CN113844048A

CN113844048A - Full-automatic file pocket processingequipment

Info

Publication number: CN113844048A
Application number: CN202111239409.5A
Authority: CN
Inventors: 不公告发明人
Original assignee: Suzhou Qiongpairuite Technology Co ltd
Current assignee: Suzhou Qiongpairuite Technology Co ltd; Suzhou Transparent Electronic Technology Co Ltd
Priority date: 2021-10-25
Filing date: 2021-10-25
Publication date: 2021-12-28

Abstract

A full-automatic file bag processing device comprises a feeding mechanism, a chain belt sewing mechanism, a handle sewing mechanism, a puller mounting mechanism, a blank pressing steering mechanism and a cutting and edge sealing mechanism which are arranged in sequence; the feeding mechanism comprises a feeding frame and a feeding power assembly, and the feeding power assembly is used for providing initial power; the chain belt sewing mechanism comprises a sewing machine; the handle sewing mechanism comprises a sewing machine frame, the sewing machine frame is connected with a bending part, the bending part comprises bending claws arranged in pairs, and the bending claws arranged in pairs can reversely rotate to bend the handle; the mounting rack is connected with a material conveying assembly, a shaping assembly and a mounting assembly, and the material conveying assembly is constructed in a manner that the pull head is transported to a preset position. According to the invention, a complete file bag production process is realized through the feeding mechanism, the chain belt sewing mechanism, the handle sewing mechanism, the puller mounting mechanism, the edge pressing steering mechanism and the cutting and edge sealing mechanism, so that the whole production process is automated, the production efficiency is greatly improved, and the labor cost is reduced.

Description

Full-automatic file pocket processingequipment

Technical Field

The invention relates to the technical field of file pocket production, in particular to a full-automatic file pocket processing device.

Background

In study and work, need a large amount of file bags to collect, save mixed and disorderly files, the portability of file bag and simple categorised function give our daily work, study and provide very big facility, current file bag is mostly the flow of cutting apart, the independent production step is accomplished to single station, then collective manual transportation arrives next step and produces, can't realize complete automated production chain, this production mode inefficiency, and the cost of labor is higher, so, according to this situation, need design a full-automatic file bag processingequipment.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a full-automatic file pocket processing device.

The technical problem to be solved by the invention is realized by adopting the following technical scheme:

the automatic edge-cutting machine comprises a feeding mechanism, a chain belt sewing mechanism, a handle sewing mechanism, a puller mounting mechanism, an edge-pressing steering mechanism and a cutting edge-sealing mechanism which are sequentially arranged; the feeding mechanism comprises a feeding frame and a feeding power assembly, and the feeding power assembly is used for providing initial power; the chain belt sewing mechanism comprises a sewing machine; the handle sewing mechanism comprises a sewing machine frame, the sewing machine frame is connected with a bending part, the bending part comprises bending claws arranged in pairs, and the bending claws arranged in pairs can rotate reversely to bend the handle; the puller installation mechanism comprises an installation rack, the installation rack is connected with a material conveying assembly, a shaping assembly and an installation assembly, the material conveying assembly is constructed for conveying a puller to a preset position, the shaping assembly comprises a section die, a closing part and a punching part, the closing part is constructed for meshing a matched chain belt, the punching part is constructed for punching chain teeth on the meshed chain belt, the installation assembly comprises a positioning fork, a broken toothed plate and a butt joint part, the positioning fork is provided with a groove chamber for the meshed chain belt to pass through, the butt joint part is constructed for conveying the puller to an installation position corresponding to the broken toothed plate from the preset position of the material conveying assembly and fixing the puller, the broken toothed plate is positioned between the positioning fork and the puller, and the broken toothed plate is movably arranged at an output end of the movement of the chain belt in the groove chamber;

the blank-pressing steering mechanism comprises a steering frame, a steering roller, a first compression assembly and a second compression assembly are mounted on the steering frame, the first compression assembly comprises a first conveying roller, a second conveying roller and a third adjusting portion, the second conveying roller is provided with a first state adjacent to the first conveying roller and used for extruding air in the raw material bag, and a second state directly leaving a larger gap relative to the first state with the first conveying roller, the third adjusting portion is used for positioning the second conveying roller in the first state and the second state, the second compression assembly comprises heating portions which are oppositely arranged, the heating portions which are oppositely arranged can move relatively, the heating portions which are oppositely arranged are located at the discharging end of the mounting mechanism, and the heating portions are located at the feeding end of the first compression assembly; the cutting edge sealing mechanism is used for cutting the file pocket raw materials.

The invention has the advantages and positive effects that:

1. according to the invention, a complete file bag production process is realized through the feeding mechanism, the chain belt sewing mechanism, the handle sewing mechanism, the puller mounting mechanism, the edge pressing steering mechanism and the cutting and edge sealing mechanism, so that the whole production process is automated, the production efficiency is greatly improved, and the labor cost is reduced.

2. In the invention, the document bag raw material in an unfolded state is shaped by the section die, the shape surrounding the section die is formed into a shape surrounding the unclosed state, 2 chain belts are closed under the condition of no pull heads by matching with the pull head-like die of the closing part, so that the document bag surrounds the unclosed opening to be closed, then the closed chain teeth are just wakened and impacted by the punching part, so that the chain teeth are separated from the chain belts to form gaps, under the matched support of the closing part and the section die, the punching part can realize the punching of the document bag chain belts in the closed state without damaging the structures of the chain belts and the document bag, the meshed chain belts move to one side through the groove chambers of the positioning forks, the groove chambers are contacted with the bulges of the chain teeth on the chain belts to form an orientation effect, the bottom surfaces of the positioning forks are contacted with the document bag raw material to further play an orientation effect on the transmission of the document bag and the chain belts, and the toothed plates capable of changing the relative positions can split the meshed chain belts, make things convenient for different pull heads and zip fastener meshing, heating portion after the deuterogamy heats the folding base of file pocket for the file pocket is folded the seal of a government organization in old china more obviously, and the finished product effect is better.

Drawings

FIG. 1 is an overall top view of the present invention;

FIG. 2 is an isometric view of the loading mechanism of the present invention;

FIG. 3 is an isometric view of the chain sewing mechanism and the transition mechanism of the present invention;

FIG. 4 is an isometric view of a first view of a portion of the chain sewing mechanism of the present invention;

FIG. 5 is an isometric view of a second perspective portion of the chain sewing mechanism of the present invention;

FIG. 6 is an isometric view of a slider mounting mechanism and a blank holder steering mechanism of the present invention;

FIG. 7 is a front view of FIG. 6 in accordance with the present invention;

FIG. 8 is an isometric view of a partial structure of the slider mounting mechanism of the present invention;

FIG. 9 is an isometric view of a portion of the slider mounting mechanism sizing assembly of the present invention;

FIG. 10 is a front view of the material handling assembly of the present invention;

FIG. 11 is an isometric view of a portion of the construction of the sizing assembly and the mounting assembly of the present invention;

FIG. 12 is a partial structural connecting shaft view of the slider mounting mechanism of the present invention;

FIG. 13 is an isometric view of a portion of the blank holder bending mechanism of the present invention;

FIG. 14 is a top view of the trimming and edge sealing mechanism of the present invention;

FIG. 15 is an isometric view of a portion of the structure of the present invention;

FIG. 16 is an isometric view of the cutout of the present invention;

figure 17 is an isometric view of a jaw portion configuration of the present invention.

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.

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.

The embodiments of the invention will be described in further detail below with reference to the accompanying drawings:

a full-automatic file bag processing device comprises a feeding mechanism 100, a chain belt sewing mechanism 200, a handle sewing mechanism 300, a puller mounting mechanism 400, a blank pressing steering mechanism 500 and a cutting and edge sealing mechanism 600 which are arranged in sequence;

the feeding mechanism 100 comprises a feeding frame 101, a material placing assembly 130 and a material power assembly are arranged on the feeding frame 101, the feeding power assembly 110 is used for sending raw materials out of a feeding device, the feeding power assembly 110 comprises a first main power roller 111 and a first auxiliary power roller 112 which are arranged in a clearance mode, the first main power roller 111 is connected with a power output end of the feeding power assembly 110, the feeding mechanism further comprises a first adjusting portion 120, the first adjusting portion 120 comprises an adjusting rod 121 which is connected with the first auxiliary power roller 112 in a positioning mode, the adjusting rod 121 drives the first auxiliary power roller 112 to move so as to adjust the size of the clearance between the first main power roller 111 and the first auxiliary power roller 112, specifically, as shown in figure 2, the feeding frame 101 comprises a quadrilateral frame formed by splicing the sectional materials, a first group frame on the front side and a second group frame on the rear side are arranged on the quadrilateral frame, the first group frame comprises a plurality of vertical sectional materials which are arranged on the quadrilateral frame, and horizontal sectional materials which are arranged on the vertical sectional materials, the material placing assembly 130 is located on a first group of frames, the material loading power assembly 110 is located on a second group of frames, the material loading power assembly 110 comprises a motor installed on the first group of frames, the output end of the motor is connected with a first main power roller 111, the first main power roller 111, a first auxiliary power roller 112 and an adjusting rod 121 are sequentially arranged from bottom to top, the relative positions of the adjusting rod 121 and the first auxiliary power roller 112 are fixed, and the position of the adjusting rod 121 is moved to drive the first auxiliary power roller 112 to move.

