CN110284272B - Sleeve fork sewing machine - Google Patents

Abstract

The invention relates to the field of sewing machines, in particular to a sleeve fork sewing machine which comprises a sewing machine, a sleeve fork folding mechanism, a moving and sewing mechanism and a machine table, wherein the sleeve fork folding mechanism folds and bonds sleeve body cut pieces and sleeve fork cut pieces together, the moving and sewing mechanism moves the bonded sleeve body cut pieces and sleeve fork cut pieces to the sewing machine, and the sewing machine correspondingly sews the sleeve body cut pieces and the sleeve fork cut pieces.

Description

Sleeve fork sewing machine

Technical Field

The invention relates to the field of sewing machines, in particular to a sleeve fork sewing machine.

Background

At present, the existing clothing technology mainly uses manual work, and has the defects of complicated process flow, complex operation and high skill requirement on workers. Wherein, the general step of sewing the sleeve vent comprises; the hemming of the sleeve slit cut piece, the folding of the sleeve slit cut piece (with a portion of the sleeve body cut piece clamped in the sleeve slit cut piece and another portion of the sleeve body cut piece positioned above the sleeve slit cut piece), the sewing of the sleeve body cut piece and the sleeve slit cut piece. From this, it can be seen that: the sewing and folding of the sleeve vent cut pieces and the sleeve body cut pieces are key steps for sewing the sleeve vent, and directly affect the sewing quality and sewing efficiency of the sleeve vent. Because the working process is complex, the efficiency is low, errors are easy to occur, and the quality of the product is not guaranteed, so that the production efficiency is low, the clothing manufacturing cost is high, and the requirements of modern production cannot be met.

Disclosure of Invention

In order to solve the problems, the invention provides a sleeve fork sewing machine, which aims to solve the problem that the quality of a product cannot be guaranteed due to work operation in the background art.

In order to achieve the above purpose, the invention adopts the following technical scheme: the utility model provides a sleeve fork sewing machine, including the organic board, be used for depositing sleeve body cut-parts put the work or material rest, turn over sleeve body cut-parts and sleeve fork cut-parts and laminate the sleeve fork folding mechanism that is in the same place, drive the movement and make-up mechanism that sleeve body cut-parts and sleeve fork cut-parts removed and make-up machine that makes up to sleeve body cut-parts and sleeve fork cut-parts, wherein put the work or material rest and fix in one side of board, sleeve fork folding mechanism, make-up machine, movement and make-up mechanism are fixed in the surface of board, and the surface of board is equipped with the play pinhole that corresponds with the sewing machine.

Further, the sleeve fork moving and sewing mechanism comprises a fourth transverse driving module, a fifth transverse driving module, a sixth transverse driving module, a lifting pressing plate, a fifth longitudinal driving module, a fourth longitudinal driving module, a first pressing plate and a second pressing plate, wherein the fifth transverse driving module is fixed on the machine table, the fourth transverse driving module is fixed on the surface of the driving end of the fifth transverse driving module, the moving direction of the fourth transverse driving module is perpendicular to the moving direction of the fifth transverse driving module in a crossing manner, the fourth longitudinal driving module is arranged on the surface lifting pressing plate of the driving end of the fourth transverse driving module and fixedly connected with the driving end of the fourth longitudinal driving module, the side face of the first pressing plate is fixed with the side face of the lifting pressing plate, the sixth transverse driving module is fixed on the surface of the first pressing plate, the fifth longitudinal driving module is fixed on the surface of the driving end of the sixth transverse driving module, an opening corresponding to the sleeve fork cutting piece is arranged on the surface of the first pressing plate, the second pressing plate corresponds to the opening and is provided with a needle hole for a sewing needle to pass through, the second pressing plate is positioned in the opening and the upper end of the second pressing plate is parallel to the axial direction of the fixed driving end of the fifth longitudinal driving module.

Further, a second groove is formed in one side, fixed to the first pressing plate, of the second pressing plate, and the second pressing plate is arranged in the second groove.

Further, the fifth transverse driving module comprises a first motor, a first drag chain, a sixth sliding rail, a sixth sliding block, a transmission gear and a drag chain wheel, wherein the transmission gear, the sixth sliding rail and the sixth sliding block are arranged on the surface of the fourth transverse driving module, the drag chain wheel, a motor shaft and the transmission gear are located on the same horizontal plane, the first drag chain is sleeved on the drag chain wheel, the motor shaft and the transmission gear, and the transmission gear is located between the drag chain wheel and the motor shaft.

