CN214820818U - Bulb shell folding machine - Google Patents

Abstract

The utility model discloses a cell-shell folder, including dialling material hem mechanism, set up in dialling the terminal cell-shell stacked structure of material hem mechanism, the mechanism is deposited to semi-manufactured goods, dial material hem mechanism including being used for carrying about treating the hem cell-shell dial material mechanism, the hem equipment includes hem push mechanism, the hem support, push down the driving piece, the drive assembly, thermoplastic hem cutter unit, the hem base, left side hem subassembly, right side hem subassembly, the mechanism is deposited to semi-manufactured goods includes length adjustment structure, the width is adjusted the structure, a toggle structure for dialling the cell-shell down, inhale and send the structure, the mechanism is deposited to semi-manufactured goods is placed the tip of dialling material mechanism about with the semi-manufactured goods cell-shell and is carried, semi-manufactured goods carries the hem in moving the hem support along hem push mechanism. The material mechanism, hem equipment carry out the hem of two circuits simultaneously about adopting, adopt cell-shell stacked structure to accept and gather, degree of automation is high, has solved the problem of hem inefficiency.

Description

Bulb shell folding machine

Technical Field

The utility model relates to a flanging machine field especially relates to a cell-shell folder.

Background

The current technology in the market is as follows: a manual work individual operation semi-automatic flanging machine, specific semi-automatic flanging machine theory of operation does: manually placing a single bulb shell needing edge folding on a stainless steel plate with a fixed size, starting a switch, descending a mechanism to perform edge folding, then ascending the mechanism to return to the original position, manually taking out folded products, manually stacking, and repeating the action.

However, the existing hemming machine has the following defects:

the flanging efficiency of the flanging machine on the market is low, one bulb shell can be flanged on one line at the same time, the size adjustment is inconvenient, the efficiency is low, and the quality is unstable.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, one of the purposes of the utility model is to provide a bulb shell folding machine which can solve the problem of lower flanging efficiency.

The utility model discloses an one of the purpose adopts following technical scheme to realize:

a bubble shell folding machine comprises a material shifting and edge folding mechanism, a bubble shell stacking structure arranged at the tail end of the material shifting and edge folding mechanism and a semi-finished product storage mechanism arranged at the front end of the material shifting and edge folding mechanism, wherein the material shifting and edge folding mechanism comprises a left material shifting mechanism, a right material shifting mechanism and edge folding equipment, the left material shifting mechanism and the right material shifting mechanism are used for conveying bubble shells to be folded, the edge folding equipment comprises an edge folding pushing mechanism, an edge folding support, a downward pressing driving piece fixed on the edge folding support, a transmission assembly connected with the downward pressing driving piece, a thermoplastic edge folding cutter assembly connected with the transmission assembly, an edge folding base right opposite to the thermoplastic edge folding cutter assembly, a left edge folding assembly and a right edge folding assembly, and the left edge folding assembly and the right edge folding assembly are arranged at two ends of the edge folding base; the semi-finished product storage mechanism comprises a length adjusting structure for adjusting the storage length, a width adjusting structure for adjusting the storage width, a shifting structure for shifting the blister down and a sucking and conveying structure for sucking the shifted blister, and the sucking and conveying structure is positioned at the lower side of the shifting structure; the semi-finished product storage mechanism is used for placing semi-finished product shells to the end parts of the left and right material stirring mechanisms for conveying, and the semi-finished products move into the flanging bracket along the flanging pushing mechanism for flanging.

Further, the length adjustment structure includes first lead screw, the first engaging wheel of being connected with first lead screw transmission, with the driven second engaging wheel of first engaging wheel meshing, with driven second lead screw, the length adjustment board of second engaging wheel, the second lead screw with length adjustment board threaded connection rotates first lead screw is in order to adjust the position of length adjustment board.

Further, the width adjustment structure includes conflict main part, two width locating parts, the conflict main part is provided with the adjustment tank that is used for adjusting the width, the width locating part passes through the screw lock solid and is in on the adjustment tank, adjusting screw's mounted position is in order to adjust two the distance of width locating part.

Further, stir the structure including stir drive assembly, dial down the piece, stir drive assembly with dial down a fixed connection and drive dial down the piece and stir from top to bottom, dial down the lower extreme that the piece is located the stack bubble shell.

