitting mechanism for press-fitting an aluminum cylinder and a component I, an inner code recognition machine for recognizing an inner code on the component, an outer code recognition machine for recognizing an outer code on the aluminum cylinder, and a first material disc rotatably arranged on the workbench, wherein a plurality of assembling tools for fixing the inner plug and the component are uniformly distributed on the first material disc along the circumferential direction;

interior stopper reason material machine, subassembly reason material machine, first pressure equipment mechanism, interior sign indicating number recognizer, aluminium section of thick bamboo conveyer second pressure equipment mechanism, outer sign indicating number recognizer set up along the circumference of first charging tray in proper order, and interior stopper reason material machine, subassembly reason material machine, first pressure equipment mechanism, interior sign indicating number recognizer, aluminium section of thick bamboo conveyer, second pressure equipment mechanism, outer sign indicating number recognizer correspond with at least one equipment frock on the first charging tray respectively in proper order.

3. The full-automatic hemming notch and two-dimensional code association and dust removal integrated machine according to claim 2, characterized in that: the first feeding component comprises a negative pressure suction barrel, a driving piece for driving the negative pressure suction barrel to reciprocate along the vertical direction, a first conveying belt and a material pouring disc;

the negative pressure suction tube is arranged above the first material disc through the driving piece and corresponds to the assembling tool up and down, and the negative pressure suction tube is arranged behind the external code recognition machine;

the first conveying belt is arranged between the press fitting closing machine and the aluminum cylinder edge-covering notch forming machine, the material pouring plate is arranged between the conveying belt discharging end and the aluminum cylinder edge-covering notch forming machine, a semicircular first guide grooves are uniformly formed in the circumference of the material pouring plate, a coaxial material guiding rail is arranged outside the material pouring plate, and one end of the material guiding rail extends to the aluminum cylinder edge-covering notch forming machine.

4. The full-automatic hemming cut and two-dimensional code association and dust removal integrated machine according to claim 3, characterized in that: the aluminum cylinder edge-covering notch forming machine comprises a frame, a gear ring, a rotating ring disc, a notch tool, a central rotating column, a rotating base and a plurality of rotating driving components;

the height of the gear ring is gradually increased from one side of the rack to the other side of the rack, and the gear ring is fixed at the top of the rack;

the top of the central rotating column is rotationally connected with the top of the rack, the bottom of the central rotating column is connected with an output shaft of the motor, and a guide fixing disc coaxial with the central rotating column is fixed outside the central rotating column;

the plurality of rotary driving assemblies are connected with the guide fixing disc in a sliding manner; the rotary driving assembly comprises a rotary pressing shaft, a first connecting rod, a pressing head and a return spring, the rotary pressing shaft and the first connecting rod are respectively connected with the guide fixing disc in a sliding mode, the top of the first connecting rod abuts against the bottom surface of the gear ring, the first connecting rod is connected with the rotary pressing shaft through a connecting plate, the pressing head is arranged at the bottom of the rotary pressing shaft, teeth matched with the gear ring are arranged at the top of the rotary pressing shaft, the return spring is sleeved outside the first connecting rod, and the return spring is arranged between the guide fixing disc and the connecting plate;

the rotary ring disc and the rotary base are coaxially arranged outside the central rotary column, the rotary ring disc is positioned below the guide fixing disc, a plurality of notch tools are arranged, and the notch tools are respectively coaxially arranged with the pressing heads of the rotary driving assemblies;

the outer edge of the rotating ring disc is evenly provided with b semicircular second guide grooves, b notch tools are evenly arranged on the rotating base, the notch tools and the second guide grooves are coaxially and correspondingly arranged, and the notch tools are connected with the rotating base through connecting pieces which drive the notch tools to reciprocate vertically.

5. The full-automatic hemming notch and two-dimension code association and dust removal all-in-one machine according to claim 4, characterized in that: the connecting piece includes slide rail, slider, second connecting rod and circular orbit, the vertical setting of slide rail is in the rotating base's side, the incision frock pass through the slider with slide rail sliding connection, the circular orbit sets up the rotating base below, the second connecting rod sets up in the slider bottom, second connecting rod bottom sets up on the circular orbit, the circular orbit is by the feed end of rotating ring dish square height crescent to the discharge end.

6. The full-automatic hemming notch and two-dimension code association and dust removal integrated machine according to claim 5, characterized in that: the second feeding component comprises a blanking plate and a second conveying belt, the blanking plate is arranged at the discharging end of the rotating ring disc, a blanking groove is formed in the blanking plate, and the width of the blanking groove is larger than that of the notch tool and smaller than that of the bottle cap; a guide frame is arranged between the feeding end and the discharging end of the rotating ring disc;

the second conveying belt is arranged above the blanking plate.

7. The full-automatic hemming notch and two-dimension code association and dust removal integrated machine according to claim 6, characterized in that: and arc-shaped transition tracks are arranged at the discharge ends of the second conveying belt and the rotating ring disc.

8. The full-automatic hemming notch and two-dimension code association and dust removal all-in-one machine according to claim 4, characterized in that: the top of the first connecting rod is rotatably connected with a rolling column which is tightly propped against the bottom surface of the gear ring.

9. The full-automatic hemming notch and two-dimension code association and dust removal integrated machine according to claim 5, characterized in that: and the bottom of the second connecting rod is provided with a roller.

10. The full-automatic hemming notch and two-dimension code association and dust removal all-in-one machine according to claim 4, characterized in that: and a rubber layer is arranged inside the pressing head.

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