Further, the fourth transverse driving module comprises a second drag chain, a first supporting plate, a fixing piece, a second motor, a second driven wheel and a clamping block, wherein the first supporting plate is fixed at the lower ends of the transmission gear, the sixth sliding rail and the sixth sliding block, the fixing piece is fixed at one side of the first supporting plate, an opening surface for the driven wheel to enter is formed in the inner side of the fixing piece, the side surface of the second driven wheel is rotationally connected with the inner side of the opening surface, the second motor is fixed on the surface of the other side of the first supporting plate, the motor shaft of the second motor is identical to the rotation direction of the second driven wheel, the second sprocket is sleeved on the surfaces of the second driven wheel and the second motor shaft, and the clamping block is clamped on the surface of the second sprocket.

Further, the cuff folding mechanism includes:

the machine table is provided with an accommodating cavity with an upward opening on the surface, a shaping plate and a material folding cylinder are arranged on the bottom surface in the accommodating cavity, each side of the shaping plate corresponds to one material folding cylinder, and a plurality of air suction holes adjacent to the side surface of the shaping plate are arranged on the surface of the walking plate;

the material folding positioning plate is fixed on the surface of a piston rod of the material folding air rod;

the first transverse driving module is fixed at the lower end of the machine table;

the rotary pressing driving module is fixed on the surface of the driving end of the first transverse driving module, the driving end of the rotary pressing driving module is provided with a pair of folding material sheets which clamp sleeve fork cut pieces and drive the sleeve fork cut pieces to rotate, the folding material sheets are arranged on one side of the surface of the walking board, and a plurality of through holes are formed in the surface of the folding material sheets;

the pressing module comprises a second transverse driving module and a third transverse driving module which are fixed on the surface of the machine table, a first longitudinal driving module fixed on the surface of the driving end of the second transverse driving module, and a second longitudinal driving module fixed on the surface of the driving end of the third transverse driving module, wherein the output end of the first longitudinal driving module is connected with a folding material shaping pressing plate, and the output end of the second longitudinal driving module is connected with a folding material positioning pressing plate corresponding to the qualitative pressing plate.

Further, the rotatory swager drive module includes and rolls over the material location cylinder, roll over material location cylinder seat, the rotating electrical machines, rotatory fortune position seat, rotatory fixing base, axis of rotation and drive assembly, rotatory fortune position seat is fixed on the drive end surface of first horizontal drive module, the rotating electrical machines, rotatory fixing base is fixed on the surface of rotatory fortune position seat, the axis of rotation wears to establish in the both sides of rotatory fixing base, roll over the one end and the axis of rotation of material location cylinder seat and fix, roll over the surface at roll over the material location cylinder seat to fix, the motor shaft of rotating electrical machines passes through drive assembly and is connected with the axis of rotation transmission, roll over the piston rod and the end connection of roll over the flitch of material location cylinder.

Further, the folding positioning cylinder joint comprises an inner hinge seat, an outer hinge seat and a supporting seat, wherein the pair of folding sheets are respectively a movable clamping plate and a fixed clamping plate, the supporting seat is fixed on the surface of the rotary positioning seat and positioned below the folding positioning cylinder, a first groove for accommodating the inner hinge seat is formed in the surface of the rotary positioning seat, one end of the fixed clamping plate is fixed between the bottom surface of the first groove and the inner hinge seat, a base plate along the direction of the folding positioning cylinder is arranged at the lower end of the inner hinge seat, two sides of the base plate are rotationally connected with two sides of the first groove, the movable clamping plates are fixed at the lower end of the base plate, the side surface of the outer hinge seat is fixed with a piston rod of the folding positioning cylinder, and the outer hinge seat is hinged with the inner hinge seat.

Further, the first transverse driving module comprises a bearing plate, a first sliding block, a first sliding rail and a first telescopic cylinder, wherein a supporting block connected with the lower end of the machine table is arranged on the surface of the bearing plate, the first sliding rail is fixed on the surface of the bearing plate, the first sliding block is arranged on the first sliding rail in a sliding mode, the end portion of the first sliding block is fixed with the end portion of the rotary positioning seat, and the plunger pump of the first telescopic cylinder is fixed with the first sliding block.

Further, the mounting seat comprises a pair of first supporting arms provided with clamping grooves and connecting plates with clamping blocks on two sides of the first supporting arms, the connecting plates are fixed with the clamping grooves on the first supporting arms through the clamping blocks in a clamping mode, and the second transverse driving module and the third transverse driving module are fixed on the surfaces of the connecting plates.

The invention has the beneficial effects that:

the invention is composed of a sewing machine, a sleeve fork folding mechanism, a moving and sewing mechanism and a machine table, wherein the sleeve fork folding mechanism folds and bonds sleeve body cut pieces and sleeve fork cut pieces together, the moving and sewing mechanism moves the bonded sleeve body cut pieces and sleeve fork cut pieces to the sewing machine, and the sewing machine correspondingly sews the sleeve body cut pieces and the sleeve fork cut pieces.

Drawings

Fig. 1 is a structural diagram of the present invention.