The first adjusting portion 120 further includes an adjusting block 122 disposed on the feeding frame 101, a slider capable of changing relative positions is disposed in the adjusting frame, the first auxiliary power roller 112 and the adjusting rod 121 are rotatably connected to the slider, a first positioning block 123 is disposed on the adjusting block 122, an eccentric wheel abutting against the first positioning block 123 is disposed on the adjusting rod 121, as shown in fig. 2, the feeding power assembly 110 includes a plate mounted on the second frame, a motor is mounted on the plate, the number of the adjusting blocks 122 is 2, the adjusting blocks 122 are disposed at two ends of the upper side of the plate, a sliding slot is disposed in the adjusting block 122 in the vertical direction, a middle position of the sliding slot extends through the adjusting block 122 to form a through hole at the left and right sides, the slider is slidably connected in the sliding slot vertically, the motor is connected to the left end of the first main power roller 111, the two adjusting blocks 122 are passed through the through hole and the sliding slot, the first main power roller 111 is connected to a bearing in the sliding slot, thereby realizing the rotatable connection of the first main power roller 111 and the adjusting block 122, the first auxiliary power roller 112 is rotatably connected with the sliding block through a bearing arranged on the sliding block, the first auxiliary power roller 112 penetrates through 2 adjusting blocks 122 through a through hole and a sliding groove, the adjusting rod 121 penetrates through 2 adjusting blocks 122 through a through hole and a sliding groove and is rotatably connected with 2 sliding blocks, a handle is vertically arranged at the right end of the adjusting rod 121 so as to rotate the adjusting rod 121, the first main power roller 111, the first auxiliary power roller 112 and the adjusting rod 121 are sequentially arranged in parallel from bottom to top, raw materials are attached to the first main power roller 111 and the first auxiliary power roller 112 to pass through so as to be transported, the first adjusting part 120 further comprises a first positioning block 123 arranged on the adjusting block 122, the first positioning block 123 is arranged on the adjusting block 122 through a bolt, the first positioning block 123 is positioned between the first auxiliary power roller 112 and the adjusting rod 121, 2 eccentric wheels are arranged on the adjusting rod 121, the eccentric wheels correspond to the first positioning block 123 and abut against one side of the positioning hole, one side is abutted against the side surface of the fixed block at the same position.

In addition, as shown in fig. 2, the first adjusting portion 120 further includes a knob penetrating through the upper side of each adjusting block 122, the knob penetrates through the upper side of each adjusting block 122 and enters the sliding groove, the knob can abut against the upper side face of the sliding block, the sliding block is limited by the knob to move upwards, the eccentric wheel and the first positioning block 123 are matched to limit the sliding block to move downwards, and a good positioning effect is achieved.

First initiative roller 111 and first auxiliary power roller 112 power are connected, the left end of first initiative roller 111 and first auxiliary power roller 112 is connected with a gear respectively, two gear intermeshing, and then reach the effect that power is connected, still be equipped with the sleeve on the first initiative roller 111, in order to reduce the clearance between first initiative roller 111 and the first auxiliary power roller 112, reach better raw materials and carry the effect, in addition, material loading power component 110 is still including installing the protective housing on panel, the protective housing surrounds the space between motor output and the left side regulating block 122, in order to protect the stability of gear operation.

Be equipped with on the first secondary power roller 112 and be no less than 2 first auxiliary wheels, leave the clearance between first auxiliary wheel and the first primary power roller 111, first auxiliary wheel is located the position of first secondary power roller 112 is adjustable, be equipped with 2 first auxiliary wheels on the first secondary power roller 112, leave the clearance between first auxiliary wheel and the first primary power roller 111, make the raw materials carry in the clearance, first auxiliary wheel and first secondary power roller 112 sliding connection, be equipped with the through hole along its radius on the first auxiliary wheel, through hole female connection has the bolt, can fix first auxiliary wheel on first secondary power roller 112 through revolving soon the bolt.

Put material subassembly 130 including putting material roller 131 and locating relatively and putting flitch 132 on material loading frame 101, as shown in fig. 2, put flitch 132 and be located both ends about first group frame upside, put flitch 132 upside and seted up the notch, both ends respectively are equipped with a gyro wheel about the notch, it is located two notches of putting flitch 132 to put material roller 131, and put the both ends of material roller 131 and all be equipped with the concave ring, the gyro wheel is with the butt of concave ring inner wall, and then the gyro wheel is when providing the holding power, be convenient for put material roller 131 and roll, and can play the locate effect to material roller 131.

As shown in fig. 2, the material placing roller 131 is provided with 2 second auxiliary wheels, the second auxiliary wheels are slidably connected with the material placing roller 131, the second auxiliary wheels are provided with through holes along the radial direction of the second auxiliary wheels, the through holes are connected with bolts through threads, and the second auxiliary wheels can be fixed on the material placing roller 131 by screwing the bolts.

The material placing assembly 130 further comprises a material placing table 132, the material placing table 132 is mounted on the material loading frame 101, the material placing table 132 is located on the lower side of the material placing roller 131, as shown in fig. 2, the material placing assembly 130 further comprises a material placing table 132 located on the lower side of the material placing roller 131, and the material placing table 132 is mounted on the quadrilateral frame and used for placing materials.

The device also comprises a tensioning assembly 140, wherein the tensioning assembly 140 comprises a first tensioning roller 141, a second tensioning roller 142 and a third tensioning roller 143 which are in triangular sections, a base which is respectively connected with the first tensioning roller 141, the second tensioning roller 142 and the third tensioning roller 143 in a rotating manner is arranged on the feeding frame 101, the base can move on the feeding frame 101, as shown in fig. 2, the tensioning assembly 140 comprises a first tensioning roller 141, a second tensioning roller 142 and a third tensioning roller 143 which are in triangular arrangement, a horizontal section bar serves as a sliding rail, the base can move horizontally on the sliding rail, the first tensioning roller 141 is arranged on the base which is connected with the horizontal section bar in a sliding manner, the first tensioning roller 141 and the feeding roller 131 are positioned on the same plane, a vertical section bar serves as the sliding rail, two opposite side surfaces of the vertical section bar are connected with the base in a sliding manner, the second tensioning roller 142 and the third tensioning roller 143 are respectively arranged on the base on the opposite side surfaces of the vertical section bar, and each base is provided with a fastening screw, the fastening screws are screwed to be connected with the vertical section bar/the horizontal section bar, the seat is further fixed, the first tensioning roller 141, the second tensioning roller 142 and the third tensioning roller 143 are respectively provided with 2 third auxiliary wheels, the third auxiliary wheels are connected with the first tensioning roller 141/the second tensioning roller 142/the third tensioning roller 143 in a sliding mode, the third auxiliary wheels are provided with through holes along the diameter direction of the third auxiliary wheels, the through holes are connected with bolts in a threaded mode, and the bolts are screwed to enable the third auxiliary wheels to be positioned with the first tensioning roller 141/the second tensioning roller 142/the third tensioning roller 143. Go up work or material rest 101 downside and be equipped with delivery wheel and adjustable lower margin, wherein the delivery wheel is 4, and the lower margin is 4.

The chain sewing mechanism 200 includes a sewing machine 201; as shown in fig. 1, there are 2 sewing machines 201 installed on a frame body and located at the output end of the first power part, and the sewing machines 201 sew the chain belts at two sides of the tiled document pocket, which is the prior art and is not described herein again.

The handle sewing mechanism 300 comprises a sewing machine frame 301, the sewing machine frame 301 is connected with a bending part 312, the bending part 312 comprises bending claws 3123 which are arranged in pairs, the bending claws 3123 which are arranged in pairs can rotate reversely to bend handle lines, and the tiled file bag raw materials enter the input end of the sewing machine frame 301 after the sewing machine 201 sews chain belts;

make up frame 301 including making up the table platform, make up frame 301 and install and make up subassembly 310, make up subassembly 310 including fixed module, bend module and welding module, fixed module includes first fixed part 311, the second fixed part and the portion of tailorring, first fixed part 311 is including the threading groove 3111 that supplies the handle line to pass, first fixed part 311 and the relative displaceable setting of second fixed part, the portion of tailorring is located between first fixed part 311 and the second fixed part, the portion of tailorring is located the discharge chute mouth department of first fixed part 311 threading groove 3111, the module of bending includes movable part and the portion of bending 312, the portion of bending 312 includes the claw of bending 3123 that sets up in pairs, but the claw 3123 of bending that sets up in pairs counter-rotation is in order to buckle the handle line, the movable part is constructed in the drive portion of bending 312 and takes place the displacement so that the handle line reachs the welding position of welding module.

