CN109662359B

CN109662359B - Nail knot hem all-in-one is tailor to raincoat

Info

Publication number: CN109662359B
Application number: CN201811600417.6A
Authority: CN
Inventors: 丁海江
Original assignee: Linhai Fuyin Rainwear Co ltd
Current assignee: Linhai Fuyin Rainwear Co ltd
Priority date: 2018-12-26
Filing date: 2018-12-26
Publication date: 2021-04-20
Anticipated expiration: 2038-12-26
Also published as: CN109662359A

Abstract

The invention provides a cutting, buckling and flanging integrated machine for a raincoat, and belongs to the technical field of production of disposable raincoats. The technical problems that the existing disposable raincoat is more in production process, easy to damage in the turnover process, large in loss and the like are solved. This nail knot hem all-in-one is tailor to raincoat includes loading attachment, the button sewing machine, tailor device and hem device, the last side of hem ware of hem device can pivoting and press on the last side of base plate, be equipped with the heater strip in the base plate, first synchronous gyro wheel and spring band are epaxial all located to two pay-off spring band tensioning covers, the epaxial axial interval of following of spring band is provided with annular arch and recess, the epaxial arch of two spring bands and recess mutually support and make the pay-off spring band be the wavy when two spring band are epaxial. The button sewing machine, the cutting device and the edge folding device are integrated, so that the production efficiency is greatly improved, the loss of materials caused by replacing the machine in the middle is avoided, and the cost is favorably reduced.

Description

Nail knot hem all-in-one is tailor to raincoat

Technical Field

The invention belongs to the technical field of production of disposable raincoats, and particularly relates to a cutting, buckling and flanging integrated machine for a raincoat.

Background

A raincoat generally refers to a rain-proof garment made of waterproof cloth. The waterproof cloth suitable for the raincoat comprises an adhesive tape, an oilcloth, a plastic film and the like, and the modern waterproof cloth of the raincoat focuses on air permeability and is commonly made of special nylon, Gore-Tex and the like. The breathable raincoat is beneficial for people to radiate damp and hot water out of the raincoat when wearing the raincoat, so that the comfortable sensation is increased. Because the disposable raincoat is more and more popular with people due to convenient use, the disposable raincoat in the market is gradually produced by adopting degradable materials, but the existing production equipment technology is relatively backward, the cloth used for generating the raincoat main body is firstly primarily cut into required small pieces, then the small pieces are put into a cutting machine for cutting and forming, then the button sewing treatment is carried out, then the edge folding treatment is carried out to obtain the raincoat main body, and finally the treated raincoat main body and the cap are sewn to obtain the disposable raincoat. Production processes are more, and the middle turnover process is great to the loss of manpower and materials and time, simultaneously, because disposable cloth toughness and thickness are less than normal raincoat relatively, consequently damaged easily at whole in-process, cause the unnecessary loss. Therefore, how to provide a disposable raincoat production device which can improve the production efficiency and reduce the loss becomes a technical problem which needs to be solved urgently.

Disclosure of Invention

The invention aims to provide a cutting, buckling and flanging all-in-one machine for a raincoat, which can improve the production efficiency and reduce the loss.

The purpose of the invention is realized as follows:

the utility model provides a nail knot hem all-in-one is tailor to raincoat which characterized in that: including loading attachment, button sewing machine, tailor device and the hem device that sets gradually from the back to the front, the hem device includes the base plate, locates the hemmer of base plate front side, two feeding spring areas, two spring band shafts and two and be used for driving feeding spring and take pivoted first synchronous gyro wheels, the last side of hemmer can be around the pivoting and press on the last side of base plate, along transversely being provided with the heater strip in the base plate, two feeding spring take the tensioning cover to locate corresponding first synchronous gyro wheels and spring band epaxially, the epaxial annular arch and the recess of being provided with along axial interval of spring band, two epaxial archs and the recess of spring band mutually support and make feeding spring area be the wavy when two spring band shafts between.

