CN112874855A

CN112874855A - Automatic packaging system for sand gun processing

Info

Publication number: CN112874855A
Application number: CN202110288805.0A
Authority: CN
Inventors: 李仕辉; 王水源; 邱建; 李旺; 李路; 周剑锋
Original assignee: Liuyang Shanzao Export Fireworks Manufacturing Co ltd
Current assignee: Liuyang Shanzao Export Fireworks Manufacturing Co ltd
Priority date: 2021-03-18
Filing date: 2021-03-18
Publication date: 2021-06-01
Anticipated expiration: 2041-03-18
Also published as: CN112874855B

Abstract

The invention discloses an automatic packaging system for sand gun processing, which comprises a sand gun feeding device, a bubble cap forming device, a bubble cap sealing device, a bubble cap dividing device and a bubble cap packaging device, wherein the bubble cap forming device, the bubble cap sealing device and the bubble cap dividing device are arranged on a machine body; the bubble cap forming device is arranged at the left end of the machine body and comprises an unwinding mechanism, a forming mechanism and a first conveying mechanism, the unwinding mechanism comprises an unwinding roller and a rotating rolling shaft, the forming mechanism comprises a preheating station and a stamping station, and the first conveying mechanism is arranged at the right end of the stamping station; the first conveying mechanism is provided with a mounting frame. Firstly, the bubble cap is processed, the sand gun is subjected to feeding, material arranging, sequencing, guiding and conveying, sandy soil and dust are removed in the process, the sand gun is adsorbed by a vacuum air pump through a soft or elastic suction head to enter the bubble cap, then the bubble cap is sealed and cut, the bubble cap is packed into a box to replace manual packaging, the packaging efficiency is high, and the packaging process is safe. The automatic packaging in the sand gun processing is realized.

Description

Automatic packaging system for sand gun processing

Technical Field

The invention relates to the field of sand gun processing equipment, in particular to an automatic packaging system for sand gun processing.

Background

The sand firecracker is a throwing firecracker and is a friction type toy firework product which can generate a sound effect by throwing and throwing. The safety sand gun is popular across the country with the advantages of novelty, uniqueness, interest, safety and the like. The sand gun is convenient to play, does not need to be ignited, and can make a crisp 'split horn' sound when being stepped on or thrown by hands.

The packing carton that present toy sand big gun adopted is simple carton packing, and many sand big guns are directly put into to inside, and the packing is coarse to fall the big gun and be loose state, collide each other in the transportation, cause the auto-explosion accident easily. For avoiding collision between the adjacent sand big gun, the packaging structure who packs buffer material such as sawdust ash or wheat bran in the packing carton now has, however, this kind of filling mode, firstly can not separate adjacent sand big gun completely, secondly the filler material this application is inflammable, if the sand big gun explosion, the easier incident that causes of starting a fire, the third is that raise dust is great in the packaging process, influences workshop environment. In view of the above problems, the invention provides a packaging box and a toy cannon (CN201920373966.8) suitable for the packaging box, wherein the packaging box comprises an outer box, a buffer pad and an inner box; the inner box comprises an outer protection cover and an inner protection cover which are matched with each other, and bulges and grooves which are mutually clamped are respectively arranged on the peripheral surfaces of the outer protection cover and the inner protection cover; the support surface of the inner support cover is provided with at least one row of toy cannon placing grooves, adjacent toy cannon placing grooves are separated, and the inner support cover is further provided with a drying strip placing groove. The sand gun comprises a packaging paper tube, a fixing and priming agent, a detonation agent and sand; the two ends of the packaging paper cylinder are sealed by the fixing and priming agent, and a cavity formed by sealing is filled with the detonation medicine and the sand. The utility model has good overall buffer effect; outer box is the carton, and interior box is the plastic uptake cover, and interior box sets up two-layerly and matches each other, sets up spaced standing groove in the inlayer, effectively separates the firecracker, avoids adjacent collision, thoroughly avoids the possibility of collision explosion. But its packing is artifical the packing, wastes time and energy and has certain dust pollution simultaneously, causes certain injury to the human body, because the sand big gun is the product that easily detonates, can cause the sand big gun explosion when traditional mechanical equipment presss from both sides it, can produce certain dust and medicine simultaneously at the material loading in-process, based on above problem, I department develops an automatic packaging system for the processing of sand big gun.

