CN115213681A - Automatic line of lighter - Google Patents

Abstract

The invention provides an automatic line of lighters, which comprises an automatic line body, wherein the automatic line body comprises a workbench, a transmission mechanism is installed on the workbench, a feeding mechanism is installed at one end of the transmission mechanism, a fire adjusting ring assembling mechanism and a gasket assembling mechanism are installed on the workbench, the gasket assembling mechanism and the fire adjusting ring assembling mechanism are installed in an opposite staggered mode, an igniter assembling mechanism is installed on one side of the fire adjusting ring assembling mechanism, a spring assembling mechanism is installed on one side of the igniter assembling mechanism, and a wane assembling mechanism is installed on the workbench. This transfer machine of lighter cooperatees through transmission mechanism and positioning mechanism and accomplishes quick feeding and use, and inside equipment mechanism cooperatees with automation equipment, and the processing step of every department is corresponded to the processing equipment of every department, orderly processing in proper order to be convenient for improve machining efficiency.

Description

Automatic line of lighter

Technical Field

The invention relates to the field of production equipment of a lighting line, in particular to an automatic line of lighters.

Background

The lighter is a tool of turning into the fire energy with liquid fuel, ignite required object through producing fire, the lighter is as instrument commonly used in current society, the demand is huge, consequently, speed to lighter production needs accelerate, current lighter needs manual work and machine cooperation to accomplish processing at the in-process of production, because the manual quantity of holding the lighter is limited, consequently, need repetitious to hold the processing use of holding the lighter many times, process the lighter through the manual work, manufacturing cost has been increased on the one hand, in addition on the one hand work efficiency is low, can't guarantee production quality, in addition, current lighter production line is when production, can't realize the lighter body and remove and process along with the base together, the clearance between the lighter on the bottom plate is less, under the condition that the clearance is little, can't directly realize the direct processing of lighter on the base, thereby can't satisfy the demand of current lighter production.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an automatic line of a lighter, which aims to solve the problems in the background art.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an transfer machine of lighter, includes the transfer machine body, the transfer machine body includes the workstation, install transmission device on the workstation, feeding mechanism is installed to transmission device's one end, install accent fire circle equipment mechanism and packing ring equipment mechanism on the workstation, packing ring equipment mechanism and the opposite dislocation installation of accent fire circle equipment mechanism, transfer one side of fire circle equipment mechanism to install some firearm equipment mechanism, spring equipment mechanism is installed to one side of some firearm equipment mechanism, install wane equipment mechanism on the workstation, baffle equipment mechanism is installed to one side of wane equipment mechanism, firing wire equipment mechanism is installed to one side of baffle equipment mechanism, one side of firing wire equipment mechanism is installed according to cap equipment mechanism, the one end of workstation is fixed with fire prevention cover equipment mechanism.

Further, transmission device includes the transmission motor, install the transmission band on the transmission motor, displacement mechanism is installed to the one end of transmission band, the location cylinder is installed to the one end of displacement mechanism, base optic fibre is installed to the bottom of transmission band.

Furthermore, transfer fire ring equipment mechanism is including transferring fire ring displacement motor and transfer fire ring lift cylinder, transfer fire ring dislocation cylinder is installed to the bottom of transferring fire ring lift cylinder, transfer fire ring material returned cylinder is installed to one side of transferring fire ring dislocation cylinder, transfer fire ring optic fibre is installed to the bottom of transferring fire ring material returned cylinder.

Further, packing ring equipment mechanism includes packing ring displacement motor and packing ring lift cylinder, packing ring dislocation cylinder is installed to the bottom of packing ring lift cylinder, packing ring material returned cylinder is installed to one side of packing ring dislocation cylinder, packing ring optic fibre is installed to the bottom of packing ring material returned cylinder.

Further, some firearm equipment mechanism includes the mounting bracket, install some firearm broken line lift cylinder on the mounting bracket, some firearm dislocation cylinder is installed to one side of some firearm broken line lift cylinder, pay-off motor one is installed to one side of some firearm dislocation cylinder, install the pay-off subassembly on the mounting bracket, the optical fiber of stopping a business is installed to the one end of pay-off subassembly, pay-off motor two is installed to one side of stopping a business optical fiber.