The bending portion 312 comprises bending shafts 3121 which are arranged in pairs, the bending shafts 3121 are connected with bending platforms 3122, the bending shafts 3121 rotate in opposite directions to realize opposite rotation of bending claws 3123, and the bending claws 3123 are connected with the bending platforms 3122 in a manner of being capable of relatively displacing;

the sewing machine frame 301 is provided with a sewing power assembly 320, the sewing power assembly 320 comprises a main power portion, an auxiliary power portion and a second adjusting portion 330, the main power portion comprises a second main power roller 321 connected with a power output end, the auxiliary power portion comprises a second auxiliary power roller 322 corresponding to the second main power roller 321, and the second adjusting portion 330 controls the second auxiliary power roller 322 to move so as to adjust the distance between the second main power roller 321 and the second auxiliary power roller 322.

Specifically, as shown in fig. 3, the sewing machine frame 301 includes a section frame and a sewing table, the table is provided with a welding port, the welding port penetrates through the table, the document bag material is conveyed from left to right on the table top of the sewing table, the sewing assembly 310 is mounted on the sewing machine frame 301, wherein the fixing module and the bending module are mounted on the upper side of the table, with reference to fig. 4 and 5, the fixing module further includes a slide rail table and a slide rail with a certain distance, the first fixing portion 311 includes a first fixing seat 3112, a cylinder, a threading table 3114 and a second positioning block 3113, taking the view angle of fig. 4 as an example, the first fixing seat 3112 is fixedly mounted on the left side of the slide rail, the threading table 3114 is mounted on the first fixing seat 3112, the threading table 3114 has a sinking groove, both ends and the upper side of the sinking groove are through, the cylinder is mounted on the first fixing seat 3112, the output end of the cylinder is connected to the second positioning block 3113, the second positioning block 3113 has a protrusion matching with the sinking groove 3114, the protrusion is slidably connected with a sunken groove of the threading table 3114, the second positioning block 3113 is arranged in the sunken groove, the sunken groove naturally forms a threading groove 3111 which is penetrated from left to right, the second fixing part comprises a second fixing seat, an air cylinder and a gripper, the air cylinder is arranged on the sliding rail table, the air cylinder is arranged on the sliding rail, the air cylinder is connected with the second fixing seat and further controls the second fixing seat to slide left and right on the sliding rail, the gripper is different from a common gripper, the clamping end of the gripper is two clamping plates which are arranged in parallel, the two clamping plates approach each other under the action of the air cylinder to realize clamping, the cutting part 610 comprises an air cylinder arranged on the first fixing seat 3112 and a scissors head 302 arranged at the output end of the air cylinder, the cutting section of the scissors head 302 is 5-20mm away from the notch at the right side of the threading groove 3111, as shown in fig. 4, the bending module is integrally arranged at the upper side of the fixing module, the moving part is fixed on the section bar, the moving part comprises the air cylinder, the lower side of the cylinder is provided with a mobile station which is formed by connecting 4 plate bodies end to end, wherein the plate body at the upper side is connected with the cylinder, the plate body at the lower side is used as a bearing platform to be connected with a bending part 312, the bending part 312 comprises 2 bending claws 3123 arranged left and right, each bending claw 3123 is connected with a cylinder, taking the top view of fig. 4 as an example, the bending claw 3123 at the right side rotates clockwise after clamping a lifting handle line, the bending claw 3123 at the left side rotates anticlockwise after clamping the lifting handle line, different from a common mechanical claw, the clamping end of the bending claw 3123 is two clamping plates arranged in parallel, the initial form of the lifting line clamped on the bending claw 3123 is horizontally stretched in fig. 4, the semi-circular form is the final form after bending, two cylindrical forms at the upper side of the lifting line are the circle center of the rotation of the bending claw 3123, it should be noted that the position of the bending claw 3123 in fig. 4 is not the position where the bending claw is located during rotation, the air cylinder is required to drive the air cylinder to move towards the front side so that the clamping end at least reaches the position of the rotating circle center, the welding module comprises 2 welding heads 303 and vibration stopping heads 304, the welding heads 303 are respectively arranged at the lower side of the slide rail platform through one air cylinder, the position of the welding head 303 corresponds to the position of the rotating circle center of the bending claw 3123, by combining the figure 1 and the figure 4, the vibration stopping heads 304 are arranged at the lower side of the table platform, the welding heads 303, the welding ports and the vibration stopping heads 304 are arranged up and down correspondingly, the upper side surface of the vibration stopping heads 304 and the upper side surface of the table platform are positioned on the same plane, the moving part is constructed to drive the bending part 312 to move so as to enable the lifting handle line to reach the position 2-10mm away from the welding position of the welding module, namely the position 2-10mm away from the upper surface of the vibration stopping heads 304, especially the distance of 3-5 mm, the efficiency of the fit welding of the welding head 303, the carrying line, the file bag material and the vibration stopping head 304 is optimized.

The first fixing part 311 and the second fixing part which can be relatively displaced can regularly pull the portable thread in the thread groove 3111 of the first fixing part 311, further, the working flow of manually cutting the hand-held thread is replaced, and the hand-held thread is cut by the cutting part 610 after the hand-held thread is fixed by the bending claw 3123, the hand-held thread can still be ensured to be at the original position, the first fixing part 311, the second fixing part, the cutting part and the bending claw 3123 are mutually matched to realize regular portable line cutting, thereby greatly improving the cutting efficiency, meanwhile, the bending claw 3123 bends the hand held thread into arc shape by relative rotation, which is more convenient for sewing the hand held thread on the raw material of the file bag, and the hand held thread is more convenient for holding after being sewn by the folded hand bag, the comfortable feeling is higher, then the cooperation removes the portion and sends the hand-held thread to the welding position of welding the module, realizes making up the integration, has promoted the efficiency of making up greatly.

Install the cylinder on the lower side plate body of mobile station, the cylinder output is connected with the movable block, the portion 312 of bending includes 2 axle 3121 of bending, the axle 3121 of bending runs through the lower side plate body and rotates rather than being connected, platform 3122 of bending is all installed to every axle 3121's lower extreme of bending, the last cylinder of platform 3122 of bending, the claw 3123 of bending is connected to the output of cylinder, the movable block is located between two axles 3121 of bending, be equipped with the gear on every axle 3121 of bending, the strip tooth with gear engagement is installed at both ends about the movable block, make the position of bending claw 3123 centre gripping hand line have enough flexibility, but the relative displacement setting of cooperation first fixed part 311 and second fixed part, make holistic design compacter, the production interval has been saved, the relative displacement distance of each raw materials in process of production has been reduced, and then further promoted production efficiency.

The feeding notch of the threading groove 3111 is further provided with a feeding module, the feeding module comprises a first feeding part and a second feeding part, the first feeding part comprises at least 2 first feeding rollers 305, the second feeding part comprises at least 1 second feeding roller 306, the second feeding roller 306 is not coplanar with any 2 first feeding rollers 305, the first feeding roller 305 and the second feeding roller 306 are respectively provided with a baffle ring with opposite positions, as shown in fig. 5, the feeding module is positioned at the feeding notch of the threading groove 3111, the first feeding part comprises 3 first feeding rollers 305, 3 first feeding rollers 305 are arranged in an isosceles triangle shape, wherein the upper side is 2 first feeding rollers 305, the lower side is 1 first feeding roller 305, a gap between the upper side 2 first feeding rollers 305 and the lower side 2 feeding rollers corresponds to the bottom surface of the threading groove 3111, the second feeding part comprises 1 second feeding roller 306 positioned at the upper side of the first feeding part, second feeding roller 306 is the triangle-shaped setting with arbitrary 2 first feeding rollers 305, and first feeding roller 305 and second feeding roller 306 are all installed on first fixing base 3112, all are equipped with the fender ring that corresponds around on first feeding roller 305 and the second feeding roller 306, and then prevent that the handle line from rocking when carrying, and then guarantee its stability.