Furthermore, the sucking and conveying structure comprises an adjusting cylinder assembly, an upper plate and a lower plate and a sucker, wherein the adjusting cylinder assembly is fixedly connected with the upper plate and the lower plate and drives the upper plate and the lower plate to move up and down, and the sucker is arranged on the upper plate and the lower plate.

Furthermore, the thermoplastic flanging knife assembly comprises a first flanging knife and a second flanging knife, the transmission assembly is provided with an upper adjusting screw rod, the upper adjusting screw rod is in threaded connection with the upper portion of the first flanging knife, and the upper adjusting screw rod is rotated to adjust the distance from the first flanging knife to the second flanging knife.

Further, the hem support is provided with the hem station, hem push mechanism include propelling movement motor, propelling movement belt, with propelling movement belt fixed connection's propelling movement spare, the propelling movement motor drives the propelling movement belt removes, makes the propelling movement spare pushes away the cell-shell the hem station.

Further, the right side hem assembly comprises a hem driving piece, a hem plate and a position fixing plate for limiting the position of the bulb shell, the hem driving piece is fixedly connected with the hem plate and drives the hem plate to move so as to hem, and the position fixing plate is arranged above the hem plate.

Further, the left and right material shifting mechanisms comprise material shifting mounting assemblies and shifting assemblies, and each material shifting mounting assembly comprises a material shifting mounting frame and a guide shaft mounted on the material shifting mounting frame; the material shifting mounting frame is provided with a material shifting driving piece for driving the shifting assembly to move; the stirring assembly comprises a sliding part, a stirring connecting piece fixed with the sliding part and a stirring piece arranged at the lower part of the stirring connecting piece; the sliding part is slidably mounted on the guide shaft, and the material stirring driving part drives the stirring assembly to move left and right to move the cell shell to be flanged to a corresponding position.

Furthermore, the cell shell stacking structure comprises a suction conveying mechanism, a temporary storage mechanism, a stacking assembly and a pushing mechanism arranged on the side part of the temporary storage mechanism, wherein the temporary storage mechanism comprises an upper pushing assembly, a temporary storage assembly arranged below the upper pushing assembly and a lower side adjusting assembly, and the lower side adjusting assembly drives the temporary storage assembly to move up and down; absorb behind the conveying mechanism absorption cell-shell with the cell-shell move to under the upper portion bulldozes the subassembly, the upper portion bulldozes the subassembly and pushes away the cell-shell put to in the subassembly of keeping in, downside adjusting part adjusts the position of the subassembly of keeping in makes the cell-shell in the subassembly of keeping in piles up and places, pushing mechanism promotes the cell-shell of piling up and makes it follow the subassembly of keeping in moves the subassembly of piling up.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the material shifting and edge folding mechanism comprises a left material shifting mechanism, a right material shifting mechanism, edge folding equipment, an edge folding pushing mechanism, an edge folding support, a downward pressing driving piece, a transmission assembly, a thermoplastic edge folding cutter assembly, an edge folding base, a left edge folding assembly and a right edge folding assembly, wherein the left material shifting mechanism and the right material shifting mechanism are used for conveying a shell to be folded; the semi-finished product storage mechanism comprises a length adjusting structure for adjusting the storage length, a width adjusting structure for adjusting the storage width, a shifting structure for shifting the blister down and a sucking and conveying structure for sucking the shifted blister, and the sucking and conveying structure is positioned at the lower side of the shifting structure; the semi-finished product storage mechanism is used for placing semi-finished product shells to the end parts of the left and right material stirring mechanisms for conveying, and the semi-finished products move into the flanging bracket along the flanging pushing mechanism for flanging. The material mechanism, hem equipment carry out the hem of two circuits simultaneously about adopting, adopt cell-shell stacked structure to accept and gather, degree of automation is high, has solved the problem of hem inefficiency.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented according to the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more obvious and understandable, the following preferred embodiments are described in detail with reference to the accompanying drawings.