Disclosure of Invention

The invention aims to provide an automatic packaging system for sand gun processing, which is used for realizing the automatic packaging function of sand guns.

In order to achieve the purpose, the invention provides the following technical scheme: an automatic packaging system for sand gun processing comprises a bubble cap forming device, a sand gun feeding device, a bubble cap sealing device, a bubble cap dividing device and a bubble cap packaging device, wherein the bubble cap forming device, the bubble cap sealing device and the bubble cap dividing device are arranged on a machine body;

the bubble cap forming device is arranged at the left end of the machine body and comprises an unwinding mechanism, a forming mechanism and a first conveying mechanism, the unwinding mechanism comprises an unwinding roller and a rotating rolling shaft, the forming mechanism comprises a preheating station and a stamping station, and the first conveying mechanism is arranged at the right end of the stamping station; the first conveying mechanism is provided with an installation frame.

As a further improvement of the above technical solution:

the sand gun feeding device is arranged on the right side of the mounting frame and comprises a vibration frame, a conveying disc, a feeding disc and a vacuum carrying assembly, wherein the feeding disc and the conveying disc are arranged on the vibration frame, the conveying disc comprises a first conveying disc and a second conveying disc, the first conveying disc is connected with the feeding disc, the second conveying disc is connected with the feeding disc, an outlet of the first conveying disc is arranged above an inlet of the second conveying disc, a one-level ash leakage groove is formed between the first conveying disc and the second conveying disc, and a scraping roller is arranged on the first conveying disc.

The second delivery tray exit is provided with the third delivery tray, be provided with second grade ash leakage groove between second delivery tray and the third delivery tray, second grade ash leakage groove upper portion is provided with the baffle, all be provided with defeated material passageway on first delivery tray, second delivery tray and the third delivery tray, still be provided with defeated grey passageway on first delivery tray and the second delivery tray, defeated grey passageway sets up in defeated material passageway, be provided with a plurality of ash falling holes on the defeated grey passageway.

The vacuum carrying assembly comprises an absorbing and transporting plate, a vacuum absorbing part arranged below the absorbing and transporting plate and a conveying assembly arranged above the absorbing and transporting plate, the conveying assembly is installed on the installation frame, the absorbing and transporting plate is arranged above the third conveying disc, and the number of the vacuum absorbing part is the same as that of the conveying channels on the third conveying disc.

The bubble cap sealing device is arranged at the right end of the first conveying mechanism and comprises a mounting plate, a heat sealing mechanism and a traction roller, wherein the mounting plate, the heat sealing mechanism and the traction roller are arranged on the machine body, and an aluminum foil film rolling roller, a waste recovery roller and a plurality of tension adjusting rollers are arranged on the mounting plate.

The bubble cap cutting device is arranged on the right side of the bubble cap sealing device and comprises a cutting frame, wherein cutting cylinders are fixedly arranged on two sides of the cutting frame, a lower cutting die holder is fixedly arranged on the inner side of the cutting frame, an upper cutting die holder is fixedly arranged at the upper end of the cutting cylinder, a cutting die holder is fixedly arranged on the lower surface of the upper cutting die holder, a cutting die holder is arranged at the upper end of the lower cutting die holder, the cutting die holder is located right below the cutting die holder, a second conveying mechanism is arranged on the inner side of the lower cutting die holder, the bubble cap packaging device is arranged at the outlet of the second conveying mechanism, and a clamping mechanism is arranged between the bubble cap packaging device and the second conveying mechanism.

The bubble cap packing plant includes third conveying mechanism, filler input mechanism, carton input mechanism, closes box mechanism and fourth conveying mechanism, filler input mechanism quantity is two, sets up in pressing from both sides and gets the mechanism both sides, filler input mechanism includes the live-rollers, connects the flitch, to compression roller, cutting assembly and conveyer belt, carton input mechanism sets up on fourth conveying mechanism, carton input mechanism sets up in third conveying mechanism, it sets up on fourth conveying mechanism to close box mechanism.

The box closing mechanism comprises a cover closing assembly which is symmetrically arranged relative to the fourth conveying mechanism, the cover closing assembly comprises a multi-stage cover closing push piece and a power part which is arranged below the cover closing push piece, and the cover closing push piece is arranged on the power part through an eccentric rod.