The sewing power assembly 320 includes a positioning portion including an elastic member that gives a force to the sub power portion toward the main power portion. As shown in fig. 3, the sewing power assembly 320 is installed on the right side of the table, wherein a bearing profile is installed on the right end surface of the table, the sewing power assembly 320 includes a front end plate and a rear end plate installed on the bearing profile, the main power portion includes a motor installed on the rear side of the rear end plate, the output end of the motor is connected with a second main power roller 321, an auxiliary ring is installed on the second main power roller 321, the second main power roller 321 is rotatably connected with the front end plate and the rear end plate, the front end plate and the rear end plate are respectively provided with a sliding chamber corresponding to the front and rear, the auxiliary power portion includes a slider slidably connected with the sliding chamber up and down, the second auxiliary power roller 322 penetrates through 2 sliders and is rotatably connected with the sliders, a plurality of pressure rings are installed on the second auxiliary power roller 322, a certain gap is left between the auxiliary ring and the pressure rings, the gap and the upper surface of the table are located on the same plane, as shown in fig. 3, the second adjusting portion 330 includes an adjusting plate 332 installed on the front end plate and the rear end plate, rotation handle 331 is installed on second pair power roller 322 left side, and both ends are connected with the eccentric wheel about second pair power roller 322, and the side butt is gone up to eccentric wheel and regulating plate 332, and location portion is including the first locating shaft that runs through front end plate/back end plate, and first locating shaft rotates with front end plate/back end plate to be connected, and first locating shaft downside is connected with the spring with slider up end butt, and first locating shaft upside is connected with the disc handle.

The slider mounting mechanism 400 comprises a mounting rack 401, the mounting rack 401 is connected with a material conveying assembly 410, a shaping assembly 420 and a mounting assembly 430, the material conveying assembly 410 is configured to convey a slider to a preset position, the shaping assembly 420 comprises a section mold 406, a closing part and a punching part, the closing part is configured to engage a matched chain belt, the punching part is configured to punch away chain teeth on the engaged chain belt, the mounting assembly 430 comprises a positioning fork 431, a breaking plate 432 and a butt joint part, the positioning fork 431 is provided with a groove chamber for the engaged chain belt to pass through, the butt joint part is configured to convey the slider from the preset position of the material conveying assembly 410 to a mounting position corresponding to the breaking plate 432 and can fix the slider, the breaking plate 432 is positioned between the positioning fork 431 and the slider, and the breaking plate 432 is movably arranged at an output end of the chain belt movement of the groove chamber;

the shaping assembly 420 comprises a directional conveying groove 403, the stamping part comprises a stamping opening 424 arranged in the directional conveying groove 403, the stamping opening 424 is positioned at one end of the forming die 406, the shaping assembly further comprises a first stamping plate 425 and a second stamping plate 426, an elastic piece is connected between the first stamping plate 425 and the second stamping plate 426, the first stamping plate 425 is connected with a stamping gun 427, and the stamping gun 427 is connected with the second stamping plate 426 in a sliding mode and can penetrate through the second stamping plate 426;

the material transporting assembly 410 comprises a material transporting rail 402 and a material transporting part, wherein the material transporting part and the material transporting rail 402 can give relative displacement, the output end of the material transporting rail 402 corresponds to the output end of the directional transporting groove 403, the material transporting part is positioned at the output end of the material transporting rail 402, the material transporting part comprises a first rod body 411 and a second rod body 412 which are arranged in the same direction, the second rod body 412 is arranged in a unidirectional rotation mode, and the first rod body 411 is shorter than the second rod body 412.

The slider mounting mechanism 400 further comprises a pre-bending assembly 440, the pre-bending assembly 440 comprises a first bending roller and a second bending roller, rollers are arranged on the first bending roller and the second bending roller, the length of the roller arranged on the first bending roller is shorter than that of the roller arranged on the second bending roller, the relative position of the first bending roller is lower than that of the second bending roller, and the upper surface of the roller on the second bending roller faces a middle parting line close to the section die 406.

Specifically, as shown in fig. 6, the mounting frame 401 is a frame body composed of sectional materials, a vibrating disc is arranged on the uppermost side of the mounting frame 401, a slider is placed in the vibrating disc, one end of the vibrating disc extends outwards, the vibrating disc vibrates the slider to an extending position, the slider is conveyed to the material conveying assembly 410, the material conveying assembly 410 comprises a material conveying rail 402, the material conveying rail 402 is connected with the extending portion outside the vibrating disc, a material conveying groove is arranged in the material conveying rail 402, the notch position of the material conveying groove is inwards contracted to clamp the slider, the material conveying rail 402 comprises a vertical portion and a horizontal portion, the middle of the material conveying rail is in arc transition, the slider slides to a preset working position on the material conveying rail 402 by the gravity and the pushing force of the rear-side slider, in combination with fig. 7 and 8, the forming mold 406 comprises a hollow structure similar to a rectangular parallelepiped formed by three plate bodies, edges extending to another plate body are respectively arranged on the upper sides of 2 vertical plate bodies, and the left sides of the three plate bodies are a structure formed by combining 3 triangles, each triangle is connected with a plate body, one end of each triangle is intersected, the upper sides of the front triangle and the rear triangle are provided with extending edges, in other embodiments, the triangles and the plate body can be replaced into other shapes, such as a cylinder-like hollow structure and a truncated cone-like hollow structure, the main purpose is to facilitate the flat file bag to enter from the left side and then form a semi-enclosed state around the forming die 406, the horizontal part of the material conveying rail 402 is positioned in the hollow structure of the forming die 406, as shown in fig. 8 and 9, the closing part comprises a closing base 421 and a closing pressure seat 422, the upper surface of the closing pressure seat 422 is slightly 2-5mm higher than the upper surface of the forming die 406, the closing pressure seat 422 is arranged on the upper side of the closing base 421, the closing pressure seat 422 is provided with a heat dissipation hole penetrating through the body of the closing slider, as shown in fig. 9, the closing slider is provided with a first bulge and a second bulge similar to the inner structure from the left, the second bulge is arranged in a splayed shape, the first bulge extends towards the second bulge and gradually narrows, the first bulge positions of the two chain belt cylinders enter the closed pressing seat 422 and the second bulge, and the meshing state is obtained after the first bulge positions move rightwards, the stamping part comprises a stamping base 423, a stamping opening 424 is arranged on the stamping base 423, an air cylinder and a stamping gun 427 are arranged on the upper side of the stamping opening 424, the stamping gun 427 and the stamping opening 424 are matched and arranged to stamp out chain teeth on the chain belts by rigid impact force, so that the meshed chain belts realize fracture, as shown in fig. 8, a first connecting plate is arranged on the right side of the stamping base 423, the upper surface of the first connecting plate and the upper surface of the stamping base 423 are displaced on the same surface, the right end of the first connecting plate is connected with a positioning fork 431 of the mounting assembly 430, the air cylinder is arranged on the mounting rack 401, the output end of the air cylinder is connected with the positioning fork 431, as shown in fig. 11, the pull head on the lower side is the preset position of the material conveying assembly 410, by fortune material rail 402 self transportation, broken pinion rack 432 is articulated with first connecting plate, broken pinion rack 432's the outstanding first connecting plate in upper end, the cylinder is connected to broken pinion rack 432's lower extreme, the cylinder drives broken pinion rack 432 and rotates, broken pinion rack 432 upper end is the semicircle column type, the semicircle column type widens downwards gradually, so that the fracture of chain belt is inserted to the upper end, tear the chain belt of meshing again by self and tear open, the pull head is located broken pinion rack 432 right side, fix by connecting portion, as shown in fig. 11, connecting portion include vertical slide rail, cylinder and clamp block 433, clamp block 433 centre gripping pull head drives the pull head to broken pinion rack 432's right side from the preset position of downside transportation subassembly, clamp block 433 passes through cylinder control, can realize the centre gripping and the fixing of pull head.

The file bag raw material in an unfolded state is shaped through a mold 406, the enclosing mold 406 forms an enclosing unclosed shape, 2 chain belts are closed under the condition of no slider through a slider-like mold matched with a closing part, the file bag is further enclosed by the unclosed opening to be closed, then the closed chain teeth are just wakened and impacted through a punching part, the chain teeth are separated from the chain belts to form gaps, the punching part can realize the punching of the file bag chain belts in a closed state under the matched support of the closing part and the mold 406 without damaging the chain belts and the structures of the file bag, the meshed chain belts move to one side through a groove chamber of a positioning fork 431, the groove chamber is in contact with the protrusions of the chain teeth on the chain belts to form an orientation effect, the chain belts of the positioning fork 431 are in contact with the file bag raw material to further play an orientation effect on the transmission of the file bag and the chain belts, a toothed plate breaking part 432 capable of changing the relative position can split the meshed chain belts, the different sliders are conveniently meshed with the zipper.

The shaping assembly 420 comprises a directional conveying groove 403, the stamping part comprises a stamping opening 424 formed in the directional conveying groove 403, the stamping opening 424 is located at one end of the forming die 406, the shaping assembly further comprises a first stamping plate 425 and a second stamping plate 426, an elastic piece is connected between the first stamping plate 425 and the second stamping plate 426, the first stamping plate 425 is connected with a stamping gun 427, and the stamping gun 427 is slidably connected with the second stamping plate 426 and can penetrate through the second stamping plate 426.