The button sewing machine, the cutting device and the edge folding device are integrated, so that the button sewing, cutting and edge folding operations can be realized by only one machine, the production efficiency is greatly improved, the material loss caused by the middle replacement of the machine is avoided, and the cost is favorably reduced; furthermore, in the conveying process, especially under the condition that the front side has no pulling force, the material is easy to fold and bend, the specified position cannot be smoothly conveyed, the material is separated from the feeding spring belt to be conveyed to the upper side of the edge folding device by a certain distance, the front side has no pulling force, the wavy spring belt shaft can enable the material to become stiff in the conveying direction, the material can be smoothly conveyed to the edge folding device forwards, and the stability of the edge folding device is favorably improved.

In foretell raincoat is tailor and is nailed and detained hem all-in-one, loading attachment is including last blowing frame and the blowing frame that is used for placing the feed cylinder and go up blowing machine and the blowing machine that is used for the blowing with the feed cylinder cooperation on last blowing frame and the blowing frame respectively, the front side of going up the blowing machine is connected with the synchronous gyro wheel of second, the front side of blowing machine is connected with two piece at least driven shafts, the front side of the synchronous gyro wheel of second is equipped with the total blowing machine with the material pressfitting of two feed cylinders transport. The upper surface of the cloth guide rack on the charging barrel is guided through the driven shaft and the second synchronous roller, then the two materials are pressed through the general discharging machine, and in the button sewing machine, the cutting device and the edge folding device, the materials are all located in the same horizontal plane.

In foretell raincoat cutting, button sewing and edge folding all-in-one machine, be equipped with the button sewing bottom plate between loading attachment and the cutting device, be fixed with the slide rail perpendicular with material direction of motion on the last side of button sewing bottom plate, the slide rail is slided and is equipped with the button sewing frame, the button sewing machine is fixed in the button sewing frame, be equipped with on the button sewing bottom plate and drive the gliding first driving piece of button sewing frame along the slide rail. The button sewing machine is slidably fixed on the button sewing bottom plate through the button sewing machine frame, and different button sewing tracks can be realized through the sequential control of the movement of the button sewing machine on the sliding rail, the button sewing speed and the material movement; the first driving piece is a motor and a screw rod, and can also be an air cylinder or a hydraulic cylinder.

In the all-in-one machine for cutting, nailing, buckling and folding the raincoat, the button sewing machine and the button sewing machine frame are symmetrically arranged on the button sewing bottom plate, and the first driving piece can drive the two button sewing machine frames to slide inwards or outwards synchronously along the sliding rail.

In foretell raincoat cutting nail knot hem all-in-one, the device of tailorring includes the backing plate that is used for placing the material, has the knife die carrier of cut-off knife and the second driving piece of drive knife die carrier up-and-down reciprocating motion, the rear side of knife die carrier is equipped with the pay-off gyro wheel that the drive material moved forward.

In foretell raincoat is tailor and is nailed and detained hem all-in-one, the cutting die frame includes mould, lower mould and vertical setting and is used for connecting the guide arm of mould and lower mould, the guide arm runs through the backing plate and can reciprocate along vertical direction, the second driving piece includes motor, eccentric shaft and connecting piece, the motor drive eccentric shaft is rotatory, the lower tip cover of connecting piece is located on the eccentric shaft and with eccentric shaft rotatable coupling, the upper end and the lower mould of connecting piece are articulated. The second driving member may be an air cylinder or a hydraulic cylinder.

In the all-in-one machine for cutting, nailing, buckling and folding the raincoat, the rear side of the base plate is transversely provided with air blowing strips with air outlets facing upwards, the air outlets are arranged at intervals along the length direction of the air blowing strips, and the upper ends of the air blowing strips are lower than or flush with the upper end face of the base plate. The air blowing strip can blow air upwards after the air blowing strip finishes blowing, so that the folded materials are separated from the base plate, and the situation that the materials are stuck on the base plate to influence the materials to move forwards continuously is avoided.