The vacuum sucking and transporting device is characterized in that a vacuum channel is arranged in the sucking and transporting plate, a plurality of vent holes are formed in the sucking and transporting plate, the vent holes are connected with the vacuum channel, the vacuum sucking part comprises a connector and a sucking sleeve, the connector is connected with the vent holes, and the sucking sleeve is sleeved on the connector.

The conveying assembly comprises a lifting cylinder, a connecting plate, a sliding block and a sliding rod, the lifting cylinder is respectively connected with the suction conveying plate and the connecting plate through bolts, the connecting plate is connected with the sliding block, and the sliding block is connected to the sliding rod in a sliding mode.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the automatic packaging system for sand cannon processing, the scattered toy sand cannons are orderly and directionally conveyed through the mechanical structure, under the action of the vibrating rack, the sand cannons can enter the conveying channel orderly, and when the sand cannons reach the discharging end, the scattered sand cannons can be arranged in the third conveying disc orderly, so that the vacuum conveying assembly can conveniently convey the sand cannons into the specified bubble cap, and the production efficiency is greatly improved on the premise that the sand cannons are improved in safety by using the capsule-shaped packaging structure.

2. The vacuum carrying assembly adopts the lifting cylinder and the vacuum suction component to adsorb the sand gun, so that the sand gun can be effectively prevented from being detonated, and the safety is ensured.

3. Whole sand big gun packaging system, degree of automation is high, great reduction artifical intensity of labour, and packing quality is good, and packing efficiency is high, has replaced the manual work through mechanical equipment, has guaranteed the safety in the sand big gun packaging process.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is an enlarged view of FIG. 1 at A;

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

FIG. 5 is a schematic structural view of a charging device for a sand gun according to the present invention;

FIG. 6 is a cross-sectional view of a transfer plate of the present invention;

FIG. 7 is an enlarged view of FIG. 6 at B;

FIG. 8 is a schematic structural diagram of a filler dispensing mechanism according to the present invention;

FIG. 9 is a schematic view of a vacuum handling assembly of the present invention;

FIG. 10 is a schematic view of the vacuum transfer assembly of the present invention with the slide bar removed;

FIG. 11 is a cross-sectional schematic view of the vacuum handling assembly of the present invention;

fig. 12 is a front view of the transportation plate and the vacuum suction device.

Reference numerals: 11. a body; 12. an unwinding mechanism; 13. a molding mechanism; 14. a first conveying mechanism; 15. a mounting frame; 121. unwinding rollers; 122. rotating the roller; 131. preheating a station; 132. a stamping station; 21. vibrating the frame; 22. a delivery tray; 23. a feed tray; 24. a material conveying channel; 25. an ash conveying channel; 26. a vacuum handling assembly; 111. a pneumatic valve connector; 221. a first conveyance tray; 222. a second conveyance tray; 223. a first-stage ash leaking groove; 224. a scraping roller; 225. a third conveyance tray; 226. a secondary ash leakage groove; 227. a baffle plate; 251. ash falling holes; 261. a suction plate; 262. a vacuum suction means; 263. A delivery assembly; 31. mounting a plate; 32. a heat sealing mechanism; 33. a traction roller; 311. an aluminum foil roll; 312. a waste recovery roll; 313. a dancer roll; 41. a cutting frame; 42. a material cutting cylinder; 43. a lower cutting die holder; 44. cutting the die holder up; 45. a die cutting tool apron; 46. a die cutting seat; 47. a second conveying mechanism; 48. A gripping mechanism; 51. a third conveying mechanism; 52. a filler dispensing mechanism; 53. a carton feeding mechanism; 54. a carton feed mechanism; 55. a box closing mechanism; 56. a fourth conveying mechanism; 521. a rotating roller; 522. A material receiving plate; 523. pressing rollers; 524. cutting the assembly; 525. a conveyor belt; 551. closing the cover and pushing the sheet; 552. An eccentric rod; 2611. a vacuum channel; 2612. a vent hole; 2621. a connector; 2622. an aspiration sleeve; 2631. a lifting cylinder; 2632. a connecting plate; 2633. a slider; 2634. a slide bar.