As shown in fig. 9, the closed base 421 is located at the left side of the stamping base 423, the closed base 421 and the stamping base 423 are both installed on a second connecting plate, the second connecting plate is installed on the mold 406, the qualitative assembly includes an orientation transportation groove 403, the orientation transportation groove 403 is located at the upper side of the stamping base 423 and the first connecting plate, the left end of the orientation transportation groove 403 is located at the right end of the closed base 421, the height difference between the bottom surface of the orientation transportation groove 403 and the upper surface of the closed base 421 is less than 2mm, a stamping opening 424 is located on the stamping base 423, the stamping opening 424 penetrates through the stamping base 423, the stamping opening 424 is located on the orientation transportation groove 403, the front-back distance of the stamping opening 424 is greater than the width of the orientation transportation groove 403, the stamping part further includes a cylinder installed on the installation frame 401, the cylinder is located at the upper side of the second connecting plate, a third connecting plate is arranged between the cylinder and the second connecting plate, with reference to fig. 8 and fig. 9, the output end of the cylinder is connected with a third connecting plate, the lower side of the third connecting plate is connected with a first stamping plate 425, a stamping gun 427 is simultaneously connected with the first stamping plate 425 and the third connecting plate, the lower side of the first stamping plate 425 is connected with a second stamping plate 426 through a spring, the second stamping plate 426 is provided with a through hole matched with the stamping gun 427, the second stamping plate 426 is positioned in the through hole under a free state, after the second stamping plate 426 shifts towards the first stamping plate 425, the lower end of the stamping gun 427 can expose out of the second stamping plate 426 and enter the stamping hole 424, the lower side of the first stamping plate 425 is also provided with a first orientation rod, the first orientation rod is slidably connected with the second stamping plate 426, the second orientation rod is arranged at the left and right of the second connecting plate, penetrates through the third connecting plate and is slidably connected with the third connecting plate, a spring is connected between the third connecting plate and the second connecting plate, the second connecting plate is also provided with another through hole, on the left side of the closed base 421, the vertical part of the material conveying rail 402 passes through the through hole, and the horizontal part is located on the lower side of the second plate and extends to the right.

The chain tooth of zip fastener is located directional conveyer trough 403 after the meshing, it is more stable to remove, and set up punching press mouth 424 on directional conveyer trough 403, punching press mouth 424 axle footpath is greater than the axle footpath of directional conveyer trough 403, and then cooperation punching press mouth 424 forms the locate action to the chain, for plane punching press mouth 424, because directional conveyer trough 403 has reduced the face of dashing of punching press mouth 424, to the influence of chain belt and file bag when having reduced the punching press, the locate action of cooperation directional conveyer trough 403 to the chain tooth, can guarantee that chain belt and file bag can not take place the skew because of the punching press.

Referring to fig. 9 and 11, the horizontal portion of the material conveying rail 402 includes a first section and a second section, the first section is connected to the vertical portion, the second section is a bilateral symmetry structure disposed at the lower side of the second connecting plate, a sliding slot connected to the first section is formed at the middle position of the structure, the material conveying portion includes a cylinder connected to the lower side of the second connecting plate, the output end of the cylinder is connected to a material conveying block, as shown in fig. 10, the left side of the material conveying block is rotatably connected to a second rod 412, the second rod 412 can only rotate between 0-90 degrees, the second rod 412 has 2 teeth, the teeth are respectively contacted with the two ends of the left side of the slider, the right end of the material conveying block is fixedly connected to the second rod 412, the japanese pin rod has 2 teeth, the teeth are vertically disposed to extend to one side of the slider, but are not contacted with the slider, a gap of 0-5mm is reserved from the slider, the cylinder pushes the material conveying block, The first rod 411 and the second rod 412 move rightwards, and the puller can be pushed to the material conveying rail 402 through the first rod 411.

The mounting assembly 430 comprises a stretching portion, the stretching portion comprises bearing blocks 434 which are oppositely arranged on two sides of the directional transportation groove 403, the distance between the bearing blocks 434 and the directional transportation groove 403 is variable, the mounting assembly further comprises mechanical claws which are arranged in a relatively displaceable manner, the mechanical claws correspond to the bearing blocks 434, the relative displacement is variable, and one ends of the mechanical claws, close to the bearing blocks 434, are provided with elastic blocks.

Specifically, with reference to fig. 11 and 12, inner grooves are formed in two ends of the directional transport groove 403 at the right end of the second connecting plate, a slide bar is arranged in each inner groove, the receiving block 434 is in sliding connection with the slide bar, and then the receiving block 434 can slide on the slide bar passively, a vertical cylinder and a sub-control cylinder for controlling two mechanical claws are arranged on the mounting frame 401, the vertical cylinder drives the sub-control cylinder to move up and down, the sub-control cylinder is connected with 2 mechanical claws, the 2 mechanical claws are controlled to be close to or far away from each other, an elastic block is connected below the mechanical claws, the elastic block is mainly an elastic rubber block, when the sub-control cylinder stretches the file bag by 2-5mm towards two sides through the mechanical claws, and a smaller stretching amount can ensure that the chain does not deform when being combined with the pull head.

The mounting assembly 430 further comprises a butting portion, the butting portion comprises clamping blocks 433 with variable relative positions, a first notch 435 is formed on one side, adjacent to the clamping blocks 433, of each clamping block 433, the first notch 435 formed by the clamping blocks 433 corresponds to the output ends of the directional transport groove 403 and the transport rail 402, and the first notch 435 can be located to achieve switching communication between the output ends of the directional transport groove 403 and the transport rail 402.

Referring to fig. 11 and 12, the docking portion is located on the right side of the receiving block 434 and the positioning fork 431 and includes a fourth connecting plate, the fourth connecting plate is mounted on the mold 406, a notch is formed on one side of the fourth connecting plate facing the receiving block 434, 2 vertical sliding rails are mounted on the lower side of the left end of the fourth connecting plate, a docking base is slidably connected on the sliding rails, a folding rod is hinged to the right end of the docking base, the folding angle of the folding rod is hinged to the fourth connecting plate, an air cylinder is further mounted on the lower side of the fourth connecting plate and hinged to one end of the folding rod, the air cylinder drives one end of the folding rod to enable the other end to drive the docking base to lift, a vertically penetrating notch is formed on the left side of the docking base, 2 clamping blocks 433 are symmetrically arranged at the notch, each clamping block 433 is connected to the docking base through an air cylinder, a notch is formed in each direction of each clamping block 433, and the notches of the two clamping blocks 433 are combined to form a first notch 435, the first slot 435 interfaces with the left directional pod 403, the output end of the transport rail 402. In another embodiment, the docking portion further includes a second notch 436 in communication with the first notch 435, the second notch 436 being adjustably positioned with respect to the first notch 435.

Referring to fig. 11 and 12, a lifting block is further disposed at the position of the gap of the docking base, the lifting block is controlled by a lifting cylinder, a second notch 436 is formed at the upper side of the lifting block, the depth of the second notch 436 is the same as that of the first notch 435, the width of the second notch 436 is smaller than that of the first notch 435, the second notch 436 is communicated with the first notch 435 in a normal transportation state, after the clamp 433 releases the slider, the slider reaches the right end of the first notch 435, the slider is locked by the left end of the second notch 436, so that the slider moves a distance on the chain belt, and then the two chain belts are engaged to verify whether the connection between the slider and the chain belts is stable and qualified, and then the lifting block and the second notch 436 descend to move the slider to the right along with the file bag and the chain belt, it should be noted that a sloping plate is formed at the position of the gap of the fourth connecting plate, the sloping plate is located at the right side of the lifting block, the sloping plate gradually rises from the left to the right, so that the puller can move freely and is prevented from being stuck.

Still include the subassembly 440 of bending in advance, the subassembly 440 of bending in advance includes first bending roll and second bending roll, all is equipped with the running roller on first bending roll and the second bending roll, and the running roller length of first bending roll installation is shorter than the running roller length of second bending roll installation, and the relative position of first bending roll is less than the second bending roll. The upper surface of the upper roller of the second bending roll faces a bisector line that is close to the die 406.

As shown in fig. 7, a second bending roller is disposed on the left side of the mold 406, the second bending roller is rotatably connected to the mounting frame 401, and further includes a first bending roller, not shown in fig. 6, as shown in fig. 2, the first bending roller is located below the second bending roller in the horizontal position, and the length of the roller mounted on the first bending roller is shorter than that of the roller mounted on the second bending roller, it can be understood that, when the width of the flat document bag material is 40cm, the length of the roller mounted on the first bending roller is 36cm, and the length of the roller mounted on the second bending roller is 44cm, it should be noted that, taking the mold 406 of this embodiment as an example, the midpoint connecting line of the vertical height of the mold 406 is a dividing line, and the upper surface of the roller of the second bending roller is located at plus or minus 2mm of the dividing line of the mold 406, so that the document bags on the mold have the same vertical tension and are stressed uniformly.