FIG. 2 is an exploded view of the cuff movement and sewing mechanism of the present invention.

Fig. 3 is another view of fig. 2.

Fig. 4 is a schematic view of the structure of the cuff moving and sewing mechanism.

Fig. 5 is a rear view of fig. 4.

Fig. 6 is a rear view of fig. 2.

Fig. 7 is a connection structure diagram of the first pressing plate and the second pressing plate.

Fig. 8 is a structural diagram of the present invention.

FIG. 9 is a block diagram of a rotary swage drive module according to the present invention.

Fig. 10 is an exploded view of the folding positioning cylinder joint of fig. 9.

FIG. 11 is a side view of the present invention;

fig. 12 is a rear view of the present invention.

Reference numerals illustrate: 2-an air suction hole; 301-folding positioning cylinder seats;

302-a rotating electrical machine; 303-rotating a positioning seat; 304-rotating the fixed seat;

-a backing plate; 306-a driving wheel; 307-a first driven wheel; 309-inner hinge support;

310-outer hinge support; 311-supporting seats; 312-moving the splint; 313-fixing splint; 314-a first groove; 401. a first slider;

500-clamping grooves; 501-a first support arm; 503-connecting plates; 504-a drive motor;

505-screw; 506-nut; 508-a fifth slider; 600-a second telescopic cylinder;

603-a second slide rail; 604-a second slider; 700-third slide rail; 701-a third slider;

702-a third telescopic cylinder; 8-protecting plate; 800-pressing down a cylinder; 801-pressing down a positioning seat;

802-fourth slide rail; 803-fourth slider; 805-spacer blocks; 806-mounting blocks;

901-a second material folding positioning plate; 1002-a second material folding cylinder;

11-folding and shaping pressing plates; 12-folding positioning blocks;

13-placing a material rack; 14-a machine; 15-a first platen; 16-a second platen;

17-a second groove; 18-a first motor; 19-a first tow chain; 20-sixth slide rail;

21-sixth sliders; 22-drag chain wheel; 23-a second tow chain; 24-a first support plate;

25-fixing piece; 26-a second motor; 27-a second driven wheel; 28-clamping blocks;

29-fourth telescopic cylinder; 30-sixth telescopic cylinder; 31-seventh telescopic cylinder; 33-sewing machine.

Detailed Description

Referring to fig. 1, the present invention relates to a sleeve-fork sewing machine, which comprises an organic table 14, a material placing frame 13 for storing sleeve-body cut pieces, a sleeve-fork folding mechanism for folding and attaching the sleeve-body cut pieces and the sleeve-fork cut pieces together, a moving and sewing mechanism 33 for driving the sleeve-body cut pieces and the sleeve-fork cut pieces to move, and a sewing machine 33 for sewing the sleeve-body cut pieces and the sleeve-fork cut pieces, wherein the material placing frame 13 is fixed at one side of the table 14, the sleeve-fork folding mechanism, the sewing machine 33, the moving and sewing mechanism 33 are fixed at the surface of the table 14, and the surface of the table 14 is provided with a needle outlet hole corresponding to the sewing machine.

Referring to fig. 2-6, the sleeve fork moving and sewing mechanism further includes a fourth transverse driving module, a fifth transverse driving module, a sixth transverse driving module, a lifting pressing plate, a fifth longitudinal driving module, a fourth longitudinal driving module, a first pressing plate 15, and a second pressing plate 16, wherein the fifth transverse driving module is fixed on the machine table 14, the fourth transverse driving module is fixed on the surface of the driving end of the fifth transverse driving module, the moving direction of the fourth transverse driving module is crossed and perpendicular to the moving direction of the fifth transverse driving module, the fourth longitudinal driving module is arranged on the surface of the driving end of the fourth transverse driving module, the lifting pressing plate is fixedly connected with the driving end of the fourth longitudinal driving module, the side surface of the first pressing plate 15 is fixed with the side surface of the lifting pressing plate, the sixth transverse driving module is fixed on the surface of the first pressing plate 15, the surface of the first pressing plate 15 is provided with an opening corresponding to the sleeve fork cutting piece, the second pressing plate 16 is corresponding to the opening, the surface of the opening is provided with a needle hole for a sewing needle to pass through, the second pressing plate 16 is positioned in the opening, and the upper end of the second pressing plate 16 is parallel to the axial direction of the driving end of the fifth longitudinal driving module is fixed with the driving end of the fifth longitudinal driving module;