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.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 12, the automatic packaging system for sand gun processing of the present embodiment includes a bubble cap forming device, a sand gun feeding device, a bubble cap sealing device, a bubble cap dividing device and a bubble cap packaging device, wherein the bubble cap forming device, the bubble cap sealing device and the bubble cap dividing device are disposed on a machine body 11;

the blister forming device is arranged at the left end of the machine body 11 and comprises an unwinding mechanism 12, a forming mechanism 13 and a first conveying mechanism 14, wherein the unwinding mechanism 12 comprises an unwinding roller 121 and a rotating rolling shaft 122, the forming mechanism 13 comprises a preheating station 131 and a stamping station 132, and the first conveying mechanism 14 is arranged at the right end of the stamping station 132; the first conveying mechanism 14 is provided with a mounting frame 15.

The sand cannon feeding device is arranged on the right side of the mounting frame 15 and comprises a vibration rack 21, a conveying disc 22, a feeding disc 23 and a vacuum carrying assembly 26, wherein the feeding disc 23 and the conveying disc 22 are arranged on the vibration rack 21, the conveying disc 22 comprises a first conveying disc 221 and a second conveying disc 222, the first conveying disc 221 is connected with the feeding disc 23, the second conveying disc 222 is connected with the feeding disc 23, an outlet of the first conveying disc 221 is arranged above an inlet of the second conveying disc 222, a one-level ash leakage groove 223 is formed between the first conveying disc 221 and the second conveying disc 222, and a scraping roller 224 is arranged on the first conveying disc 221.

A third conveying disc 225 is arranged at the outlet of the second conveying disc 222, a second-stage ash leakage groove 226 is arranged between the second conveying disc 222 and the third conveying disc 225, a baffle 227 is arranged at the upper part of the second-stage ash leakage groove 226, the first conveying disc 221, the second conveying disc 222 and the third conveying disc 225 are all provided with a material conveying channel 24, the first conveying disc 221 and the second conveying disc 222 are also provided with an ash conveying channel 25, the ash conveying channel 25 is arranged in the material conveying channel 24, and the ash conveying channel 25 is provided with a plurality of ash falling holes 251.

The vacuum transfer assembly 26 includes a suction plate 261, vacuum suction members 262 disposed below the suction plate 261, and a conveying assembly 263 disposed above the suction plate 261, wherein the conveying assembly 263 is mounted on the mounting frame 15, the suction plate 261 is disposed above the third conveying tray 225, and the number of the vacuum suction members 262 is the same as that of the conveying paths 24 on the third conveying tray 225.

The bubble cap sealing device is arranged at the right end of the first conveying mechanism 14 and comprises an installation plate 31, a heat sealing mechanism 32 and a traction roller 33 which are arranged on the machine body 11, and an aluminum foil film rolling roller 311, a waste recovery roller 312 and a plurality of tension adjusting rollers 313 are arranged on the installation plate 31.

The blister cutting device is arranged on the right side of the blister sealing device and comprises a cutting frame 41, cutting cylinders 42 are fixedly arranged on two sides of the cutting frame 41, a lower cutting die holder 43 is fixedly arranged on the inner side of the cutting frame 41, an upper cutting die holder 44 is fixedly arranged at the upper end of the cutting cylinders 42, a cutting die holder 45 is fixedly arranged on the lower surface of the upper cutting die holder 44, a cutting die holder 46 is arranged at the upper end of the lower cutting die holder 43, the cutting die holder 46 is located under the cutting die holder 45, a second conveying mechanism 47 is arranged on the inner side of the lower cutting die holder 43, the blister packaging device is arranged at an outlet of the second conveying mechanism 47, and a clamping mechanism 48 is arranged between the blister packaging device and the second conveying.

The blister packaging device comprises a third conveying mechanism 51, a filler feeding mechanism 52, a carton feeding mechanism 53, a carton feeding mechanism 54, a carton closing mechanism 55 and a fourth conveying mechanism 56, wherein the number of the filler feeding mechanisms 52 is two, the filler feeding mechanisms are arranged on two sides of the clamping mechanism 48, the filler feeding mechanism 52 comprises a rotating roller 521, a material receiving plate 522, a pair of pressing rollers 523, a cutting assembly 524 and a conveying belt 525, the carton feeding mechanism 53 is arranged on the fourth conveying mechanism 56, the carton feeding mechanism 54 is arranged on the third conveying mechanism 51, and the carton closing mechanism 55 is arranged on the fourth conveying mechanism 56.