Drawings

Fig. 1 is a perspective view of a preferred embodiment of the bulb shell folding machine of the present invention;

fig. 2 is a perspective view of the blister folder shown in fig. 1;

fig. 3 is another perspective view of the blister folder shown in fig. 1;

FIG. 4 is a perspective view of the kick-out hemming mechanism;

FIG. 5 is a perspective view of the kickoff and hemming mechanism of FIG. 4;

FIG. 6 is another perspective view of the setting and hemming mechanism of FIG. 4;

FIG. 7 is a further perspective view of the kickoff and hemming mechanism of FIG. 4;

fig. 8 is a perspective view of a blister stack;

fig. 9 is a perspective view of the blister stack shown in fig. 8;

fig. 10 is another perspective view of the blister stack shown in fig. 8.

In the figure: 100. a material pulling and edge folding mechanism; 200. a material pulling and edge folding mechanism; 10. a conveyor belt; 101. a conveying station; 20. a material poking and mounting component; 21. a material poking mounting rack; 22. a guide shaft; 23. a material poking driving piece; 231. a material shifting belt; 30. the component is stirred; 31. a sliding part; 32. a material poking connecting piece; 33. a toggle piece; 40. a flanging device; 41. a hem pushing mechanism; 411. a pushing motor; 412. pushing the belt; 413. a pushing member; 42. a flanging bracket; 421. a flanging station; 43. pressing down the driving member; 44. a transmission assembly; 441. an upper adjusting screw rod; 45. a thermoplastic hemming cutter assembly; 451. a first edge folding knife; 452. a second flanging knife; 46. a flanging base; 47. a left hem assembly; 48. a right hem assembly; 481. a hem driving member; 482. a hemming plate; 483. a position fixing plate; 49. a lower adjusting seat; 491. a lower adjusting screw rod; 401. a blocking cylinder; 4011. a blocking member; 300. a blister stack structure; 60. a suction conveying mechanism; 61. a linear frame body; 62. a suction conveying assembly; 621. a conveying motor; 622. a suction-grip connector; 623. a suction head; 70. a temporary storage mechanism; 71. an upper pushing assembly; 711. a push drive member; 712. a push plate; 72. a temporary storage component; 73. a lower adjustment assembly; 731. a lower side adjusting motor; 732. a lower adjusting screw rod; 733. a receiving member; 734. a limiting component; 80. stacking the components; 90. a pushing mechanism; 400. a semi-finished product storage mechanism; 4010. a length adjustment structure; 40101. a first lead screw; 4012. a first meshing wheel; 4013. a second meshing wheel; 4014. a second lead screw; 4015. a length adjustment plate; 402. a width adjustment structure; 4021. abutting against the main body; 4022. an adjustment groove; 4023. a width limiting member; 403. a toggle structure; 4031. the driving component is stirred; 4032. a lower pulling member; 404. a suction structure; 4041. adjusting the cylinder assembly; 4042. an upper plate and a lower plate; 4043. and (4) sucking discs.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

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

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1-3, a blister folding machine includes a material-ejecting and folding mechanism 200, a blister stacking structure 300 disposed at the end of the material-ejecting and folding mechanism 200, and a semi-finished product storage mechanism 400 disposed at the front end of the material-ejecting and folding mechanism 200, wherein the material-ejecting and folding mechanism 200 includes a left material-ejecting mechanism 100 and a right material-ejecting mechanism 100 for conveying blisters to be folded, and a folding device 40, the folding device 40 includes a folding-pushing mechanism 41 connected with the left material-ejecting mechanism 100 and the right material-ejecting mechanism 100, a folding bracket 42, a pressing-down driving member 43 fixed on the folding bracket 42, a transmission assembly 44 connected with the pressing-down driving member 43, a thermoplastic folding knife assembly 45 connected with the transmission assembly 44, a folding base 46 facing the thermoplastic folding knife assembly 45, a left folding assembly 47, and a right folding assembly 48, and the left folding assembly 47 and the right folding assembly 48 are disposed at two ends of the folding base 46; the semi-finished product storage mechanism 400 comprises a length adjusting structure 4010 for adjusting the storage length, a width adjusting structure 402 for adjusting the storage width, a toggle structure 403 for pulling the blister down, and a sucking and conveying structure 404 for sucking the pulled blister down, wherein the sucking and conveying structure 404 is positioned at the lower side of the toggle structure 403; the semi-finished product storage mechanism 400 places the semi-finished product shells at the end parts of the left and right material stirring mechanisms 100 for conveying, and the semi-finished products move into the folding edge bracket 42 along the folding edge pushing mechanism 41 for folding edges. The material mechanism 100, hem equipment 40 carry out the hem of two circuits simultaneously about adopting, adopt cell-shell stack structure 300 to accept and gather, and degree of automation is high, has solved the problem that the hem is inefficient.