In foretell raincoat is tailor and is nailed and detained hem all-in-one, the both ends of hemmer are fixed with coaxial pivot respectively, the front end of base plate is equipped with two and pivot complex bearing frames, the last side of hemmer can be followed and rotated and press on the last side of base plate around the pivot with the state of the side parallel and level on the base plate.

In foretell raincoat is tailor and is buckled hem all-in-one, the central line of pivot is located the coplanar with the side of going up of base plate, the top of base plate is equipped with the clamp plate, the clamp plate can be under the drive of deckle cylinder downwards move and press the material on being fixed in the base plate of pivot central line department, the heater strip is located the rear side of pivot central line. Further, the high slope setting in low back before the clamp plate, the deckle cylinder has two and is bilateral symmetry setting, is equipped with the support that is used for fixed deckle cylinder in the frame, be fixed with foaming silica gel on the side that hemmer and material meet, the hemmer rotates the top that back foaming silica gel is located the heater strip.

In the all-in-one machine for cutting, nailing, buckling and folding the raincoat, a material pulling manipulator is arranged on the machine frame on the front side of the folding device, a blanking synchronous belt is arranged at the upper end of the machine frame below the material pulling manipulator, and the material pulling manipulator is connected with the side face of the machine frame in a sliding mode through a fixing frame.

The working principle is as follows: when the cutting, buckling and flanging integrated machine for the raincoat works, two material cylinders with materials coiled are firstly placed on an upper material rack and a lower material rack, the materials of the material cylinders placed on the upper material rack enter a main material feeder through a material feeding machine and a second synchronous roller, the materials of the material cylinders placed on the lower material rack enter the main material feeder through the lower material feeder and a driven shaft, then the two materials are pressed at the main material feeder and enter a button sewing machine, the button sewing machine slides along a slide rail according to a preset program and forms corresponding button sewing tracks on the materials, the materials after button sewing enter a cutter die frame of a cutting device through the material feeding roller, then a motor of a second driving piece drives an eccentric shaft to rotate so as to drive the cutter die frame to move up and down in the vertical direction, a cutter on the cutter die frame cuts the materials to form point marks in a point breaking manner, furthermore, one side of the raincoat after cutting can form tearing point marks which longitudinally penetrate the materials, the material after tailorring continues to move forward and carries out the hem processing in sending into the hemmer through first synchronous gyro wheel, then the machine hand moves forward and grabs the material behind the hem and pulls backward, until can tear some trace and lie in the hemmer and lean on the front department or just break away from the hemmer side face on, the hemmer is upwards normal running fit machine hand and is broken the material from can tearing some trace department, the machine hand loosens the material of being broken by this moment, this material drops and continues to transport forward on the unloading synchronous belt and get into in the next process, simultaneously, the hemmer continues to carry out the hem operation for the material.

Further, when the folder folds edges, the fixed edge cylinder drives the pressing plate to move downwards and press materials on the base plate, the lower edge of the pressing plate is located at the center line of the rotating shaft, the folder rotates backwards to turn over the materials on the side face of the foaming silica gel of the folder backwards, when the backwards-turned materials are about to contact with the back side face of the pressing plate, the fixed edge cylinder drives the pressing plate to withdraw upwards, the materials can continue to turn over backwards and finally press the upper side face of the materials which are not turned over, the heating wires work to fuse the two layers of materials, and the fused materials are separated from the upper side face of the base plate and further move forwards under the action of the first synchronous roller and the robot.

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

the button sewing machine, the cutting device and the edge folding device are integrated, the button sewing, the cutting and the edge folding can be realized by only one machine, the production efficiency is greatly improved, the material loss caused by the middle replacement of the machine is avoided, and the cost is favorably reduced

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic top view of the present invention.

Fig. 3 is a schematic view of the structure of the hemming device of the present invention.

Fig. 4 is a rear view of the hemming device of the present invention.

Fig. 5 is a first schematic view of the structure of the spring band shaft of the invention.