The closing mechanism 55 comprises a closing cover assembly symmetrically arranged about the fourth conveying mechanism 56, the closing cover assembly comprises a multi-stage closing cover push plate 551 and a power part arranged below the closing cover push plate 551, and the closing cover push plate 551 is installed on the power part through an eccentric rod 552.

The sucking and transporting plate 261 is internally provided with a vacuum channel 2611, the sucking and transporting plate 261 is provided with a plurality of vent holes 2612, the vent holes 2612 are connected with the vacuum channel 2611, the vacuum sucking component 262 comprises a connector 2621 and a sucking sleeve 2622, the connector 2621 is connected with the vent holes 2612, and the connector 2621 is sleeved with the sucking sleeve 2622. The connector 2621 is pneumatic valve, absorbs the cover 2622 and is soft rubber material.

The conveying assembly 263 includes a lifting cylinder 2631, a connecting plate 2632, a slider 2633 and a sliding rod 2634, the lifting cylinder 2631 is connected to the sucking and transporting plate 261 and the connecting plate 2632 through bolts, the connecting plate 2632 is connected to the slider 2633, and the slider 2633 is slidably connected to the sliding rod 2634. The vacuum handling assembly 26 is mounted on the mounting frame 15 by slide bars 2634.

The working principle of the invention is as follows:

when the user uses the device, the user firstly puts the PVC film roll into the unwinding roller 121, and leads the film roll out to the forming mechanism 13 by rotating the rolling shaft 122 for bubble cap forming. The formed blisters are run on a first conveyor 14.

The sand cannon is put into a feeding disc 23, a plurality of holes are formed in the feeding disc 23, a vibration machine frame 21 is opened, soil, gunpowder and the like mixed in the sand cannon fall out of the holes, the vibration machine frame 21 vibrates to drive the sand cannon to be conveyed to a first conveying disc 221, the sand cannon enters a conveying channel 24, sand during vibration enters an ash conveying channel 25, the sand falls from a first-level ash leakage groove 223, a second-level ash leakage groove 226 and an ash falling hole 251, and enters an ash receiving container arranged at the bottom, the ash receiving container is not shown in the figure, a scraping roller 224 is used for enabling the sand cannon to enter the conveying channel 24, a baffle 227 is used for enabling the sand cannon to smoothly enter a third conveying disc 225 from a second conveying disc 222, so that the vacuum conveying assembly 26 can conveniently adsorb the sand cannon, a suction conveying plate 261 is arranged in a ladder shape, so that a one-time arrangement of the sand cannon can be smoothly carried out, a conveying assembly 263 descends, a vacuum part 262 sucks the sand cannon, and can reduce hard contact with the, avoid appearing the sand big gun situation of detonating, after adsorbing, conveying component 263 goes upward, and other cylinder drive conveying component 263 slide on mounting bracket 15, place the sand big gun in appointed bubble cap, and the repeating process is all put into the bubble cap with the sand big gun, and when placing the sand big gun, the bubble cap gets into bubble cap sealing device along with first conveying mechanism 14 motion, seals.

The vacuum suction process comprises the following specific steps: the whole body is installed on a sand cannon production device through a sliding rod 2634, before grabbing, the pneumatic valve joint 111 is connected with a vacuum pump through an external air pipe, the size of air sucked in a vacuum channel 2611 is adjusted, so that the sand cannon can be grabbed, in the grabbing process, the lifting cylinder 2631 drives the sucking and transporting plate 261 to descend to the upper surface of the sand cannon to be transported, the vacuum pump sucks air in the vacuum channel 2611 through the pneumatic valve joint 111 through the air pipe, so that the vent hole 2612 and the sucking sleeve 2622 generate suction force, the sand cannon is sucked, the lifting cylinder 2631 drives the sucking and transporting plate 261 to ascend, the sliding block 2633 slides on the sliding rod 2634 (the sliding block 2633 is pushed to move pneumatically or electrically), the whole body is driven to move, the whole body stops after moving to a specified position, the lifting cylinder 2631 drives the sucking and transporting plate to descend 261, the vacuum pump conveys air in the vacuum channel 2611 through the pneumatic valve joint, produce the push-and-pull power, the sand big gun that will absorb on absorbing cover 2622 pushes away, place in the bubble cap, back and forth movement, carry the sand big gun, adopt vacuum adsorption's principle, adopt vacuum suction, absorb the sand big gun, the problem of grabbing incorrect mode among the prior art or grabbing too big power and leading to the sand big gun explosion easily has been avoided, the potential safety hazard has been reduced, and it is multiseriate echelonment to absorb cover 2622, once can snatch the sand big gun of echelonment, and can be cascaded place on the package, the package removes the back, can be cascaded place once more, come and go the some completions of placing in the package, be favorable to improving the efficiency of absorbing and packing.