Further, some firearm are got material optic fibre to the other end of pay-off subassembly, some firearm revolving cylinder is installed to the one end that some firearm got material optic fibre, some firearm displacement motor is installed to one side of some firearm revolving cylinder, some firearm lift cylinder is installed to one side of some firearm displacement motor, some firearm dislocation cylinder is installed to the bottom of some firearm lift cylinder, some firearm finger clamping cylinder is installed to one side of some firearm dislocation cylinder.

Further, spring equipment mechanism includes mounting panel and spring displacement motor, install spring dislocation cylinder on the mounting panel, the spring feeding mechanism that blows is installed to the one end of spring dislocation cylinder, the spring is blown and is installed spring material optic fibre on the feeding mechanism, spring location cylinder is installed to one side that the spring has material optic fibre, the spring is blown and is installed the spring between feeding mechanism and the spring dislocation cylinder and directly shakes.

Further, spring equipment lift cylinder is installed to one side of spring displacement motor, spring equipment dislocation cylinder is installed to one side of spring equipment lift cylinder, rocker equipment mechanism includes mount and rocker equipment displacement motor, install the cam motor on the mount, install the cam on the cam motor, the rocker is directly shaken to one side of cam, rocker location cylinder is installed to the one end that the rocker directly shakes, rocker optic fibre and rocker dislocation cylinder are installed to one side of rocker location cylinder, rocker dislocation cylinder and rocker optic fibre cooperate, the air cylinder that compresses tightly is installed to one side of rocker optic fibre.

Further, wane equipment lift cylinder is installed to one side of wane equipment displacement motor, wane equipment dislocation cylinder is installed to one side of wane equipment lift cylinder, the tight finger cylinder of wane clamp is installed to the bottom of wane equipment dislocation cylinder, baffle equipment mechanism includes baffle displacement motor, baffle equipment lift cylinder is installed to one side of baffle displacement motor, baffle equipment dislocation cylinder is installed to one side of baffle equipment lift cylinder, the baffle optic fibre is installed to the bottom of baffle equipment dislocation cylinder, the baffle straight vibration is installed to one side of baffle optic fibre, the baffle circle shakes is installed to the one end of baffle straight vibration.

Further, firing cable equipment mechanism includes firing cable displacement motor, firing cable equipment lift cylinder is installed to one side of firing cable displacement motor, firing cable equipment dislocation cylinder one and firing cable equipment dislocation cylinder two are installed to firing cable equipment lift cylinder bottom one side, firing cable optic fibre is installed to the one end of firing cable equipment dislocation cylinder two, firing cable circle is installed to one side of firing cable equipment lift cylinder and is shaken.

Further, include according to cap displacement motor and according to cap cam displacement motor according to cap assembly mechanism, install according to cap assembly positioning cylinder according to one side of cap displacement motor, install according to cap assembly dislocation cylinder according to bottom one side of cap assembly positioning cylinder, install according to cap assembly lift cylinder according to one side of cap assembly dislocation cylinder, install according to cap cam displacement motor and directly shake according to the cap, install according to cap dislocation cylinder according to the one end that the cap directly shakes, install according to cap optical fiber according to the one end of cap dislocation cylinder.

Further, fire prevention cover equipment mechanism is including fire prevention cover displacement motor, fire prevention cover equipment cylinder is installed to one side of fire prevention cover displacement motor, fire prevention cover equipment dislocation cylinder is installed to one side of fire prevention cover equipment cylinder, fire prevention cover dislocation cylinder is installed to one side of fire prevention cover equipment dislocation cylinder, fire prevention cover material returned cylinder is installed to the one end of fire prevention cover dislocation cylinder, fire prevention cover optic fibre is installed to one side of fire prevention cover material returned cylinder.