Preferably, the length adjustment structure 4010 comprises a first lead screw 40101, a first engaging wheel 4012 in transmission connection with the first lead screw 40101, a second engaging wheel 4013 in transmission connection with the first engaging wheel 4012, a second lead screw 4014 in transmission connection with the second engaging wheel 4013, and a length adjustment plate 4015, wherein the second lead screw 4014 is in threaded connection with the length adjustment plate 4015, and the first lead screw 40101 is rotated to adjust the position of the length adjustment plate 4015. The width adjusting structure 402 includes a contact main body 4021 and two width limiting members 4023, the contact main body 4021 is provided with an adjusting groove 4022 for adjusting the width, the width limiting members 4023 are locked on the adjusting groove 4022 by screws, and the installation position of the screws is adjusted to adjust the distance between the two width limiting members 4023. The length adjustment structure 4010 and the width adjustment structure 402 are provided to be suitable for various specifications.

Preferably, the toggle structure 403 includes a toggle driving component 4031 and a lower toggle member 4032, the toggle driving component 4031 and the lower toggle member 4032 are fixedly connected to drive the lower toggle member 4032 to toggle up and down, and the lower toggle member 4032 is located at the lower end of the stacked blister. The sucking and conveying structure 404 comprises an adjusting cylinder assembly 4041, an upper plate 4042, a lower plate 4042 and a suction cup 4043, wherein the adjusting cylinder assembly 4041 is fixedly connected with the upper plate 4042 and drives the upper plate 4042 to move up and down, and the suction cup 4043 is arranged on the upper plate 4042. The sucker 4043 is arranged to: after the semi-finished blister is sucked by the suction cup 4043, the adjusting cylinder assembly 4041 drives the suction cup 4043 to move to the conveying belt.

Referring to fig. 4-7, the material-shifting and edge-folding mechanism 200 includes a left material-shifting mechanism 100 and a right material-shifting mechanism 100 for conveying the shells to be folded, and an edge-folding device 40, where the edge-folding device 40 includes an edge-folding pushing mechanism 41 connected to the left material-shifting mechanism 100 and the right material-shifting mechanism 100, an edge-folding bracket 42, a pressing driving member 43 fixed to the edge-folding bracket 42, a transmission assembly 44 connected to the pressing driving member 43, a thermoplastic edge-folding knife assembly 45 connected to the transmission assembly 44, an edge-folding base 46 facing the thermoplastic edge-folding knife assembly 45, a left edge-folding assembly 47, and a right edge-folding assembly 48, where the left edge-folding assembly 47 and the right edge-folding assembly 48 are disposed at two ends of the edge-folding base 46, the thermoplastic edge-folding knife assembly 45 includes a first edge-folding knife 451 and a second edge-folding knife 452, the transmission assembly 44 is provided with an upper adjusting screw 441, and the upper adjusting screw 441 is in threaded connection with the upper portion of the first edge-folding knife 451, the upper adjusting screw 441 is rotated to adjust the distance from the first hemming blade 451 to the second hemming blade 452. The upper adjusting screw 441 is used for adjusting the folding distance between the first folding knife 451 and the second folding knife 452, so that the folding device can adapt to the bubble shells with various folding sizes, meanwhile, the folding pushing mechanism 41 is used for pushing the bubble shells, and the automation degree is high.

Preferably, the folding support 42 is provided with a folding station 421, the folding pushing mechanism 41 includes a pushing motor 411, a pushing belt 412, and a pushing member 413 fixedly connected to the pushing belt 412, the pushing motor 411 drives the pushing belt 412 to move, so that the pushing member 413 pushes the blister to the folding station 421. The purpose of setting up propelling movement motor 411, propelling movement belt 412, propelling movement piece 413 is: the continuity between different mechanisms is improved, the production efficiency is improved, and the production precision is improved.