Still including locating mould 406 one end and being provided with first material wheel 404 and the second relatively and prop material wheel 405, the second props the foreign steamer limit thickness of material wheel 405 and is not more than 5mm, as shown in fig. 6 and 7, mould 406 right side is connected with a T type structure, the upside of T type structure is rotated and is connected with first material wheel 404 that props, the downside is rotated and is connected with the second and props material wheel 405, as shown in fig. 6, first material wheel 404 that props is greater than second and props material wheel 405 foreign steamer limit thickness, second props material wheel 405 foreign steamer limit thickness and is 2mm to be convenient for the file bag type becomes the crease, first material wheel 404 that props foreign steamer limit thickness is 7 mm.

In another embodiment, a waste recycling mechanism is further included, as shown in fig. 8, which includes a waste pipe, one end of the waste pipe is located at the lower side of the punching opening 424 of the punching base 423, the other end of the waste pipe passes through the outer side of the extended output die 406, and the outer end of the waste pipe is connected with a suction fan, so that the waste in the waste pipe is directly sucked out.

In practical implementation, the tiled file bag raw material enters from the lower side of the first bending roller 441, because the width of the first bending roller 441 is smaller than that of the file bag raw material, two folds are naturally formed at the edges, then the tiled file bag raw material enters the upper surface of the first bending roller 441 and is rightwards positioned at the lower side of the die 406, the first bending roller 441 gives an upward force to the file bag raw material to make the folds at the two edges more obvious, the folds at the two sides of the file bag raw material entering the lower side of the die 406 are convenient for forming an enclosed shape, then a chain belt sewn at the rightmost end of the file bag raw material passes through the closed base 421 by manual operation, the file bag at the right side of the closed base 421 is engaged through the chain belt to form a closed state enclosing the die 406, the left side is an open state, the file bag at the left side forms a good enclosed state, then the engaged chain belt enters the directional transportation groove 403 to move rightwards, punching a fracture on the meshed chain belt by matching the punching gun 427 with the punching opening 424, allowing the enclosed document pouch raw material to continue to move rightwards, driving the positioning fork 431 to be downwards attached to the outer surface of the document pouch raw material by the cylinder, enabling the inner wall of a groove chamber of the positioning fork 431 to be in sliding connection with chain teeth of the chain, not limiting the left and right movement of the document pouch by the positioning fork 431, enabling the fracture punched by the punching gun 427 to be located on the right side of the positioning fork 431, and then being located on the directional transportation groove 403, namely on the second connecting plate, driving the sub-control cylinder downwards by the vertical cylinder, clamping the document pouch raw material by the elastic rubber blocks and the bearing blocks 434 on the lower side of the mechanical claws, enabling the mechanical claws to be far away from each other to provide an external supporting force for the chain belt, driving the breaking plate 432 upwards into the directional transportation groove 403 by the cylinder, enabling the breaking plate 432 to break upwards from the fracture of the chain belt, enabling one end of the breaking plate 432 to be disengaged, and driving the material conveying part to drive the material conveying block to move rightwards at the same time, the second rod body 412 pushes the puller to enter the first notch 435 of the clamping block 433, the air cylinder of the butt joint part drives the clamping block 433 to clamp the puller, then the butt joint base is upward, the first notch 435 is in butt joint with the directional conveying groove 403, the zipper enters the puller, the installation of the puller and the zipper can be completed, then the clamping blocks 433 are separated from each other, the puller is released, the puller is clamped at the left end of the second notch 436 along with the file bag rightwards, at the moment, the second notch 436 descends, the puller can be rightwards, and then the installation of the next round is completed.

The edge pressing steering mechanism 500 comprises a steering frame 501, the steering frame 501 is provided with a steering roller 506, a first compression assembly and a second compression assembly, the first compression assembly comprises a first conveying roller 504, a second conveying roller 505 and a third adjusting part 510, the second conveying roller 505 has a first state adjacent to the first conveying roller 504 for extruding air in the raw material bag and a second state directly leaving a larger gap relative to the first state with the first conveying roller 504, the third adjusting part 510 is used for positioning the second conveying roller 505 in the first state and the second state, the second compression assembly comprises a heating part 530 which is oppositely arranged, the heating part 530 which is oppositely arranged can move relatively, the heating part 530 which is oppositely arranged is positioned at the discharging end of the mounting mechanism, and the heating part 530 is positioned at the feeding end of the first compression assembly;

specifically, as shown in fig. 6, the bogie 501 includes a plurality of profile plates, a turning roll 506 is obliquely installed at the right end of each profile plate, the angle of inclination of the turning roll 506 is 20-80 °, the angle of inclination of the turning roll 506 in this embodiment is 45 °, the tensioning portion includes a plurality of fourth tensioning rolls 502 connected to the bogie 501, the fourth tensioning rolls 502 are located at the output ends of the turning rolls 506, the fourth tensioning rolls 502 are horizontally arranged, the number of the fourth tensioning rolls 502 is 2, and the horizontal heights of the two fourth tensioning rolls 502 in this embodiment are different, the height adjacent to the output end of the turning roll 506 is smaller than that of another fourth tensioning roll 502, the height difference is 10cm, a first compression assembly is installed at the left side of the turning roll 506, the first compression assembly includes a first transportation roll 504 and a second transportation roll 505 which are vertically installed, the folded raw material passes through between the first transportation roll 504 and the second transportation roll 505, in the first state, the first transportation roller 504 and the second transportation roller 505 are abutted or a gap within 15mm is left, and then the overlapped raw materials enter between the first transportation roller 504 and the second transportation roller 505, air in the overlapped raw materials can be extruded, in the second state, the gap between the first transportation roller 504 and the second transportation roller 505 is 30mm, so that the raw materials can pass through the gap in the initial processing stage, the second compression assembly is positioned on the left side of the first compression assembly and comprises 2 heating parts 530 which are opposite to the left sides of the first transportation roller 504 and the second transportation roller 505, and each heating part 530 can be opened and closed through an air cylinder. The first compression assembly comprises a transport frame 520 connected with a bogie 501, the transport frame 520 comprises oppositely arranged steering plates, sliding chambers are arranged on the steering plates, sliding blocks are connected in the sliding chambers in a sliding mode, the second transport rollers 505 are connected with the sliding blocks in a rotating mode, a third adjusting portion 510 comprises first positioning plates 511 arranged on the steering plates, the sliding blocks are connected with second positioning shafts 512 in a rotating mode, one ends of the second positioning shafts 512 penetrate through the sliding blocks and are connected with handles, openings matched with the first positioning plates 511 are formed in the second positioning shafts 512, the transport frame further comprises adjusting shafts 513, one ends of the adjusting shafts 513 penetrate through the transport frame 520 and enter the sliding chambers, the adjusting shafts 513 are connected with the transport frame 520 in a threaded mode, one ends of the adjusting shafts 513 are connected with elastic pieces abutted to the sliding blocks, the transport frame 520 is installed on the left sides of the steering rollers 506 in combination with the figures 6 and 7, the transport frame 520 comprises the steering plates which are oppositely arranged up and down, the left side and the right side of the two steering plates are respectively connected with a side plate, the first transportation roller 504 is rotatably connected with the upper and lower steering plates, the upper and lower steering plates are provided with corresponding sliding chambers, the sliding chambers are respectively connected with a slide block in a left-right sliding manner, the upper part of the upper sliding chamber and the lower part of the lower sliding chamber are respectively provided with a first positioning plate 511, the upper and lower ends of the second transportation roller 505 are respectively rotatably connected with 2 slide blocks, the upper and lower slide blocks are rotatably connected with a second positioning shaft 512, the upper side of the second positioning shaft 512 protrudes out of the upper slide block and is connected with a handle, as shown in figure 3, the second positioning shaft 512 is provided with a notch, the distance between the upper and lower parts of the notch is matched with the thickness of the first positioning plate 511, the depth is smaller than the radius of the second positioning shaft 512, so that the first positioning plate 511 can be clamped in the notch, the adjusting shaft 513 penetrates through the side plate from the right side to the left side and enters the sliding chambers, one adjusting shaft 513 is arranged above and below, and the adjusting shaft 513 is connected with the side plate by screw thread, the left end of the adjusting shaft 513 is connected with a spring, and the other end of the spring is abutted to the right end face of the sliding block.