The invention has the beneficial effects that: the invention relates to an automatic line of lighters, which comprises a workbench; a transport mechanism; a fire adjusting ring assembling mechanism; a gasket assembly mechanism; an igniter assembling mechanism; a spring assembly mechanism; a rocker assembly mechanism; a partition plate assembling mechanism; a fuse assembling mechanism; a cap assembly mechanism; a fire-proof cover assembling mechanism; a feeding mechanism; a transmission motor; a conveyor belt; a base optical fiber; a displacement mechanism; positioning the air cylinder; a fire adjusting ring displacement motor; a fire adjusting ring lifting cylinder; the fire adjusting ring is arranged in a staggered cylinder; a material returning cylinder of the tempering ring; a fire-adjusting ring optical fiber; a washer displacement motor; a gasket lifting cylinder; a gasket dislocation cylinder; a gasket material returning cylinder; an igniter displacement motor; an igniter lifting cylinder; an igniter dislocation cylinder; the igniter fingers clamp the cylinder; an igniter pickup fiber; an igniter rotating cylinder; a mounting frame; an igniter feeding cylinder; the igniter is staggered with the cylinder; an igniter fold line lifting cylinder; a feeding motor I; a feeding motor II; stopping the optical fiber; mounting a plate; a spring dislocation cylinder; a spring blowing feeding mechanism; a spring loaded optical fiber; a spring positioning cylinder; directly vibrating a spring; a cam motor; a fixed mount; a cam; performing direct vibration on the warped plate; a rocker positioning cylinder; a pressing cylinder; a rocker fiber; wane dislocation cylinder.

1. This transfer machine of lighter detects the position of lighter part through location discernment, detects the back and accomplishes the independent processing of branch step to the lighter through controlgear and uses, processes the lighter through equipment, provides the process velocity on the one hand, can effectually provide the quality of processing in addition.

2. This transfer machine of lighter, when using, cooperatees through the processing equipment of transmission device and each position department, realizes the accurate location displacement between lighter and the base, when the displacement arrives corresponding station, accomplishes the location to the lighter through optic fibre, realizes automated processing, effectively improves work efficiency and quality.

Drawings

FIG. 1 is a schematic view of an automated line for a lighter according to the present invention;

fig. 2 is a schematic structural view of a conveying mechanism of an automatic line of a lighter according to the present invention;

FIG. 3 is a schematic view of the structure of the fire control ring assembly mechanism of the automatic line of the lighter according to the present invention;

fig. 4 is a schematic view of a gasket assembly mechanism of an automated line for lighters according to the present invention;

FIG. 5 is a schematic view of an assembly mechanism of an automatic line of lighters according to the present invention;

FIG. 6 is a schematic diagram of a spring assembly mechanism of an automated line for lighters according to the present invention;

fig. 7 is a schematic structural view of a rocker assembly mechanism of an automated line for lighters according to the present invention;

in the figure: 1. a work table; 2. a transport mechanism; 3. a fire adjusting ring assembling mechanism; 4. a gasket assembly mechanism; 5. an igniter assembling mechanism; 6. a spring assembly mechanism; 7. a rocker assembly mechanism; 8. a partition plate assembling mechanism; 9. a fuse assembling mechanism; 10. a cap assembly mechanism; 11. a fire-proof cover assembling mechanism; 12. a feeding mechanism; 13. a transmission motor; 14. a conveyor belt; 15. a base optical fiber; 16. a displacement mechanism; 17. positioning the air cylinder; 18. a fire adjusting ring displacement motor; 19. a fire adjusting ring lifting cylinder; 20. the fire adjusting ring is arranged in a staggered cylinder; 21. a material returning cylinder of the fire adjusting ring; 22. a fire-tuning ring optical fiber; 23. a washer displacement motor; 24. a gasket lifting cylinder; 25. a gasket dislocation cylinder; 26. a gasket material returning cylinder; 27. an igniter displacement motor; 28. an igniter lifting cylinder; 29. the igniter is staggered with the cylinder; 30. the igniter fingers clamp the cylinder; 31. an igniter take-out fiber; 32. an igniter rotating cylinder; 33. a mounting frame; 34. an igniter feeding cylinder; 35. the igniter is staggered with the cylinder; 36. an igniter fold line lifting cylinder; 37. a feeding motor I; 38. a feeding motor II; 39. stopping the optical fiber; 40. mounting a plate; 41. a spring dislocation cylinder; 42. a spring blowing feeding mechanism; 43. a spring loaded optical fiber; 44. a spring positioning cylinder; 45. directly vibrating a spring; 46. a cam motor; 47. a fixed mount; 48. a cam; 49. performing direct vibration on the warped plate; 50. a rocker positioning cylinder; 51. a pressing cylinder; 52. a rocker fiber; 53. wane dislocation cylinder.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1 to 7, the present invention provides a technical solution: the utility model provides an transfer machine of lighter, includes the transfer machine body, the transfer machine body includes workstation 1, install transport mechanism 2 on the workstation 1, feeding mechanism 12 is installed to transport mechanism 2's one end, install accent fire circle equipment mechanism 3 and packing ring equipment mechanism 4 on the workstation 1, packing ring equipment mechanism 4 and 3 opposition dislocation installations of accent fire circle equipment mechanism, transfer fire circle equipment mechanism 5 is installed to one side of mechanism 3, spring equipment mechanism 6 is installed to one side of point firearm equipment mechanism 5, install wane equipment mechanism 7 on the workstation 1, baffle equipment mechanism 8 is installed to one side of wane equipment mechanism 7, firing wire equipment mechanism 9 is installed to one side of baffle equipment mechanism 8, cap equipment mechanism 10 is installed to one side of firing wire equipment mechanism 9, the one end of workstation 1 is fixed with fire prevention equipment cover mechanism 11, transport mechanism 2 includes transmission motor 13, install transmission band 14 on the transmission motor 13, transmission band 14's one end installs mechanism 16, location cylinder 17 is installed to the one end of transmission band 16, the displacement base 15 is installed to the bottom of optic fibre transmission band 15.