Fig. 6 is a second schematic structural view of the spring band shaft of the present invention.

In the figure, 1, a frame; 2. a feeding device; 21. a charging barrel; 22. loading a material placing frame; 23. a material discharging frame; 24. feeding and discharging machines; 25. a discharging machine is placed; 26. a second synchronous roller; 27. a driven shaft; 28. a total feeding machine; 3. a button sewing machine; 31. nailing and buckling the bottom plate; 32. a slide rail; 33. a button sewing machine frame; 34. a first driving member; 4. a cutting device; 41. a base plate; 42. a knife die frame; 421. an upper die; 422. a lower die; 423. a guide bar; 43. a feeding roller; 44. a second driving member; 441. a motor; 442. an eccentric shaft; 443. a connecting member; 5. a flanging device; 51. a substrate; 52. a folder; 53. a feeding spring band; 54. a spring band shaft; 541. a protrusion; 542. a groove; 55. a first synchronous roller; 56. heating wires; 57. blowing the strip; 58. pressing a plate; 59. a fixed edge cylinder; 6. a material pulling manipulator; 61. a fixed mount; 7. blanking synchronous belts.

Detailed Description

The invention will be further described in the following with reference to specific embodiments thereof, with reference to the accompanying drawings, in which figures 1 to 6:

the raincoat cutting, button sewing and edge folding all-in-one machine comprises a feeding device 2, a button sewing machine 3, a cutting device 4 and an edge folding device 5 which are sequentially arranged from back to front, wherein the edge folding device 5 comprises a base plate 51, an edge folding device 52 arranged on the front side of the base plate 51, two feeding spring belts 53, two spring belt shafts 54 and two first synchronous rollers 55 used for driving the feeding spring belts 53 to rotate, the upper side surface of the edge folding device 52 can rotate around a shaft and is pressed on the upper side surface of the base plate 51, a heating wire 56 is transversely arranged in the base plate 51, the two feeding spring belts 53 are tensioned and sleeved on the corresponding first synchronous rollers 55 and the spring belt shafts 54, annular bulges 541 and grooves 542 are axially arranged on the spring belt shafts 54 at intervals, and the bulges 541 and the grooves 542 on the two spring belt shafts 54 are mutually matched to enable the feeding spring belts 53 to be wavy between the two spring belt shafts 54. The button sewing machine 3, the cutting device 4 and the edge folding device 5 are integrated, so that the button sewing, cutting and edge folding operations can be realized by only one machine, the production efficiency is greatly improved, the material loss caused by the middle replacement of the machine is avoided, and the cost is favorably reduced; furthermore, in the conveying process, especially under the condition that the front side has no tension, the material is easy to fold and bend, so that the material cannot be conveyed to a specified position smoothly, a distance is reserved between the material separated from the feeding spring belt 53 and conveyed to the upper side of the hemmer 52, and the front side has no tension, and the wavy spring belt shaft 54 can enable the material to be stiff in the conveying direction, so that the material can be conveyed to the hemmer 52 smoothly, and the stability of the edge folding device 5 is improved.