As shown in fig. 6, a bearing plate 503 is mounted on the bogie 501, the bearing plate 503 is located on the left side of the steering roller 506, the first compression assembly is disposed on the bearing plate 503, i.e., the side plate is mounted on the bearing plate 503, as shown in fig. 7, a motor is mounted on the lower side of the bearing plate 503, the output end of the motor penetrates through the bearing plate 503 to be connected with the first transportation roller 504, the first transportation roller 504 and the second transportation roller 505 are provided with gears which are matched with each other, and the two gears are meshed with each other.

As shown in fig. 13, the second compressing assembly includes a left upright 531 and a right upright 531 arranged oppositely, the upright 531 is arranged on the upper side of the mounting plate, the upright 531 is connected with air cylinders, 2 air cylinders are arranged oppositely, the heating portion 530 is installed at the output end of the air cylinders, the air cylinders drive the heating portion 530 to move relatively, the heating portion 530 includes heating sheets 532, the heating sheets 532 are connected with thermocouples and temperature sensors, and the heating portion 530 is located at the output end of the file bag material of the first material supporting wheel 404 and the second material supporting wheel 405.

The trim and seal mechanism 600 is configured to cut and seal the sides of the file pocket stock. The cutting and edge sealing mechanism 600 comprises a cutting machine frame 601, the cutting machine frame 601 comprises a cutting table, the cutting machine frame 601 is connected with a first cutting component and a second cutting component, the first cutting component comprises a cutting part 610 and a discharging plate 620, a first spacing tooth 621 is formed on the discharging plate 620, the second cutting component comprises a clamping claw part 630, the clamping claw part 630 and the discharging plate 620 can be displaced relatively, a second spacing tooth 633 corresponding to the first spacing tooth 621 is formed on the clamping claw part 630, and the first spacing tooth 621 and the second spacing tooth 633 are arranged in a staggered mode. The clamping claw part 630 comprises a first clamping plate 631 and a second clamping plate 632 which can be relatively displaced to realize clamping, the first clamping plate 631 and the second clamping plate 632 are respectively provided with second spaced teeth 633, and the second spaced teeth 633 of the first clamping plate 631 and the second clamping plate 632 are correspondingly arranged; the cutting unit 610 includes a second positioning plate 611, a cutting blade 612, and a positioning rod 613, the discharging plate 620 is located between the cutting blade 612 and the positioning rod 613, a distance is left between the second positioning plate 611 and the cutting table, the positioning rod 613 and the second positioning plate 611 are relatively movable to position the raw material, and the cutting blade 612 and the second positioning plate 611 are relatively movable to cut the raw material.

Specifically, as shown in fig. 14, the cutting frame 601 includes a frame formed by connecting sectional materials, the frame is connected to a cutting table for processing a semi-finished folder, the first cutting assembly is mounted on the table, the second cutting assembly includes a linear driving portion, the east portion of the linear region includes a slide rail connected to the sectional material frame on the upper side of the table, the slide rail is provided with an air cylinder, the second cutting assembly is disposed on the slide rail and slidably connected to the slide rail, the output end of the air cylinder is connected to the second cutting assembly, the second cutting assembly is driven to slide linearly on the slide rail, the first cutting assembly is disposed on the lower side of the cutting table, the second cutting assembly is disposed on the upper side of the cutting table, the slide rail is vertically disposed, the lower side of the first cutting assembly is a feeding port of the cutting device, the upper side of the first cutting assembly is a discharging port, as shown in fig. 3, the first cutting assembly includes a cutting portion 610 and a discharging plate 620, the cutting portion 610 cuts off the semi-finished folder, one side of the discharge plate 620 facing the second cutting assembly is provided with first spaced teeth 621, that is, a groove is formed between every two spaced teeth, the distance between every two spaced teeth is the same, and all the spaced teeth are located on the same plane, as shown in fig. 15, the first cutting assembly further comprises a connecting seat connected to the sliding rail, a clamping jaw portion 630 is connected to the connecting seat, a second spaced tooth 633 corresponding to the first spaced teeth 621 is arranged on the clamping jaw portion 630, as shown in fig. 2, the first spaced teeth 621 face up, the second spaced teeth 633 face down, the first spaced teeth 621 and the second spaced teeth 633 are arranged in a staggered manner, that is, the convex teeth of the first spaced teeth 621 vertically correspond to the tooth grooves of the second spaced teeth 633, and the tooth grooves of the first spaced teeth 621 vertically correspond to the convex teeth of the second spaced teeth 633. With reference to fig. 14 and 17, the clamping jaw 630 includes a first clamping plate 631 and a second clamping plate 632 which are vertically disposed, and further includes a plate body vertically connected to the first clamping plate 631, the second clamping plate 632 is hinged to the plate body, and a cylinder is further installed on the plate body, the cylinder is hinged to the second clamping plate 632, the same side of the first clamping plate 631 and the second clamping plate 632 is provided with second spaced teeth 633, the second spaced teeth 633 of the first clamping plate 631 and the second clamping plate 632 vertically correspond to each other, that is, the teeth of the second spaced teeth 633 of the first clamping plate 631 upwardly correspond to the teeth of the second spaced teeth 633 of the second clamping plate 632, that is, the teeth of the second spaced teeth 633 of the first clamping plate 631 upwardly correspond to the teeth of the second clamping plate 633 of the second clamping plate 632. The second clamping plate 632 includes a first segment 6321 and a second segment 6322 independent from each other, and the first segment 6321 and the second segment 6322 are both displaceable relative to the first clamping plate 631 to achieve clamping, specifically, as shown in fig. 17, the second clamping plate 632 includes 1 first segment 6321 and 2 second segments 6322, and 2 second segments 6322 are located on 2 sides of the first segment 6321, each segment is hinged to the plate body and is hinged to a cylinder, and clamping lower end faces of the first segment 6321 and the second segment 6322 are parallel to an upper end face of the first clamping plate 631.

The cutting unit 610 includes a second positioning plate 611, a cutting blade 612, and a positioning rod 613, the discharging plate 620 is located between the cutting blade 612 and the positioning rod 613, a distance is left between the second positioning plate 611 and the cutting table, the positioning rod 613 and the second positioning plate 611 are relatively movable to position the raw material, and the cutting blade 612 and the second positioning plate 611 are relatively movable to cut the raw material. The cutting portion 610 includes a shaft, a rotating wheel, a connecting ring 614, a connecting rod and an elastic member, the shaft is connected to a non-center position of the rotating wheel, the rotating wheel is rotatably connected to the connecting ring 614, one end of the connecting rod is hinged to the connecting ring 614, the other end of the connecting rod is connected to the cutting blade 612, and the connecting rod is connected to the elastic member. Specifically, as shown in fig. 15 and 16, the cutting part includes a cutting frame, a horizontal position-limiting plate is installed on the cutting frame, a second positioning plate 611, a left end plate and a right end plate are installed on the position-limiting plate, a discharging plate 620 is 5-20mm away from the upper end surface of the second positioning plate 611, (referring to fig. 2, a distance of 2-10cm is left between the second positioning plate 611 and the table), the second positioning plate 611 is located between the left end plate and the right end plate, the horizontal height difference between the second positioning plate 611 and the table is plus or minus 20mm, the discharging plate 620 is located on the upper side of the second positioning plate 611, 2 rotating wheels, connecting rings 614, connecting rods and elastic members are provided, the rotating shafts are connected to the output end of the motor, the motor drives the rotating shafts to rotate, the non-center positions of the rotating wheels are connected to the rotating shafts, the connecting rings 614 include a ring body and an extending end on the ring body, the elastic members are installed on the lower side of the position-limiting plate, the connecting rods penetrate through the position-limiting plate and are connected to the position-limiting plate in a vertical sliding manner, the connecting rod is connected with the limiting part, the lower end of the connecting rod is connected with the extending end of the connecting ring 614, the upper end of the connecting rod is connected with the cutting knife 612, namely, the left side and the right side of the cutting knife 612 are both connected with the connecting rod, the cutting knife 612 is positioned at the front end of the second positioning plate 611 and contacts with the front end of the second positioning plate 611 to cut off the semi-finished product of the file pocket, as shown in fig. 15 and 16, the cutting frame 615 is provided with an air cylinder, the output end of the air cylinder is connected with the positioning rod 613, the positioning rod 613 and the cutting knife 612 are positioned at two sides of the discharging plate 620, and the positioning rod 613 is positioned at the upper side of the second positioning plate 611.

As shown in fig. 14, the cutting frame is further provided with a suction cup assembly 640, the suction cup assembly 640 comprises a linear transportation module and a suction cup, the suction cup is connected with a cylinder, a file to be cut is conveyed to the input end of the sewing machine 201, and the side edge of the cut file is sewn and covered after the file is pulled into the sewing machine 201, which is the prior art and is not repeated.