This embodiment, transfer fire ring equipment mechanism 3 is including transfer fire ring displacement motor 18 and transfer fire ring lift cylinder 19, transfer fire ring dislocation cylinder 20 is installed to the bottom of transfer fire ring lift cylinder 19, transfer fire ring material returned cylinder 21 is installed to one side of transfer fire ring dislocation cylinder 20, transfer fire ring optic fibre 22 is installed to the bottom of transfer fire ring material returned cylinder 21, packing ring equipment mechanism 4 is including packing ring displacement motor 23 and packing ring lift cylinder 24, packing ring dislocation cylinder 25 is installed to the bottom of packing ring lift cylinder 24, packing ring material returned cylinder 26 is installed to one side of packing ring material returned cylinder 25, packing ring optic fibre is installed to the bottom of packing ring material returned cylinder 26, some firearm equipment mechanism 5 is including mounting bracket 33, install some firearm broken line lift cylinder 36 on mounting bracket 33, some firearm dislocation cylinder 35 is installed to one side of some firearm lift cylinder 36, some firearm motor one 37 is installed to one side of some firearm lift cylinder 35, install a material returned cylinder 27 on mounting bracket 33, pay off a stock optic fibre 39 is installed to the one end of pay off stock optic fibre 39, pay off stock optic fibre is installed to one side of pay off stock broken line lift cylinder 38, the other end of material returned material subassembly installs the other end of some firearm 31, some firearm lift cylinder 32 is installed to one side of some firearm lift cylinder 27, the displacement motor displacement cylinder 32 is installed to the displacement of some firearm lift cylinder 28, the displacement cylinder 27 is installed to one side of some firearm lift cylinder 27, the displacement of point 27 is installed to the displacement cylinder 27.