Preferably, the thermoplastic hemming knife assembly 45 further includes a third hemming knife, the first hemming knife 451 is parallel to the second hemming knife 452, and the first hemming knife 451, the second hemming knife 452, and the third hemming knife are U-shaped.

Preferably, the right-side folding assembly 48 comprises a folding driving part 481, a folding plate 482 and a position fixing plate 483 for limiting the position of the blister, wherein the folding driving part 481 is fixedly connected with the folding plate 482 and drives the folding plate 482 to move for folding, and the position fixing plate 483 is arranged above the folding plate 482. During edge folding, the downward pressing driving member 43 drives the thermoplastic edge folding knife assembly 45 to move downward, so that the edge folding knife contacts with the edge of the bubble shell to soften the edge, the edge of the bubble shell before softening is abutted against the position fixing plate 483, the edge of the softened bubble shell moves downward to the position of the edge folding plate 482, and the edge folding plate 482 moves to perform edge folding operation.

Preferably, a lower adjusting seat 49 and a lower adjusting screw 491 screwed with the lower adjusting seat 49 are provided at the lower part of the right side folding assembly 48, and the lower adjusting seat 49 is moved relative to the left side folding assembly 47 by rotating the lower adjusting screw 491. The lower adjusting screw 491 is provided to adjust the fixing position of the bulb shell, and is suitable for bulb shells of different specifications.

Preferably, the flanging device 40 further comprises a blocking cylinder 401 and a blocking piece 4011, wherein the blocking cylinder 401 is fixedly connected with the blocking piece 4011 and drives the blocking piece 4011 to move so as to limit the moving position of the bubble shells.

The left and right material shifting mechanism 100 comprises a material shifting mounting assembly 20 and a shifting assembly 30, wherein the material shifting mounting assembly 20 comprises a material shifting mounting frame 21 and a guide shaft 22 mounted on the material shifting mounting frame 21; the material shifting mounting rack 21 is provided with a material shifting driving piece 23 for driving the shifting assembly 30 to move; the toggle assembly 30 comprises a sliding part 31, a material shifting connecting piece 32 fixed with the sliding part 31 and a toggle piece 33 arranged at the lower part of the material shifting connecting piece 32; the sliding part 31 is slidably mounted on the guide shaft 22, and the material stirring driving part 23 drives the stirring component 30 to move left and right, so that the bulb shell to be flanged is moved to a corresponding position. The shell to be flanged is moved to a corresponding station left and right by matching the material poking and mounting assembly 20 and the poking assembly 30, so that the conveying efficiency is high, and the problem of low conveying efficiency is solved.

Preferably, the left and right material stirring mechanism further comprises a conveyer belt 10, and the conveyer belt 10 is located in the middle of the material stirring installation component 20. The purpose of the conveyor belt 10 is to provide for the transport of the blisters in the middle, in preparation for the rear side-to-side movement.

Preferably, the conveying belt 10 is provided with two conveying stations 101, and the two conveying stations 101 are distributed on two sides of the conveying belt 10. The number of the guide shafts 22 is equal to the number of the sliding portions 31, and the number of the guide shafts 22 and the number of the sliding portions 31 are both two. The stability of the whole structure is improved.

Preferably, the left and right material shifting mechanism further comprises a material shifting belt 231, the material shifting driving piece 23 drives the material shifting belt 231 to move, and the material shifting belt 231 is fixedly connected with the shifting assembly 30. The left and right material shifting mechanism further comprises a conveying belt 10, and the extending direction of the material shifting belt 231 is perpendicular to the extending direction of the conveying belt 10. Whole device compact structure, novel structure, design benefit, the suitability is strong, the facilitate promotion.