Still including transition mechanism 700, transition mechanism 700 is including transition frame 710, transition frame 710 has the end body that can rotate, the non-rotation end of transition frame 710 is equipped with transition roller 720, transition frame 710 can the pivoted end body with make up frame 301 and rotate and connect, as shown in fig. 1, transition frame 710 rotates to be connected in the left and right sides of making up frame 301, transition frame 710 is also installed to bogie 501 downside to make up frame 301 left end transition frame 710 as an example, transition frame 710 right-hand member rotates with making up frame 301 and is connected, the unsettled setting of the other end just rotates and connects transition roller 720, other end downside installation section bar prevents transition roller 720 and collides with, in another embodiment, the transition roller 720 and the first stick 441 that bends of making up frame 301 right side transition frame 710 are same roller.

It should be emphasized that the embodiments described herein are illustrative rather than restrictive, and thus the present invention is not limited to the embodiments described in the detailed description, but other embodiments derived from the technical solutions of the present invention by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a full-automatic file pocket processingequipment which characterized in that: comprises a feeding mechanism (100), a chain belt sewing mechanism (200), a handle sewing mechanism (300), a slider mounting mechanism (400), a blank pressing steering mechanism (500) and a cutting and edge sealing mechanism (600) which are arranged in sequence;

the feeding mechanism (100) comprises a feeding frame (101) and a feeding power assembly (110), wherein the feeding power assembly (110) is used for providing initial power;

the chain belt sewing mechanism (200) comprises a sewing machine (201);

the handle sewing mechanism (300) comprises a sewing machine frame (301), the sewing machine frame (301) is connected with a bending part (312), the bending part (312) comprises bending claws (3123) which are arranged in pairs, and the bending claws (3123) which are arranged in pairs can rotate reversely to bend a handle line;

the puller installation mechanism (400) comprises an installation frame (401), the installation frame (401) is connected with a material conveying assembly (410), a sizing assembly (420) and an installation assembly (430), the material conveying assembly (410) is configured to convey a puller to a preset position, the sizing assembly (420) comprises a section die (406), a closing part and a stamping part, the closing part is configured to be meshed with a matched chain belt, the stamping part is configured to be stamped away from chain teeth on the meshed chain belt, the installation assembly (430) comprises a positioning fork (431), a tooth breaking plate (432) and a butt joint part, the positioning fork (431) is provided with a groove chamber for the meshed chain belt to pass through, the butt joint part is configured to convey the puller from the preset position of the material conveying assembly (410) to an installation position corresponding to the tooth breaking plate (432) and can fix the puller, and the tooth breaking plate (432) is located between the positioning fork (431) and the puller, the toothed plate (432) is movably arranged at the moving output end of the chain belt of the groove chamber;

the blank-pressing steering mechanism (500) comprises a steering frame (501), a steering roller (506), a first compression assembly and a second compression assembly are mounted on the steering frame (501), the first compression assembly comprises a first transport roller (504), a second transport roller (505) and a third adjusting portion (510), the second transport roller (505) has a first state adjacent to the first transport roller (504) and used for extruding air in the raw material bag and a second state directly leaving a gap larger than the first state with the first transport roller (504), the third adjusting portion (510) is configured to position the second transport roller (505) in the first state and the second state, the second compression assembly comprises oppositely arranged heating portions (530), the oppositely arranged heating portions (530) can move relatively, and the oppositely arranged heating portions (530) are located at the discharge end of the mounting mechanism, the heating part (530) is positioned at the feeding end of the first compressing assembly;

the cutting and edge sealing mechanism (600) is configured to cut the file pocket stock.

2. The fully automatic document pouch processing machine of claim 1, wherein: the shaping assembly (420) comprises a directional conveying groove (403), the stamping part comprises a stamping opening (424) arranged in the directional conveying groove (403), the stamping opening (424) is positioned at one end of the forming die (406), the shaping assembly further comprises a first stamping plate (425) and a second stamping plate (426), an elastic piece is connected between the first stamping plate (425) and the second stamping plate (426), a stamping gun (427) is connected to the first stamping plate (425), and the stamping gun (427) is connected with the second stamping plate (426) in a sliding mode and can penetrate through the second stamping plate (426);

fortune material subassembly (410) are including fortune material rail (402) and fortune material portion, fortune material portion with relative displacement can be given to fortune material rail (402), the output of fortune material rail (402) with the output of directional conveyer trough (403) corresponds, fortune material portion is located the output of fortune material rail (402), fortune material portion is including the first body of rod (411) and the second body of rod (412) of syntropy setting, second body of rod (412) unidirectional rotation sets up, first body of rod (411) is shorter than second body of rod (412).

3. The fully automatic document pouch processing machine of claim 2, wherein: puller installation mechanism (400) still includes assembly of bending in advance (440), assembly of bending in advance (440) is including first bending roller and the second roller of bending, all be equipped with the running roller on first bending roller and the second roller of bending, the running roller length of first bending roller installation is shorter than the running roller length of the second roller of bending installation, the relative position of first bending roller is less than the second roller of bending, the upper surface of the second roller of bending is faced nearly the well parting line of section of mould (406).

4. The fully automatic document pouch processing machine of claim 1, wherein: the sewing machine frame (301) comprises a sewing table platform, a sewing assembly (310) is installed on the sewing machine frame (301), the sewing assembly (310) comprises a fixing module, a bending module and a welding module, the fixing module comprises a first fixing portion (311), a second fixing portion and a cutting portion, the first fixing portion (311) comprises a threading groove (3111) for a handle line to pass through, the first fixing portion (311) and the second fixing portion can be arranged in a relatively displaceable mode, the cutting portion is arranged between the first fixing portion (311) and the second fixing portion, the cutting portion is located at a discharging groove opening of the threading groove (3111) of the first fixing portion (311), the bending module comprises a moving portion and a bending portion (312), the bending portion (312) comprises bending claws (3123) arranged in pairs, and the bending claws (3123) arranged in pairs can rotate reversely to bend the handle line, the moving part is configured to drive the bending part (312) to displace so that the handle line reaches the welding position of the welding module.

5. The full-automatic document pouch processing device according to claim 4, wherein: the bending part (312) comprises bending shafts (3121) which are arranged in pairs, the bending shafts (3121) are connected with bending tables (3122), the bending shafts (3121) rotate in opposite directions to realize the reverse rotation of the bending claws (3123), and the bending claws (3123) are connected with the bending tables (3122) in a relatively displaceable manner;

make up frame (301) and install seam braking force component (320), make up power component (320) and include main power portion, vice power portion and second regulating part (330), main power portion includes second main power roller (321) of being connected with power take off end, vice power portion include with second auxiliary power roller (322) that second main power roller (321) correspond, second regulating part (330) control second auxiliary power roller (322) displacement is in order to adjust distance between second main power roller (321) and the second auxiliary power roller (322).

6. The fully automatic document pouch processing machine of claim 1, wherein: the trimming and edge sealing mechanism (600) comprises a trimming machine frame (601), the trimming machine frame (601) comprises a trimming table, the trimming machine frame (601) is connected with a first trimming component and a second trimming component, the first trimming component comprises a trimming part (610) and a discharging plate (620), the discharging plate (620) is formed with first spaced teeth (621), the second trimming component comprises a clamping claw part (630), the clamping claw part (630) and the discharging plate (620) can relatively displace, the clamping claw part (630) is formed with second spaced teeth (633) corresponding to the first spaced teeth (621), and the first spaced teeth (621) and the second spaced teeth (633) are arranged in a staggered mode.

7. The full-automatic document pouch processing device according to claim 6, wherein: the clamping claw part (630) comprises a first clamping plate (631) and a second clamping plate (632) which can be relatively displaced to realize clamping, the first clamping plate (631) and the second clamping plate (632) are respectively provided with second spacing teeth (633), and the second spacing teeth (633) of the first clamping plate (631) and the second clamping plate (632) are correspondingly arranged;

the cutting part (610) comprises a second positioning plate (611), a cutting knife (612) and a positioning rod (613), the discharging plate (620) is positioned between the cutting knife (612) and the positioning rod (613), a distance is reserved between the second positioning plate (611) and the cutting table, the positioning rod (613) and the second positioning plate (611) can move relatively to realize the positioning of the raw materials, and the cutting knife (612) and the second positioning plate (611) can move relatively to cut off the raw materials.

8. The fully automatic document pouch processing machine according to any one of claims 2 to 7, wherein: the transition mechanism (700) is further included, the transition mechanism (700) comprises a transition frame (710), the transition frame (710) is provided with a rotatable end body, and a non-rotating end of the transition frame (710) is provided with a transition roller (720).

9. The fully automatic document pouch processing machine of claim 8, wherein: the end body of the transition frame (710) capable of rotating is rotatably connected with the sewing machine frame (301).