In this embodiment, the spring assembling mechanism 6 includes a mounting plate 40 and a spring displacement motor, a spring dislocation cylinder 41 is installed on the mounting plate 40, the spring 42 of blowing is installed to the one end of the spring dislocation cylinder 41, the spring 43 of having material is installed on the spring 42 of blowing, the spring 44 of being installed to one side of the spring 43 of having material, the spring 45 that directly shakes is installed between the spring 42 of blowing and the spring dislocation cylinder 41, spring equipment lift cylinder is installed to one side of spring displacement motor, spring equipment dislocation cylinder is installed to one side of spring equipment lift cylinder, rocker assembling mechanism 7 includes mount 47 and rocker equipment displacement motor, install cam motor 46 on the mount 47, install cam 48 on the cam motor 46, rocker 49 that directly shakes is installed to one side of cam 48, a seesaw positioning cylinder 50 is installed at one end of the seesaw direct vibration 49, a seesaw optical fiber 52 and a seesaw dislocation cylinder 53 are installed at one side of the seesaw positioning cylinder 50, the seesaw dislocation cylinder 53 is matched with the seesaw optical fiber 52, a hold-down cylinder 51 is installed at one side of the seesaw optical fiber 50, a seesaw assembling lifting cylinder is installed at one side of the seesaw assembling displacement motor, a seesaw assembling dislocation cylinder is installed at one side of the seesaw assembling lifting cylinder, a seesaw clamping finger cylinder is installed at the bottom of the seesaw assembling dislocation cylinder, the partition assembling mechanism 8 comprises a partition displacement motor, a partition assembling lifting cylinder is installed at one side of the partition displacement motor, a partition assembling dislocation cylinder is installed at one side of the partition assembling lifting cylinder, a partition optical fiber is installed at the bottom of the partition assembling dislocation cylinder, the partition plate is installed on one side of the partition plate optical fiber and directly vibrates, the partition plate circular vibration is installed on one end of the partition plate direct vibration, the firing cable assembling mechanism 9 comprises a firing cable displacement motor, a firing cable assembling lifting cylinder is installed on one side of the firing cable displacement motor, a firing cable assembling dislocation cylinder I and a firing cable assembling dislocation cylinder II are installed on one side of the bottom of the firing cable assembling lifting cylinder, the firing cable optical fiber is installed on one end of the firing cable assembling dislocation cylinder II, the firing cable circular vibration is installed on one side of the firing cable assembling lifting cylinder, the cap pressing assembling mechanism 10 comprises a cap pressing displacement motor and a cap pressing cam displacement motor, a cap pressing assembling positioning cylinder is installed on one side of the cap pressing displacement motor, the cap pressing assembling dislocation cylinder is installed on one side of the bottom of the cap assembling positioning cylinder, install according to one side of cap equipment dislocation cylinder and go up and down the cylinder according to cap equipment, install on the cam displacement motor according to the cap and directly shake, install according to cap dislocation cylinder according to the one end that the cap directly shakes, install according to cap dislocation cylinder's one end and press cap optic fibre, fire prevention cover equipment mechanism 11 is including fire prevention cover displacement motor, fire prevention cover equipment cylinder is installed to one side of fire prevention cover displacement motor, fire prevention cover equipment dislocation cylinder is installed to one side of fire prevention cover equipment cylinder, fire prevention cover dislocation cylinder is installed to one side of fire prevention cover equipment dislocation cylinder, fire prevention cover returned material cylinder is installed to the one end of fire prevention cover dislocation cylinder, fire prevention cover optic fibre is installed to one side of fire prevention cover returned material cylinder.

When the device is used, firstly, the base of the lighter is moved to the position of the optical fiber 15 of the base after the base is in place, the base 15 detects the position of the base, the base is moved upwards through the positioning cylinder 17, the base moves to the lower station through the displacement mechanism 16 in the upwards moving process, the base of the lighter is moved to the lower station, the positioning cylinder 17 and the displacement mechanism 16 return to the original point, when the optical fiber 15 of the base is bright, the positioning cylinder 17 starts to position, the displacement mechanism 16 starts to move to the next assembly station, the working steps are repeated in sequence to realize positioning and accurate identification, the displacement mechanism 16 is synchronously operated and used by 16 cylinders, when the optical fiber enters the position 3 of the fire adjusting ring assembly mechanism, 5 optical fibers 22 of the fire adjusting ring are bright, the fire adjusting ring assembly lifting cylinder 19 is started to descend to the position of the lighter to take materials, and the lifting cylinder finishes up-down extrusion when the materials are taken, the lighter body and the base are extruded to be limited, the lighter is limited and fixed through up-down extrusion force, the lighter cannot shake in the working process, the fire adjusting ring displacement motor 18 shifts to the designated position to start assembling, assembling dislocation is not needed in the 1 st-5 th assembling, when 5 lighters are assembled again after being assembled, the fire adjusting ring dislocation cylinder 20 dislocates the position of the fire adjusting ring optical fiber 22, the lighter on the other side is correspondingly arranged after dislocation to complete subsequent repeated operation, the lighter is positioned and re-installed through the fire adjusting ring optical fiber 22, the base and the lighter are integrally shifted to the next station to be assembled after the installation is completed, then the lighter enters the position of the gasket assembling mechanism 4 through the transmission mechanism 14, the gasket assembling lifting cylinder 24 is started to descend to the lighter at the position of the base to extrude and limit the lighter, the gasket displacement motor 23 shifts to the designated position to start assembling, assembling for the 1 st to 5 th times does not need assembling dislocation, after 5 assembling, moving the lighter to the other side through a gasket assembling dislocation cylinder 25 to carry out repeated shifting assembling when re-assembling, sequentially entering the positions of the igniter assembling mechanism 5 by the transmission mechanism 14, the positioning cylinder 17 and the displacement mechanism 16, carrying out straight vibration feeding of the igniter, when a broken line in-place optical fiber is bright, carrying out dislocation motion to enable an igniter feeding cylinder 34 to start working, returning an igniter dislocation cylinder 29 to an original point and starting a broken line lifting cylinder to start acting, repeating the above actions again until a secondary feeding material is fully stopped and the optical fiber is bright, temporarily stopping feeding, carrying out straight vibration feeding on the igniter after the broken line, when the igniter in-place optical fiber is bright, starting a rotary cylinder to move to a terminal point, starting an igniter assembling cylinder to descend to the terminal point, clamping the igniter finger to a cylinder 30 to start clamping a product, returning the igniter assembling cylinder to the original position, simultaneously starting servo dislocation after returning the rotary cylinder, assembling the igniter to finish the product assembling for 5 times again, then carrying out the assembling for the 5 times, and carrying out the spring assembling after the igniter is finished;