The use of bubble cap sealing device is ripe prior art, and mainly used seals the plastic-aluminum film on the bubble cap, and sealed the back, gets into bubble cap segmenting device and cuts apart the bubble cap, and segmenting device is prior art, and the description is omitted here, cuts apart the back and divides the bubble cap to fall into second conveying mechanism 47, gets into bubble cap packing plant through pressing from both sides mechanism 48 clamp.

The cutting component 524 of the filler feeding mechanism 52 cuts the foam film roll of the rotating roller 521, the cut foam film roll enters the conveyer belt 525 and is conveyed to the third conveying mechanism 51 by the conveyer belt 525, the bubble cap is placed into the third conveying mechanism 51 with the foam sheet by the clamping mechanism 48, and then the foam sheet is conveyed into the third conveying mechanism 51 by the next filler feeding mechanism 52 to form the sandwich of the foam sheet, the bubble cap and the foam sheet. The carton feeding mechanism 53 opens the carton, the carton feeding mechanism 54 feeds the sandwich to the carton, the carton is closed under the action of the carton closing mechanism 55, and the eccentric rod 552 rotates to drive the cover closing push piece 551 to reciprocate when the carton is closed.

Whole packaging process, it is efficient, the error is little, is difficult for taking place the incident, can effectually get rid of the dust, the medicine etc. of the production in the sand big gun course of working simultaneously, can guarantee the quality of use and the save time of sand big gun.

The foregoing is merely an example of the present invention and common general knowledge of known specific structures and features of the embodiments is not described herein in any greater detail. It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes 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.

Claims

1. The utility model provides a sand big gun processing is with automatic packaging system which characterized in that: the bubble cap packaging machine comprises a bubble cap forming device, a sand gun feeding device, a bubble cap sealing device, a bubble cap dividing device and a bubble cap packaging device, wherein the bubble cap forming device, the bubble cap sealing device and the bubble cap dividing device are arranged on a machine body (11);

the bubble cap forming device is arranged at the left end of the machine body (11) and comprises an unwinding mechanism (12), a forming mechanism (13) and a first conveying mechanism (14), the unwinding mechanism (12) comprises an unwinding roller (121) and a rotating rolling shaft (122), the forming mechanism (13) comprises a preheating station (131) and a stamping station (132), and the first conveying mechanism (14) is arranged at the right end of the stamping station (132); the first conveying mechanism (14) is provided with a mounting frame (15).

2. The automatic packaging system for sand gun processing according to claim 1, wherein the sand gun loading device is arranged on the right side of the mounting frame (15) and comprises a vibrating frame (21), a conveying disc (22), a feeding disc (23) and a vacuum handling assembly (26), the feeding disc (23) and the conveying disc (22) are both arranged on the vibrating frame (21), the conveying disc (22) comprises a first conveying disc (221) and a second conveying disc (222), the first conveying disc (221) is connected with the feeding disc (23), the second conveying disc (222) is connected with the feeding disc (23), the outlet of the first conveying disc (221) is arranged above the inlet of the second conveying disc (222), a primary ash leakage groove (223) is arranged between the first conveying disc (221) and the second conveying disc (222), and a material scraping roller (224) is arranged on the first conveying disc (221).

3. The automatic packaging system for sand blasting according to claim 2, wherein a third conveying disc (225) is arranged at the outlet of the second conveying disc (222), a second-stage ash leakage groove (226) is arranged between the second conveying disc (222) and the third conveying disc (225), a baffle (227) is arranged at the upper part of the second-stage ash leakage groove (226), the first conveying disc (221), the second conveying disc (222) and the third conveying disc (225) are all provided with a material conveying channel (24), the first conveying disc (221) and the second conveying disc (222) are also provided with an ash conveying channel (25), the ash conveying channel (25) is arranged in the material conveying channel (24), and a plurality of ash falling holes (251) are arranged on the ash conveying channel (25).