Referring to fig. 8-10, the blister stacking structure 300 includes a suction conveying mechanism 60, a temporary storage mechanism 70, a stacking assembly 80, and a pushing mechanism 90 disposed at a side portion of the temporary storage mechanism 70, the temporary storage mechanism 70 includes an upper pushing assembly 71, a temporary storage assembly 72 disposed below the upper pushing assembly 71, and a lower adjusting assembly 73, and the lower adjusting assembly 73 drives the temporary storage assembly 72 to move up and down; the bubble shells are moved to the position right below the upper pushing assembly 71 after being sucked by the sucking and conveying mechanism 60, the upper pushing assembly 71 pushes the bubble shells into the temporary storage assembly 72, the lower side adjusting assembly 73 adjusts the position of the temporary storage assembly 72 to enable the bubble shells in the temporary storage assembly 72 to be stacked, and the pushing mechanism 90 pushes the stacked bubble shells to enable the stacked bubble shells to move from the temporary storage assembly 72 to the stacking assembly 80. Adopt and absorb conveying mechanism 60 and remove the cell-shell to temporary storage mechanism 70 storage, adopt temporary storage mechanism 70 and stacker assembly 80's cooperation to accomplish quantitative storage, solved the problem of collection inefficiency.

Preferably, the upper pressing component 71 includes a pressing driving member 711 and a pressing plate 712, and the pressing driving member 711 drives the pressing plate 712 to move. The suction conveying mechanism 60 comprises a linear frame body 61 and a suction conveying assembly 62 arranged on the side portion of the linear frame body 61, the suction conveying assembly 62 comprises a conveying motor 621, a suction grabbing connector 622 and a suction head 623, the conveying motor 621 drives the suction grabbing connector 622 to move, and the suction head 623 is arranged on the lower side of the suction grabbing connector 622. The suction conveying mechanism 60 is provided for the purpose of: the conveying process of the bulb shells after edge folding is solved, and the automation degree is improved.

Preferably, the temporary storage assembly 72 and the stacking assembly 80 are U-shaped, and the volume of the stacking assembly 80 is larger than that of the temporary storage assembly 72. The width of the staging assembly 72 is less than the width of the stack assembly 80, and the length of the stack assembly 80 is less than the length of the stack assembly 80.

Preferably, the lower adjusting component 73 includes a lower adjusting motor 731, a lower adjusting screw 732 and a receiving part 733, the lower adjusting motor 731 drives the lower adjusting screw 732, the lower adjusting screw 732 is in threaded connection with the receiving part 733, and the upper part of the receiving part 733 abuts against the temporary storage component 72. The lower adjustment assembly 73 is provided for the purpose of: the thickness of the set blister is H, each time a blister is placed in the temporary storage assembly 72, the receiving part 733 moves downward for a distance of H, and when a certain number of blisters are reached, the pushing mechanism 90 pushes the stacked blisters to move to the stacking assembly 80.

Preferably, the lower adjustment assembly 73 further comprises a limiting assembly 734, and the limiting assembly 734 is disposed directly below the temporary storage assembly 72. The end of the staging assembly 72 engages the front end of the stacking assembly 80. The limiting component 734 is used for limiting the bottom position of the temporary storage component 72, and the whole device is compact in structure, novel in structure, ingenious in design, high in applicability and convenient to popularize.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (10)

1. The utility model provides a cell-shell folder, includes group material hem mechanism, sets up in group material hem mechanism terminal cell-shell stacked structure, sets up in group material hem mechanism front end's semi-manufactured goods deposits mechanism, its characterized in that:

the material shifting and edge folding mechanism comprises a left material shifting mechanism, a right material shifting mechanism and edge folding equipment, the left material shifting mechanism and the right material shifting mechanism are used for conveying shells to be folded, the edge folding equipment comprises an edge folding pushing mechanism connected with the left material shifting mechanism and the right material shifting mechanism, an edge folding support, a downward pressing driving piece fixed on the edge folding support, a transmission assembly connected with the downward pressing driving piece, a thermoplastic edge folding cutter assembly connected with the transmission assembly, an edge folding base right facing the thermoplastic edge folding cutter assembly, a left edge folding assembly and a right edge folding assembly, and the left edge folding assembly and the right edge folding assembly are arranged at two ends of the edge folding base;

the semi-finished product storage mechanism comprises a length adjusting structure for adjusting the storage length, a width adjusting structure for adjusting the storage width, a shifting structure for shifting the blister down and a sucking and conveying structure for sucking the shifted blister, and the sucking and conveying structure is positioned at the lower side of the shifting structure;

the semi-finished product storage mechanism is used for placing semi-finished product shells to the end parts of the left and right material stirring mechanisms for conveying, and the semi-finished products move into the flanging bracket along the flanging pushing mechanism for flanging.