by adopting the scheme, the invention comprises the first pressing plate 15, the second pressing plate 16 and the lifting pressing plate, the first pressing plate 15 and the second pressing plate can be driven to finish the pressing of the sleeve fork cut piece and the sleeve body cut piece and finish the automatic sewing of the sleeve fork cut piece and the sleeve body cut piece through the fourth transverse driving module, the fifth transverse driving module, the sixth transverse driving module, the fifth longitudinal driving module and the fourth longitudinal driving module, the first pressing plate 15 is pressed on the sleeve body cut piece and the second pressing plate is pressed on the sleeve fork cut piece in the sewing process, the positions of the two parts are unchanged, the second pressing plate 16 is slightly lifted when the second pressing plate 16 is withdrawn from the accommodating groove, the flatness of the sleeve fork cut piece and the sleeve body cut piece is not affected, and meanwhile, a sewing needle head is sewn along a needle hole, and the sewing is accurate. The invention adopts automatic operation, thereby effectively saving human resources, reducing production cost, greatly promoting the working efficiency of the production line, avoiding errors and flaws of manual operation, improving processing quality, having high practical value and being worthy of popularization and application;

it can be understood that after the sleeve slit cut piece completes the hemming and is folded with the sleeve body cut piece, the first pressing plate 15 presses the sleeve slit cut piece and the sleeve body cut piece and moves to the sewing machine head through the driving of the fourth transverse driving module, the fifth transverse driving module, the sixth transverse driving module, the fifth longitudinal driving module and the fourth longitudinal driving module. When the sewing machine head is used for sewing, the trace of the needle running of the sewing machine head is as follows: the needle enters from the needle hole on the surface of the second pressing plate 16, the fifth longitudinal driving module drives the second pressing plate 16 to lift along with the needle hole suture, then the sixth transverse driving module drives the fifth longitudinal driving module to move forwards, and then the sewing needle continuously sews towards the needle hole, so that the sewing of the sleeve fork is completed, and the sewing needle withdraws from the needle inlet hole.

As shown in fig. 7, further, a second groove 17 is formed on the fixed side of the first pressing plate 15 and the second pressing plate 16, and the second pressing plate 16 is disposed in the second groove 17; by adopting the scheme, the first pressing plate 15 and the second pressing plate 16 can be in quick fit connection.

Further, the fifth transverse driving module comprises a first motor 18, a first drag chain 19, a sixth sliding rail 20, a sixth sliding block 21, a transmission gear and a drag chain wheel 22, wherein the transmission gear, the sixth sliding rail 20 and the sixth sliding block 21 are arranged on the surface of the fourth transverse driving module, the drag chain wheel 22, a motor shaft of the first motor 18 and the transmission gear are positioned on the same horizontal plane, and the first drag chain 19 is sleeved on the drag chain wheel 22, the motor shaft of the first motor 18 and the transmission gear, and the transmission gear is positioned between the drag chain wheel 22 and the motor shaft; by adopting the scheme, the first motor 18 drives the transmission gear to rotate through the first drag chain 19, namely drives the fourth transverse driving module to horizontally move.

Further, the fourth transverse driving module comprises a second drag chain 23, a first supporting plate 24, a fixing piece 25, a second motor 26, a second driven wheel 27 and a clamping block 28, wherein the first supporting plate 24 is fixed at the lower ends of the transmission gear, the sixth sliding rail 20 and the sixth sliding block 21, the fixing piece 25 is fixed at one side of the first supporting plate 24, an opening surface for the second driven wheel 27 to enter is formed in the inner side of the fixing piece 25, the side surface of the second driven wheel 27 is rotationally connected with the inner side of the opening surface, the second motor 26 is fixed at the other side surface of the first supporting plate 24, the motor shaft of the second motor 26 is the same as the rotating direction of the second driven wheel 27, the second chain wheel is sleeved on the surfaces of the second driven wheel 27 and the motor shaft of the second motor 26, and the clamping block 28 is clamped on the surface of the second chain wheel; by adopting the scheme, the clamping blocks 28 are clamped on the surface of the second chain wheel, and the second motor 26 drives the second drag chain 23 to rotate, so that the effect of moving the fourth transverse driving module can be realized.

Further, the fourth longitudinal driving module is a fourth telescopic cylinder 29, the fourth telescopic cylinder 29 is fixed at the lower end of the clamping block 28, and a plunger pump of the fourth telescopic cylinder 29 is fixed with the surface of the lifting pressing plate; by adopting the scheme, the lifting pressing plate can be lifted up and down, and the second telescopic cylinder pushes the lifting pressing plate.

Further, the sixth transverse driving module is a sixth telescopic cylinder 30, and a plunger pump of the sixth telescopic cylinder 30 is fixed with the surface of the fifth longitudinal driving module; with the above-described arrangement, the sixth telescopic cylinder 30 achieves a lateral translation effect.