4. The automatic packing system for sand-blasting processing according to claim 3, wherein said vacuum carrying assembly (26) comprises a suction plate (261), vacuum suction members (262) disposed under said suction plate (261), and a conveying assembly (263) disposed above said suction plate (261), said conveying assembly (263) is mounted on a mounting frame (15), said suction plate (261) is disposed above a third conveying plate (225), and the number of said vacuum suction members (262) is the same as the number of said conveying passages (24) on said third conveying plate (225).

5. The automatic packaging system for the sand blasting processing according to claim 4, wherein the bubble cap sealing device is arranged at the right end of the first conveying mechanism (14) and comprises a mounting plate (31), a heat sealing mechanism (32) and a traction roller (33) which are arranged on the machine body (11), and an aluminum foil film rolling roller (311), a waste recovery roller (312) and a plurality of tension adjusting rollers (313) are arranged on the mounting plate (31).

6. Automatic packaging system for sand blasting according to claim 1, wherein said blister dividing means is arranged on the right side of the blister sealing means and comprises a cutting frame (41), a material cutting cylinder (42) is fixedly arranged on two sides of the cutting frame (41), a lower cutting die holder (43) is fixedly arranged on the inner side of the cutting frame (41), an upper cutting die holder (44) is fixedly arranged at the upper end of the material cutting cylinder (42), a cutting die tool holder (45) is fixedly arranged on the lower surface of the upper cutting die holder (44), the upper end of the lower die cutting seat (43) is provided with a die cutting seat (46), the die cutting seat (46) is positioned right below the die cutting seat (45), a second conveying mechanism (47) is arranged on the inner side of the lower cutting die holder (43), the blister packaging device is arranged at an outlet of the second conveying mechanism (47), a clamping mechanism (48) is arranged between the blister packaging device and the second conveying mechanism (47).

7. The automatic packaging system for sand blasting according to claim 1, wherein: the blister packaging device comprises a third conveying mechanism (51), a filler feeding mechanism (52), a carton feeding mechanism (53), a carton feeding mechanism (54), a box closing mechanism (55) and a fourth conveying mechanism (56), wherein the number of the filler feeding mechanisms (52) is two, the filler feeding mechanism (52) is arranged on two sides of the clamping mechanism (48), the filler feeding mechanism (52) comprises a rotating roller (521), a material receiving plate (522), a pair of pressing rollers (523), a cutting assembly (524) and a conveying belt (525), the carton feeding mechanism (53) is arranged on the fourth conveying mechanism (56), the carton feeding mechanism (54) is arranged on the third conveying mechanism (51), and the box closing mechanism (55) is arranged on the fourth conveying mechanism (56).

8. The automatic packaging system for sand blasting according to claim 1, wherein: the box closing mechanism (55) comprises a cover closing assembly which is symmetrically arranged relative to the fourth conveying mechanism (56), the cover closing assembly comprises a multi-stage cover closing push piece (551) and a power part which is arranged below the cover closing push piece (551), and the cover closing push piece (551) is installed on the power part through an eccentric rod (552).

9. The automatic packaging system for sand blasting according to claim 5, wherein: inhale and be equipped with vacuum channel (2611) in fortune board (261), it is equipped with a plurality of air vents (2612) on fortune board (261) to inhale, air vent (2612) link to each other with vacuum channel (2611), vacuum suction part (262) are including connector (2621) and absorption cover (2622), connector (2621) link to each other with air vent (2612), the cover is equipped with on connector (2621) and inhales and gets cover (2622).

10. The automatic packaging system for sand blasting according to claim 9, wherein: the conveying assembly (263) comprises a lifting cylinder (2631), a connecting plate (2632), a sliding block (2633) and a sliding rod (2634), the lifting cylinder (2631) is respectively connected with the suction conveying plate (261) and the connecting plate (2632) through bolts, the connecting plate (2632) is connected with the sliding block (2633), and the sliding block (2633) is connected to the sliding rod (2634) in a sliding mode.