when the springs are installed, the springs are fed in a circular vibration mode, the ring-shaped induction is provided with material photoelectricity, and when 5 springs are on simultaneously, a prompt is required when one of the 5 springs is not on; the spring positioning cylinder moves 44 until the ring senses the ring in place and the photoelectric is fully bright, if the ring senses the ring in place and the ring does not illuminate, the spring positioning action is repeated, and the spring moves to the end point in a dislocation way; the spring assembling station is moved to a designated assembling station and the assembling positioning cylinder starts working, and the spring is assembled, lifted and reset in place by the spring blowing and feeding device 42; the assembly part moves to the next assembly position, the spring blows and feeds, the spring assembly is lifted in place, the assembly is repeatedly carried out for 5 times, the spring dislocation cylinder 41 needs to be started for the next 5 times to enable the spring direct vibration and the spring material level stop 43 to be dislocated, then the lighters at other positions on the base are repeatedly assembled, when the seesaw is installed, the seesaw direct vibration 45 feeds, the seesaw optical fiber 52 and the seesaw are displaced in place and are simultaneously lightened, the seesaw dislocation cylinder 52 moves to the back reset position, the seesaw displacement cam motor is started to enable the seesaw to be displaced in place and are lightened again, the seesaw displacement cam motor is started to enable the seesaw to be displaced in place and is close to the switch to be lightened again, the seesaw pressing cylinder moves to the terminal point to assemble the seesaw until 5 seesaw are filled and the seesaw is displaced in place, the seesaw pressing cylinder moves to the bottom, the seesaw clamping cylinder starts to clamp the seesaw, the seesaw pressing cylinder resets and the seesaw positioning cylinder moves to the terminal point, the seesaw assembly cylinder is lifted and is repeatedly moved to the designated position to be assembled, and the seesaw positioning cylinder is repeatedly moved to the first to be moved to the first place and is moved to be lightened, and the assembly is repeatedly moved 5 times; after the wane is assembled on the lighter for 5 times, the wane is assembled for the next 5 times, and a wane assembling dislocation cylinder needs to be dislocated, when the partition is installed, the partition is directly vibrated and fed, when 5 partition in-place optical fibers are bright, the partition assembling lifting cylinder is started to move to take materials and shift to place to start assembling, assembling for the 1 st to 5 th times does not need assembling dislocation, and when the partition is assembled again after 5 devices are assembled, the assembling dislocation cylinder needs to move and then is assembled for the next 5 times; when the firing cable is installed, the firing cable is discharged through the circular vibration pipeline, when 5 firing cable optical fibers are bright, the firing cable is assembled and shifted to a specified position through a servo shift, the assembling and positioning cylinder is started to descend to the bottommost part, the assembling and lifting cylinder starts to assemble, the assembling of the 1 st to 5 th times does not need assembling dislocation, and when the assembling is carried out again after 5 assembling is finished, the assembling dislocation cylinder needs to move and then is shifted and assembled for 5 times; when the cap is pressed, the cam motor works, when the cap-pressing optical fiber and the cap are shifted to the position and are simultaneously lighted, the cap-pressing dislocation cylinder is dislocated and reset, the cam motor is started to shift to the position and is photoelectrically lighted and stopped, and the cap-pressing optical fiber is lighted, and is dislocated and reset again; repeating the steps for 5 times until the end point approach switch which is in place by the cap is on, when the end point approach switch which is in place by the cap is on, the assembling cylinder starts to descend to the end point, vacuum air suction is started to take the materials, the assembling cylinder ascends to the original point, shifts to a specified position by a servo, the material returning cylinder starts to return the materials, air blowing is needed during material return, and the assembling is repeated for 5 times; the assembly can be carried out only when the assembly dislocation air cylinder is dislocated to the terminal point after 5 times of assembly, the assembly can be carried out only when the assembly arrives at the terminal point after 5 times of assembly, and when the assembly of the fireproof cover is carried out, the assembly steps are the same as the steps of the cap pressing assembly, and only a vacuum generator is not needed.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present specification describes embodiments, not every embodiment includes only a single embodiment, and such description is for clarity purposes only, and it is to be understood that all embodiments may be combined as appropriate by one of ordinary skill in the art to form other embodiments as will be apparent to those of skill in the art from the description herein.