Further, the fifth longitudinal driving module comprises a seventh telescopic cylinder 31 and a connecting block 32, the seventh telescopic cylinder 31 is fixed on the surface of the plunger pump of the sixth telescopic cylinder 30, one end of the connecting block 32 is connected with the plunger pump of the seventh telescopic cylinder 31, and the other end of the connecting block 32 is connected with the second pressing plate 16; with the above scheme, the seventh telescopic cylinder 31 drives the connection block 32 to move, so that the second pressing plate 16 is lifted.

Referring to fig. 8-9, further, the surface of the machine 14 is provided with an accommodating cavity with an upward opening, and the sleeve-fork folding mechanism includes:

the shaping plate is arranged in the accommodating cavity;

the material folding cylinder is arranged in the accommodating cavity, and each side of the shaping plate corresponds to one material folding cylinder, wherein the surface of the shaping plate is provided with a plurality of air suction holes 2 adjacent to the side surface of the shaping plate;

the material folding positioning plate is fixed on the surface of a piston rod of the material folding air rod;

the first transverse driving module is fixed at the lower end of the machine table 14;

the rotary pressing driving module is fixed on the surface of the driving end of the first transverse driving module, the driving end of the rotary pressing driving module is provided with a pair of folded material sheets which clamp sleeve fork cut pieces and drive the sleeve fork cut pieces to rotate, the folded material sheets are arranged on one side of the surface of the shaping plate, and a plurality of through holes are formed in the surface of the folded material sheets;

the pressing module comprises a second transverse driving module and a third transverse driving module which are fixed on the surface of the machine table 14, a first longitudinal driving module fixed on the surface of the driving end of the second transverse driving module and a second longitudinal driving module fixed on the surface of the driving end of the third transverse driving module, wherein the driving end of the first longitudinal driving module is connected with a folding and shaping pressing plate 11, and the driving end of the second longitudinal driving module is connected with a folding and positioning block 12 corresponding to the shaping plate;

by adopting the scheme, the folding positioning block 12 is used for pressing the sleeve fork cut pieces, and the folding cylinder and the folding positioning plate are matched to enable the edges of the sleeve fork cut pieces to be folded along the moving direction of the piston rod of the folding cylinder, so that the sleeve fork full-automatic folding can be realized through the folding positioning plate and the folding positioning block 12, and the problems that the error rate is improved and the manufacturing efficiency is low due to manual folding in the traditional clothing manufacturing process are solved;

in this embodiment, still including the air pump and with the trachea of air pump intercommunication, the trachea corresponds the intercommunication with the suction hole 2 on the shaping board, and roll over material cylinder and be equipped with 4, can understand that first material cylinder, second material cylinder 1002, third material cylinder, fourth material cylinder of rolling over, roll over the material locating plate and also be equipped with 4, be first material locating plate, second material locating plate 901, third material locating plate, fourth material locating plate of rolling over respectively, concrete use is:

the rotary material pressing driving module is controlled in advance to open the two folded material sheets, the sleeve fork cut pieces are correspondingly placed on the surface of the shaping plate and between the two folded material sheets, the material folding positioning block 12 is driven by the second longitudinal driving module to press the sleeve fork cut pieces, the air pump, the air pipe, the air suction hole 2 and the through hole are matched, the sleeve fork cut pieces are positioned at the edge part of the shaping plate to form negative pressure, meanwhile, the first material folding cylinder, the second material folding cylinder 1002, the third material folding cylinder and the fourth material folding cylinder are sequentially driven, the edge on the sleeve fork cut pieces is sequentially folded to form a folding effect by sequentially moving the first material folding positioning plate 901, the third material folding positioning plate and the fourth material folding positioning plate, the third longitudinal driving module and the second longitudinal driving module are controlled to reset, the rotary material pressing driving module is controlled to clamp the sleeve fork cut pieces by the two folded material pieces and rotate anticlockwise towards the other side of the surface of the shaping plate, at this time, be equipped with the contained angle between the opposite side on two folded material pieces and the shaping board surface, at this moment with sleeve body cut-parts corresponding placement at the opposite side surface on shaping board surface, rotatory swage drive module drive two folded material pieces continue anticlockwise rotation until the sleeve body cut-parts pressfitting is fixed, moreover, through the cooperation of second horizontal drive module, first vertical drive module, make the top that the folded material was formed into shape clamp plate 11 remove to the folded material piece and pressfitting sleeve fork cut-parts and sleeve body cut-parts, the air pump stops the operation, first horizontal drive module shrink makes rotatory swage drive module remove outside the board 14, two folded material pieces open and break away from sleeve fork cut-parts and sleeve body cut-parts promptly, therefore, this scheme not only can save the cost greatly, can also improve work efficiency and product yield, the practicality is strong and realized a full automatization's effect.