As shown in fig. 1, the feeding device 2 includes an upper feeding frame 22 and a lower feeding frame 23 for placing the material cylinders 21, and an upper feeding machine 24 and a lower feeding machine 25 respectively matched with the material cylinders 21 on the upper feeding frame 22 and the lower feeding frame 23 for feeding, a second synchronous roller 26 is connected to the front side of the upper feeding machine 24, at least two driven shafts 27 are connected to the front side of the lower feeding machine 25, and a total feeding machine 28 for stitching the materials conveyed by the two material cylinders 21 is arranged on the front side of the second synchronous roller 26; a button attaching bottom plate 31 is arranged between the feeding device 2 and the cutting device 4, a slide rail 32 which is perpendicular to the movement direction of the materials is fixed on the upper side surface of the button attaching bottom plate 31, a button attaching rack 33 is arranged on the slide rail 32 in a sliding mode, the button attaching machine 3 is fixed on the button attaching rack 33, and a first driving piece 34 which can drive the button attaching rack 33 to slide along the slide rail 32 is arranged on the button attaching bottom plate 31; the button sewing machine 3 and the button sewing machine frame 33 are symmetrically arranged on the button sewing bottom plate 31, and the first driving piece 34 can drive the two button sewing machine frames 33 to synchronously slide inwards or outwards along the slide rail 32. In operation, the cloth on the material cylinder 21 is guided to the upper surface of the frame 1 through the driven shaft 27 and the second synchronous roller 26, then the two materials are pressed through the general discharging machine 28, and in the button sewing machine 3, the cutting device 4 and the flanging device 5, the materials are all in the same horizontal plane; the button attaching machine 3 is slidably fixed on the button attaching bottom plate 31 through the button attaching machine frame 33, and different button attaching tracks can be realized through the sequential control of the movement of the button attaching machine 3 on the slide rail 32, the button attaching speed and the material movement; the first driving member 34 may be a motor 441, a screw rod, or an air cylinder or a hydraulic cylinder.

As shown in fig. 1 and 2, the cutting device 4 includes a backing plate 41 for placing a material, a knife mold frame 42 having a cutting knife, and a second driving member 44 for driving the knife mold frame 42 to reciprocate up and down, and a feeding roller 43 for driving the material to move forward is disposed at the rear side of the knife mold frame 42; the knife mold frame 42 includes an upper mold 421, a lower mold 422, and a guide rod 423 vertically disposed to connect the upper mold 421 and the lower mold 422, the guide rod 423 penetrates the backing plate 41 and can move up and down in the vertical direction, the second driving member 44 includes a motor 441, an eccentric shaft 442, and a connecting member 443, the motor 441 drives the eccentric shaft 442 to rotate, a lower end of the connecting member 443 is sleeved on the eccentric shaft 442 and rotatably connected to the eccentric shaft 442, and an upper end of the connecting member 443 is hinged to the lower mold 422. The second driving member 44 may be a cylinder or a hydraulic cylinder.

As shown in fig. 3 and 4, the rear side of the substrate 51 is transversely provided with air blowing bars 57 with upward air outlets, the air outlets are arranged at intervals along the length direction of the air blowing bars 57, and the upper ends of the air blowing bars 57 are lower than or flush with the upper end surface of the substrate 51; coaxial rotating shafts are respectively fixed at two ends of the hemmer 52, two bearing seats matched with the rotating shafts are arranged at the front end part of the base plate 51, and the upper side surface of the hemmer 52 can rotate around the rotating shafts from a state of being flush with the upper side surface of the base plate 51 and is pressed on the upper side surface of the base plate 51; the central line of the rotating shaft and the upper side surface of the base plate 51 are positioned in the same plane, a pressing plate 58 is arranged above the base plate 51, the pressing plate 58 can move downwards under the driving of a fixed edge cylinder 59 and press and fix the materials on the base plate 51 at the central line of the rotating shaft, and the heating wire 56 is positioned on the rear side of the central line of the rotating shaft. The air blowing strip 57 can blow air upwards after the edge folding is finished, so that the folded materials are separated from the base plate 51, and the materials are prevented from being adhered to the base plate 51 to influence the materials to move forwards continuously; furthermore, the pressing plate 58 is obliquely arranged in a low-front and high-back manner, the edge fixing cylinders 59 are symmetrically arranged in the left-right direction, a bracket for fixing the edge fixing cylinders 59 is arranged on the rack 1, the side face of the edge folder 52 connected with the material is fixed with foaming silica gel, and the foaming silica gel is positioned above the heating wire 56 after the edge folder 52 rotates.

Furthermore, a material pulling robot arm 6 is arranged on the frame 1 at the front side of the hemmer 52, a blanking synchronous belt 7 is arranged at the upper end of the frame 1 below the material pulling robot arm 6, and the material pulling robot arm 6 is connected with the side surface of the frame 1 in a front-back sliding mode through a fixing frame 61.