2. The bulb folder as recited in claim 1 wherein: the length adjustment structure includes first lead screw, the first meshing wheel of being connected with first lead screw transmission, with first meshing wheel meshing driven second meshing wheel, with second meshing wheel driven second lead screw, length adjustment board, the second lead screw with length adjustment board threaded connection rotates first lead screw is in order to adjust the position of length adjustment board.

3. The bulb folder as recited in claim 2 wherein: the width adjustment structure includes conflict main part, two width locating parts, the conflict main part is provided with the adjustment tank that is used for adjusting the width, the width locating part passes through the screw lock solid and is in on the adjustment tank, adjusting screw's mounted position is in order to adjust two the distance of width locating part.

4. The bulb folder as recited in claim 1 wherein: the toggle structure comprises a toggle driving assembly and a lower toggle part, the toggle driving assembly is fixedly connected with the lower toggle part to drive the lower toggle part to toggle up and down, and the lower toggle part is located at the lower end of the stacked bubble shell.

5. The bulb folder as recited in claim 1 wherein: the sucking and conveying structure comprises an adjusting cylinder assembly, an upper plate, a lower plate and a sucker, wherein the adjusting cylinder assembly is fixedly connected with the upper plate and the lower plate and drives the upper plate and the lower plate to move up and down, and the sucker is arranged on the upper plate and the lower plate.

6. The bulb folder as recited in claim 1 wherein: the thermoplastic flanging knife assembly comprises a first flanging knife and a second flanging knife, the transmission assembly is provided with an upper adjusting screw rod, the upper adjusting screw rod is in threaded connection with the upper portion of the first flanging knife, and the upper adjusting screw rod is rotated to adjust the distance from the first flanging knife to the second flanging knife.

7. The bulb folder as recited in claim 6 wherein: the folding support is provided with a folding station, the folding pushing mechanism comprises a pushing motor, a pushing belt and a pushing piece fixedly connected with the pushing belt, the pushing motor drives the pushing belt to move, and the pushing piece pushes the bulb shell to the folding station.

8. The bulb folder as recited in claim 6 wherein: the right side flanging assembly comprises a flanging driving piece, a flanging plate and a position fixing plate for limiting the position of the bulb shell, the flanging driving piece is fixedly connected with the flanging plate and drives the flanging plate to move so as to be flanged, and the position fixing plate is arranged above the flanging plate.

9. The bulb folder as recited in claim 6 wherein: the left and right material shifting mechanisms comprise material shifting mounting assemblies and shifting assemblies, and each material shifting mounting assembly comprises a material shifting mounting frame and a guide shaft mounted on the material shifting mounting frame; the material shifting mounting frame is provided with a material shifting driving piece for driving the shifting assembly to move; the stirring assembly comprises a sliding part, a stirring connecting piece fixed with the sliding part and a stirring piece arranged at the lower part of the stirring connecting piece; the sliding part is slidably mounted on the guide shaft, and the material stirring driving part drives the stirring assembly to move left and right to move the cell shell to be flanged to a corresponding position.

10. The bulb folder as recited in claim 1 wherein: the cell shell stacking structure comprises a suction conveying mechanism, a temporary storage mechanism, a stacking assembly and a pushing mechanism arranged on the side part of the temporary storage mechanism, wherein the temporary storage mechanism comprises an upper pushing assembly, a temporary storage assembly arranged below the upper pushing assembly and a lower side adjusting assembly, and the lower side adjusting assembly drives the temporary storage assembly to move up and down; absorb behind the conveying mechanism absorption cell-shell with the cell-shell move to under the upper portion bulldozes the subassembly, the upper portion bulldozes the subassembly and pushes away the cell-shell put to in the subassembly of keeping in, downside adjusting part adjusts the position of the subassembly of keeping in makes the cell-shell in the subassembly of keeping in piles up and places, pushing mechanism promotes the cell-shell of piling up and makes it follow the subassembly of keeping in moves the subassembly of piling up.

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