Referring to fig. 9, further, the rotary pressing driving module includes a folding positioning cylinder, a folding positioning cylinder seat 301, a rotating motor 302, a rotating positioning seat 303, a rotating fixing seat 304, a rotating shaft and a transmission assembly, the rotating positioning seat 303 is fixed on the driving end surface of the first transverse driving module, the rotating motor 302 and the rotating fixing seat are fixed on the surface of the rotating positioning seat 303, the rotating shaft is arranged on two sides of the rotating fixing seat 304 in a penetrating way, one end of the folding positioning cylinder seat 301 is fixed with the rotating shaft, the folding positioning cylinder is fixed on the surface of the folding positioning cylinder seat 301, a motor shaft of the rotating motor 302 is in transmission connection with the rotating shaft through the transmission assembly, and a piston rod of the folding positioning cylinder is connected with an end of the folding sheet; by adopting the scheme, the rotating motor 302 drives the folding positioning cylinder to rotate through the transmission component, and the folding positioning cylinder is fixed on the surface of the folding positioning cylinder seat 301, so that the rotating effect of the rotating pressing driving module is realized.

Referring to fig. 10, the folding positioning cylinder joint further includes a folding positioning cylinder joint, where the folding positioning cylinder joint includes an inner hinge seat 309, an outer hinge seat 310, and a support seat 311, where the pair of folding sheets are a moving clamp plate 312 and a fixed clamp plate 313, the support seat 311 is fixed on the surface of the rotating positioning seat 303 and is located below the folding positioning cylinder, the surface of the rotating positioning seat 303 is provided with a first groove 314 for accommodating the inner hinge seat 309, one end of the fixed clamp plate 313 is fixed between the bottom surface of the first groove 314 and the inner hinge seat 309, the lower end of the inner hinge seat 309 is provided with a backing plate along the direction of the folding positioning cylinder, two sides of the backing plate are rotationally connected with two sides of the first groove 314, the moving clamp plate 312 is fixed at the lower end of the backing plate, the side surface of the outer hinge seat 310 is fixed with a piston rod of the folding positioning cylinder, and the outer hinge seat 310 is hinged with the inner hinge seat 309; by adopting the above scheme, the backing plate at the lower end of the inner hinge seat 309 is rotationally connected with the first groove 314, so that the piston rod of the folding positioning cylinder contracts to pull the outer hinge seat 310 to lift the backing plate near one end of the machine table 14, namely, the movable clamping plate 312 is lifted, so that the clamping effect in the rotary pressing driving module is realized.

Further, the transmission assembly comprises a driving wheel 306, a first driven wheel 307 and a belt, the driving wheel 306 is sleeved on the surface of a motor shaft of the rotating motor 302, the first driven wheel 307 is sleeved on the surface of the rotating shaft, and the driving wheel 306 is in transmission connection with the first driven wheel 307 through the belt; by adopting the scheme, the device is simple in structure, easy to assemble and beneficial to improving the production efficiency of the device.

Further, the first transverse driving module comprises a bearing plate, a first sliding block 401, a first sliding rail and a first telescopic cylinder, the surface of the bearing plate is provided with a supporting block connected with the lower end of the machine table 14, the first sliding rail is fixed on the surface of the bearing plate, the first sliding block 401 is arranged on the first sliding rail in a sliding manner, the end part of the first sliding block 401 is fixed with the end part of the rotary positioning seat 303, and a plunger pump of the first telescopic cylinder is fixed with the first sliding block 401; by adopting the above scheme, the first slider 401 and the first sliding rail cooperate to enable the rotary positioning seat 303 to perform a lateral movement.

Further, the device also comprises a mounting seat, wherein the mounting seat comprises a pair of first supporting arms 501 provided with clamping grooves 500 and connecting plates 503 provided with clamping blocks at two sides of the first supporting arms 501, the connecting plates 503 are clamped and fixed with the clamping grooves 500 on the first supporting arms 501 through the clamping blocks, and the second transverse driving modules and the third transverse driving modules are fixed on the surfaces of the connecting plates 503; by adopting the scheme, a space for placing the second transverse driving module and the third transverse driving module is provided, and the next procedure of moving the fork cut pieces and the sleeve body cut pieces is prevented from being influenced.

In this embodiment, the second transverse driving module includes a driving motor 504, a screw 505, a nut 506, a fifth sliding rail, and a fifth sliding block 508, where the driving motor 504 is fixed at the lower end of the connecting plate 503, the fifth sliding rail is fixed at the back of the connecting plate 503, the fifth sliding block 508 is slidably connected with the fifth sliding rail, the nut 506 is fixed at the lower end of the fifth sliding block 508, one end of the screw 505 is fixed with a motor shaft of the driving motor 504, and the other end of the screw 505 is in threaded connection with the nut 506.