When the cutting, buckling and flanging integrated machine for the raincoat works, two material cylinders 21 with materials coiled are firstly placed on an upper material rack and a lower material rack 23, the materials of the material cylinders 21 placed on the upper material rack 22 enter a main discharging machine 28 through an upper discharging machine 24 and a second synchronous roller 26, the materials of the material cylinders 21 placed on the lower material rack 23 enter the main discharging machine 28 through a lower discharging machine 25 and a driven shaft 27, then the two materials are pressed at the main discharging machine 28 and enter a button sewing machine 3, the button sewing machine 3 slides along a slide rail 32 according to a preset program and forms corresponding button sewing tracks on the materials, the button-sewn materials enter a cutter die rack 42 of a cutting device 4 through a feeding roller 43, then a motor 441 of a second driving piece 44 drives an eccentric shaft 442 to rotate so as to drive the cutter die rack 42 to move up and down in the vertical direction, so that a cutter on the cutter die rack 42 cuts the materials to form point-breaking point marks, further, one side of the raincoat after being cut can form tear-off point marks which longitudinally penetrate through the material, the cut material continuously moves forwards and is sent into the folder 52 through the first synchronous roller 55 to be subjected to edge folding treatment, then the mechanical hand moves forwards to grasp the folded material and pulls backwards until the tear-off point marks are located at the position, close to the front, of the upper side of the folder 52 or just break away from the upper side of the folder 52, the folder 52 rotates upwards to match with the mechanical hand to break the material from the tear-off point marks, the broken material is loosened by the mechanical hand at the moment, the material falls on the blanking synchronous belt 7 and is continuously conveyed forwards to enter the next procedure, and meanwhile, the folder 52 continuously performs edge folding operation on the material.

Further, when the hemmer 52 hems, the fixed edge cylinder 59 drives the pressing plate 58 to move downwards and press the material on the base plate 51, at this time, the lower edge of the pressing plate 58 is located at the center line of the rotating shaft, the hemmer 52 rotates backwards to turn over the material on the upper side of the foamed silica gel of the hemmer 52 backwards, when the backwards-turned material is about to contact with the rear side of the pressing plate 58, the fixed edge cylinder 59 drives the pressing plate 58 to withdraw upwards, so that the material can be continuously turned backwards and finally pressed on the upper side of the material which is not turned over, the heating wire 56 works to fuse the two layers of materials, and the fused rear blowing strip 57 works to separate the fused material from the upper side of the base plate 51, so that the material continuously moves forwards under the action of the first synchronous roller 55 and the robot hand.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims

1. The utility model provides a nail knot hem all-in-one is tailor to raincoat which characterized in that: comprises a feeding device (2), a button sewing machine (3), a cutting device (4) and a folding device (5) which are sequentially arranged from back to front, wherein the folding device (5) comprises a substrate (51), a folder (52) arranged at the front side of the substrate (51), two feeding spring belts (53), two spring belt shafts (54) and two first synchronous rollers (55) used for driving the feeding spring belts (53) to rotate, the upper side surface of the folder (52) can rotate around a rotating shaft and is pressed on the upper side surface of the substrate (51), the rotating shaft is coaxially positioned at two ends of the folder (52), a heating wire (56) is transversely arranged in the substrate (51), the two feeding spring belts (53) are tensioned and sleeved on the corresponding first synchronous rollers (55) and the spring belt shafts (54), and annular bulges (541) and grooves (542) are axially arranged on the spring belt shafts (54) at intervals, the protrusions (541) and the grooves (542) on the two spring band shafts (54) are mutually matched to ensure that the feeding spring band (53) is wavy between the two spring band shafts (54).