Claims (10)

1. The utility model provides a transfer machine of lighter, includes the transfer machine body, its characterized in that: the transfer machine body includes workstation (1), install transmission device (2) on workstation (1), feeding mechanism (12) are installed to the one end of transmission device (2), install accent fire circle equipment mechanism (3) and packing ring equipment mechanism (4) on workstation (1), packing ring equipment mechanism (4) and accent fire circle equipment mechanism (3) opposition dislocation mounting, transfer one side of fire circle equipment mechanism (3) to install some firearm equipment mechanism (5), spring equipment mechanism (6) are installed to one side of some firearm equipment mechanism (5), install wane equipment mechanism (7) on workstation (1), baffle equipment mechanism (8) are installed to one side of wane equipment mechanism (7), firing wire equipment mechanism (9) are installed to one side of baffle equipment mechanism (8), firing wire equipment mechanism (9) are installed to one side and are pressed cap equipment mechanism (10), the one end of workstation (1) is fixed with fire prevention cover equipment mechanism (11).

2. An automated lighter line according to claim 1, wherein: transport mechanism (2) are including transmission motor (13), install transmission band (14) on transmission motor (13), displacement mechanism (16) are installed to the one end of transmission band (14), location cylinder (17) are installed to the one end of displacement mechanism (16), base optic fibre (15) are installed to the bottom of transmission band (14), transfer ring equipment mechanism (3) is including transfer ring displacement motor (18) and transfer ring lift cylinder (19), transfer ring dislocation cylinder (20) are installed to the bottom of transfer ring lift cylinder (19), transfer ring annealing circle material returned cylinder (21) are installed to one side of transfer ring dislocation cylinder (20), transfer ring material returned cylinder (22) are installed to the bottom of transfer ring material returned cylinder (21).

3. An automated line of lighters according to claim 1, wherein: washer equipment mechanism (4) are including packing ring displacement motor (23) and packing ring lift cylinder (24), packing ring dislocation cylinder (25) are installed to the bottom of packing ring lift cylinder (24), packing ring material returned cylinder (26) are installed to one side of packing ring dislocation cylinder (25), packing ring optic fibre is installed to the bottom of packing ring material returned cylinder (26), some firearm equipment mechanism (5) are including mounting bracket (33), install some firearm broken line lift cylinder (36) on mounting bracket (33), some firearm dislocation cylinder (35) are installed to one side of some firearm broken line lift cylinder (36), pay-off motor one (37) are installed to one side of some firearm dislocation cylinder (35), install the pay-off subassembly on mounting bracket (33), pay-off module's one end is installed and is stopped a set optic fibre (39), pay-off motor two (38) are installed to one side of stopping a set optic fibre (39).