Referring to fig. 11-12, further, the second transverse driving module includes a second telescopic cylinder 600, a second sliding rail 603, and a second sliding block 604, the second sliding rail 603 is transversely disposed on a side surface of the connecting plate 503, the second sliding block 604 is slidably connected with the second sliding rail 603, the second telescopic cylinder 600 is disposed at an upper end of the connecting plate 503, a plunger pump of the second telescopic cylinder 600 is fixed with a side surface of the second sliding block 603, the first longitudinal driving module is disposed on a surface of the second sliding block 604, and a structure of the third transverse driving module is the same as that of the second transverse driving module; by adopting the above scheme, the second telescopic cylinder 600 is used as the moving power of the second slide rail 603, so that the first longitudinal driving module can move more stably.

Further, the first longitudinal driving module comprises a third sliding rail 700, a third sliding block 701 and a third telescopic cylinder 702, wherein the third telescopic cylinder 702 and the third sliding rail 700 are vertically arranged on the surface of the second sliding block 604, the third sliding block 701 is in sliding connection with the third sliding rail 700, the lower end of the third sliding rail 700 is fixed with the upper end of the folding fixed pressing plate 11, and the structure of the second longitudinal driving film group is the same as that of the first longitudinal driving module; by adopting the scheme, the third sliding block 701 and the third sliding rail 700 realize the effect of lifting the folded material shaping pressing plate 11 up and down through the third telescopic cylinder 702.

Further, the third longitudinal driving module further comprises a pressing cylinder 800, a pressing positioning seat 801, a fourth sliding rail 802, a fourth sliding block 803, a cushion block 805 and a mounting block 806, wherein the pressing positioning seat 801 is fixed to the side face of the third sliding block 701, the pressing cylinder 800 is arranged on the surface of the pressing positioning seat 801, the cushion block 805 is fixed to the side face of the pressing positioning seat 801, the fourth sliding block 803 is fixed to the back face of the cushion block 805, the fourth sliding rail 802 is fixed to one side of the mounting block 806, the fourth sliding block 803 is in sliding connection with the fourth sliding rail 802, a plunger pump of the pressing cylinder 800 penetrates through the pressing positioning seat 801 to be fixed to the mounting block, and the folding positioning block is fixed to the lower end of the mounting block; by adopting the scheme, the sleeve clamp is simple in structure and strong in practicability, so that the folding and shaping pressing plate 11 can be stably pressed against the sleeve fork cut piece and the sleeve body cut piece by the pressing cylinder 800.

Further, the device also comprises a protection plate 8, wherein a notch corresponding to the shaping plate is arranged on the surface of the protection plate 8, and the protection plate 8 is arranged on the surface of the accommodating cavity in a covering manner; by adopting the scheme, the protection board 8 is covered on the first material folding positioning plate, the second material folding positioning plate 901, the third material folding positioning plate and the fourth material folding positioning plate, so that the first material folding positioning plate, the second material folding positioning plate 901, the third material folding positioning plate and the fourth material folding positioning plate are prevented from being exposed, and the protection of the first material folding positioning plate, the second material folding positioning plate 901, the third material folding positioning plate and the fourth material folding positioning plate is facilitated.

The above embodiments are merely illustrative of the preferred embodiments of the present invention and are not intended to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art to the technical solution of the present invention should fall within the scope of protection defined by the claims of the present invention without departing from the spirit of the design of the present invention.

Claims (5)

1. The sleeve fork sewing machine is characterized by comprising an organic table, a material placing frame for storing sleeve body cut pieces, a sleeve fork folding mechanism for folding and attaching the sleeve body cut pieces and the sleeve fork cut pieces together, a moving and sewing mechanism for driving the sleeve body cut pieces and the sleeve fork cut pieces to move, and a sewing machine for sewing the sleeve body cut pieces and the sleeve fork cut pieces, wherein the material placing frame is fixed on one side of the machine table, the sleeve fork folding mechanism, the sewing machine, the moving and sewing mechanism are fixed on the surface of the machine table, and the surface of the machine table is provided with a needle outlet hole corresponding to the sewing machine;

the sleeve vent folding mechanism comprises:

the machine table is provided with an accommodating cavity with an upward opening on the surface, a shaping plate is arranged on the bottom surface in the accommodating cavity, each side of the shaping plate corresponds to one material folding cylinder, and a plurality of air suction holes adjacent to the side surface of the shaping plate are formed in the surface of the shaping plate;

the material folding positioning plate is fixed on the surface of a piston rod of the material folding cylinder; the folded material positioning plate sequentially moves to enable the edges on the sleeve fork cut pieces to be sequentially folded to form folded edges;

the first transverse driving module is fixed at the lower end of the machine table;

the rotary pressing driving module is fixed on the surface of the driving end of the first transverse driving module, the driving end of the rotary pressing driving module is provided with a pair of folded material sheets which clamp sleeve fork cut pieces and drive the sleeve fork cut pieces to rotate, the folded material sheets are arranged on one side of the surface of the shaping plate, and a plurality of through holes are formed in the surface of the folded material sheets;