2. The raincoat cutting, nailing, buckling and flanging all-in-one machine as claimed in claim 1, characterized in that: the feeding device (2) comprises an upper feeding frame (22) and a lower feeding frame (23) used for placing the material cylinders (21), and an upper feeding machine (24) and a lower feeding machine (25) which are matched with the material cylinders (21) on the upper feeding frame (22) and the lower feeding frame (23) respectively and used for feeding, wherein the front side of the upper feeding machine (24) is connected with second synchronous rollers (26), the front side of the lower feeding machine (25) is connected with at least two driven shafts (27), and the front side of the second synchronous rollers (26) is provided with a total feeding machine (28) for pressing materials conveyed by the two material cylinders (21).

3. The raincoat cutting, nailing, buckling and flanging all-in-one machine as claimed in claim 1, characterized in that: loading attachment (2) and tailor and be equipped with between device (4) and detain bottom plate (31) with the nail, the last side of detaining bottom plate (31) is fixed with on the side with material direction of motion vertically slide rail (32), it detains frame (33) to go up to be equipped with on slide rail (32), button sewing machine (3) are fixed in on the button sewing frame (33), it can drive button sewing frame (33) along slide rail (32) gliding first driving piece (34) to be equipped with on button sewing bottom plate (31).

4. The raincoat cutting, nailing, buckling and flanging all-in-one machine as claimed in claim 3, characterized in that: button sewing machine (3), button sewing frame (33) all have two and the symmetry locate on button sewing bottom plate (31), first driving piece (34) can drive two button sewing frames (33) and inwards or outwards slide in step along slide rail (32).

5. The raincoat cutting, nailing, buckling and flanging all-in-one machine as claimed in claim 1, characterized in that: the cutting device (4) comprises a base plate (41) used for placing materials, a knife mould base (42) with a cutting knife and a second driving piece (44) driving the knife mould base (42) to reciprocate up and down, and a feeding roller (43) driving the materials to move forwards is arranged on the rear side of the knife mould base (42).

6. The raincoat cutting, nailing, buckling and flanging all-in-one machine as claimed in claim 5, wherein: the knife die carrier (42) comprises an upper die (421), a lower die (422) and a guide rod (423) which is vertically arranged and used for connecting the upper die (421) and the lower die (422), the guide rod (423) penetrates through the base plate (41) and can move up and down along the vertical direction, the second driving piece (44) comprises a motor (441), an eccentric shaft (442) and a connecting piece (443), the motor (441) drives the eccentric shaft (442) to rotate, the lower end of the connecting piece (443) is sleeved on the eccentric shaft (442) and is rotatably connected with the eccentric shaft (442), and the upper end of the connecting piece (443) is hinged with the lower die (422).

7. The raincoat cutting, nailing, buckling and flanging all-in-one machine as claimed in any one of claims 1-6, wherein: the rear side of base plate (51) is provided with venthole air blowing strip (57) up along the horizontal direction, the venthole sets up along the length direction interval of air blowing strip (57), the upper end of air blowing strip (57) is less than or the parallel and level in the up end of base plate (51).

8. The raincoat cutting, nailing, buckling and flanging all-in-one machine as claimed in any one of claims 1-6, wherein: the front end part of the base plate (51) is provided with two bearing seats matched with the rotating shaft, and the upper side surface of the hemmer (52) can rotate around the rotating shaft from a state of being flush with the upper side surface of the base plate (51) and is pressed on the upper side surface of the base plate (51).

9. The raincoat cutting, nailing, buckling and flanging all-in-one machine as claimed in claim 8, wherein: the central line of pivot and the side of going up of base plate (51) are located the coplanar, the top of base plate (51) is equipped with clamp plate (58), clamp plate (58) can be in the drive of deckle cylinder (59) down move and press the material to be fixed in on base plate (51) of pivot central line department, heater strip (56) are located the rear side of pivot central line.

10. The raincoat cutting, nailing, buckling and flanging all-in-one machine as claimed in any one of claims 1-6, wherein: be equipped with on frame (1) of the front side of hemmer (52) and draw material robot (6), the upper end of frame (1) of drawing material robot (6) below is equipped with unloading hold-in range (7), but draw material robot (6) through mount (61) and the side of frame (1) sliding connection around.