4. An automated line of lighters according to claim 3, wherein: the other end of pay-off subassembly is installed some firearm and is got material optic fibre (31), some firearm revolving cylinder (32) are installed to the one end that some firearm got material optic fibre (31), some firearm displacement motor (27) are installed to one side of some firearm revolving cylinder (32), some firearm lift cylinder (28) are installed to one side of some firearm displacement motor (27), some firearm dislocation cylinder (29) are installed to the bottom of some firearm lift cylinder (28), some firearm finger clamping cylinder (30) are installed to one side of some firearm dislocation cylinder (29).

5. An automated line of lighters according to claim 1, wherein: spring equipment mechanism (6) are including mounting panel (40) and spring displacement motor, install spring dislocation cylinder (41) on mounting panel (40), the spring feeding mechanism (42) of blowing is installed to the one end of spring dislocation cylinder (41), it has material optic fibre (43) to install the spring on the spring feeding mechanism (42) of blowing, spring location cylinder (44) are installed to one side that the spring has material optic fibre (43), spring blowing is installed between feeding mechanism (42) and spring dislocation cylinder (41) and is directly shaken (45).

6. An automated line of lighters according to claim 5, wherein: spring equipment lift cylinder is installed to one side of spring assembly lift cylinder, spring assembly dislocation cylinder is installed to one side of spring assembly lift cylinder, rocker equipment mechanism (7) are including mount (47) and rocker equipment displacement motor, install cam motor (46) on mount (47), install cam (48) on cam motor (46), rocker direct vibration (49) are installed to one side of cam (48), rocker location cylinder (50) are installed to the one end of rocker direct vibration (49), rocker optic fibre (52) and rocker dislocation cylinder (53) are installed to one side of rocker location cylinder (50), rocker dislocation cylinder (53) and rocker optic fibre (52) cooperate, compress tightly cylinder (51) is installed to one side of rocker optic fibre (50).

7. An automated lighter line according to claim 6, wherein: wane equipment lift cylinder is installed to one side of wane equipment displacement motor, wane equipment dislocation cylinder is installed to one side of wane equipment lift cylinder, the tight finger cylinder of wane clamp is installed to the bottom of wane equipment dislocation cylinder, baffle equipment mechanism (8) are including baffle displacement motor, baffle equipment lift cylinder is installed to one side of baffle displacement motor, baffle equipment dislocation cylinder is installed to one side of baffle equipment lift cylinder, the baffle optic fibre is installed to the bottom of baffle equipment dislocation cylinder, the baffle straight shake is installed to one side of baffle optic fibre, the baffle circle shakes is installed to the one end of baffle straight shake.

8. An automated lighter line according to claim 1, wherein: the fuse assembling mechanism (9) comprises a fuse displacement motor, a fuse assembling lifting cylinder is installed on one side of the fuse displacement motor, a fuse assembling dislocation cylinder I and a fuse assembling dislocation cylinder II are installed on one side of the bottom of the fuse assembling lifting cylinder, a fuse optical fiber is installed at one end of the fuse assembling dislocation cylinder II, and a fuse circular vibrator is installed on one side of the fuse assembling lifting cylinder.

9. An automated line of lighters according to claim 1, wherein: according to cap assembly mechanism (10) including according to cap displacement motor and according to cap cam displacement motor, install according to cap assembly positioning cylinder according to one side of cap displacement motor, install according to cap assembly dislocation cylinder according to bottom one side of cap assembly positioning cylinder, install according to cap assembly lift cylinder according to one side of cap assembly dislocation cylinder, install according to cap cam displacement motor and directly shake according to the cap, install according to cap dislocation cylinder according to the one end that the cap directly shakes, install according to cap optic fibre according to the one end of cap dislocation cylinder.

10. An automated line of lighters according to claim 1, wherein: fire prevention cover equipment mechanism (11) are including fire prevention cover displacement motor, fire prevention cover equipment cylinder is installed to one side of fire prevention cover displacement motor, fire prevention cover equipment dislocation cylinder is installed to one side of fire prevention cover equipment cylinder, fire prevention cover dislocation cylinder is installed to one side of fire prevention cover equipment dislocation cylinder, fire prevention cover material returned cylinder is installed to the one end of fire prevention cover dislocation cylinder, fire prevention cover optic fibre is installed to one side of fire prevention cover material returned cylinder.

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