the pressing module comprises a second transverse driving module and a third transverse driving module which are fixed on the surface of the machine table, a first longitudinal driving module which is fixed on the surface of the driving end of the second transverse driving module, and a second longitudinal driving module which is fixed on the surface of the driving end of the third transverse driving module, wherein the output end of the first longitudinal driving module is connected with a folding shaping pressing plate, the folding shaping pressing plate moves to the upper part of the folding sheet to be used for pressing sleeve fork cut pieces and sleeve body cut pieces, and the output end of the second longitudinal driving module is connected with a folding positioning block corresponding to the shaping plate and used for pressing the sleeve fork cut pieces;

the rotary pressing driving module comprises a folding positioning cylinder, a folding positioning cylinder seat, a rotary motor, a rotary positioning seat, a rotary fixing seat, a rotating shaft and a transmission assembly, wherein the rotary positioning seat is fixed on the surface of the driving end of the first transverse driving module, the rotary motor and the rotary fixing seat are fixed on the surface of the rotary positioning seat, the rotating shaft penetrates through two sides of the rotary fixing seat, one end of the folding positioning cylinder seat is fixed with the rotating shaft, the folding positioning cylinder is fixed on the surface of the folding positioning cylinder seat, a motor shaft of the rotary motor is in transmission connection with the rotating shaft through the transmission assembly, and a piston rod of the folding positioning cylinder is connected with the end part of the folding sheet;

the folding material positioning cylinder joint comprises an inner hinge seat, an outer hinge seat and a supporting seat, wherein a pair of folding material sheets are respectively a movable clamping plate and a fixed clamping plate, the supporting seat is fixed on the surface of the rotary positioning seat and positioned below the folding material positioning cylinder, a first groove for accommodating the inner hinge seat is formed in the surface of the supporting seat, one end of the fixed clamping plate is fixed between the bottom surface of the groove and the inner hinge seat, a base plate along the direction of the folding material positioning cylinder is arranged at the lower end of the inner hinge seat, two sides of the base plate are connected with two sides of the first groove in a rotating mode, the movable clamping plates are fixed at the lower end of the base plate, the side face of the outer hinge seat is fixed with a piston rod of the folding material positioning cylinder, and the outer hinge seat is hinged with the inner hinge seat.

2. The sleeve-fork sewing machine according to claim 1, wherein the moving and sewing mechanism for driving the sleeve body cut-parts and the sleeve-fork cut-parts to move comprises a fourth transverse driving module, a fifth transverse driving module, a sixth transverse driving module, a lifting pressing plate, a fifth longitudinal driving module, a fourth longitudinal driving module, a first pressing plate and a second pressing plate, wherein the fifth transverse driving module is fixed on the machine table, the fourth transverse driving module is fixed on the surface of the driving end of the fifth transverse driving module, the moving direction of the fourth transverse driving module is perpendicular to the moving direction of the fifth transverse driving module in a crossing manner, the fourth longitudinal driving module is arranged on the surface of the driving end of the fourth transverse driving module, the lifting pressing plate is fixedly connected with the driving end of the fourth longitudinal driving module, the side surface of the first pressing plate is fixed with the side surface of the lifting pressing plate, the fifth longitudinal driving module is fixed on the surface of the driving end of the sixth transverse driving module, an opening corresponding to the sleeve-fork cut-parts is arranged on the surface of the first pressing plate, the second pressing plate corresponds to the opening, the needle is provided on the surface of the opening, the needle is provided with a needle penetrating hole, and the needle penetrating through the opening is arranged on the surface of the opening is parallel to the longitudinal direction of the driving end of the fifth driving module.

3. A cuff sewing machine as recited in claim 2, wherein: the first clamp plate is equipped with the second recess with the fixed one side of second clamp plate, and the second clamp plate sets up in the second recess.

4. A cuff sewing machine as recited in claim 1, wherein: the first transverse driving module comprises a bearing plate, a first sliding block, a first sliding rail and a first telescopic cylinder, wherein a supporting block connected with the lower end of the machine is arranged on the surface of the bearing plate, the first sliding rail is fixed on the surface of the bearing plate, the first sliding block is arranged on the first sliding rail in a sliding manner, the end part of the first sliding block is fixed with the end part of the rotary positioning seat, and the plunger pump of the first telescopic cylinder is fixed with the first sliding block.

5. A cuff folding mechanism according to claim 1, wherein: the mounting seat comprises a pair of first supporting arms provided with clamping grooves and connecting plates with clamping blocks on two sides of the first supporting arms, the connecting plates are fixed with the clamping grooves on the first supporting arms through clamping blocks in a clamping mode, and the second transverse driving module and the third transverse driving module are fixed on the surfaces of the connecting plates.