CN115606895A - Tailoring is with digital intelligent machine of making edition - Google Patents

Abstract

The invention relates to the technical field of garment printing, in particular to a digital intelligent printing machine for garment processing, which comprises a supporting frame, a paper unreeling mechanism, a paper reeling mechanism, a movable cutting device, a conveying wheel set, a conveying wheel driving device and a chain plate transmission conveying device, wherein the paper unreeling mechanism is arranged on the supporting frame; the invention can not only enlarge the whole diameter of the elastic ring at the outer side of the conveying wheel by arranging the rotating conveying wheel, thereby facilitating the cooperation of the enlarged elastic ring and the chain plate frame to clamp the two sides of the paper in the middle of the conveying wheel; the elastic ring which is expanded is matched with the chain plate frame, the clamped paper can be conveyed in a rolling mode through the angle of the inclined outer side, meanwhile, the paper clamped in the middle can be pulled to the two sides of the elastic ring, the paper can be flattened through the pulling effect, the shapes of various corners upwarping generated through cutting can be flattened, subsequent paper can be conveyed out in a flat state, and the waste paper after cutting can be rolled and collected by the waste paper collecting barrel smoothly.

Description

Tailoring is with digital intelligent machine of making edition

Technical Field

The invention relates to the technical field of garment printing, in particular to a digital intelligent printing machine for garment processing.

Background

The garment processing is a garment production method which mainly adopts modern machine processing and assists manual work, the garment processing also refers to a processing process from fabric to ready-made garment, and the steps and procedures of making a pattern, cutting, making, ironing and the like are required, wherein the pattern making of the garment is one of the most important steps, the pattern making of the garment adopts a pattern making machine, the pattern making machine cuts paper into paper sheets according to the appearance designed by a designer, then cuts the fabric according to the paper sheets, and finally sews the cut fabric to make the ready-made garment;

the patent publication No. CN214547566U discloses an automatic garment printing machine, which comprises a workbench, wherein a laser cutting device is arranged above the middle of the workbench, a movable frame is arranged on the upper surface of the workbench, a discharging roller is arranged in a notch on one side of the workbench, a winding roller is arranged in a notch on the other side of the workbench, the feeding roller and the winding roller are matched to realize the transmission of paper, a plurality of ball grooves are formed in both sides of the lower surface of the movable frame and are distributed at equal intervals, balls matched with the ball grooves are arranged in the ball grooves, grooves are formed in both sides of the upper surface of the workbench, and a driving roller is arranged in each groove and is attached to the driving roller through the balls, so that the paper is clamped while the transmission of the paper is not influenced, the paper is prevented from shifting, and the cutting precision is improved; the patent may have defects, the paper can produce various corners after being cut, and the corners can be tilted or collapsed in the process of conveying the paper, so that the whole paper becomes uneven, when the corners pass through the joint of the rolling balls and the transmission roller, the corners can be directly turned over, the paper at the turned-over part can become thick, the corresponding hardness can be increased, the winding and collection of the winding roller can be influenced, and a platemaking machine capable of pulling two sides of the paper to enable the surface of the paper to be flat is needed while conveying the paper.

Disclosure of Invention

In order to solve the defects that in the prior art, various corners can be generated after paper is cut, and the corners can tilt or collapse in the process of paper re-transmission, so that the whole paper becomes uneven, when the corners pass through the joint of the rolling balls and the transmission roller, the corners can be directly turned over, the paper at the turned-over part can become thick, the corresponding hardness can be increased, and winding and collection of the winding roller can be influenced, the invention provides the digital intelligent printing machine for clothing processing.

The technical scheme of the invention is as follows:

the invention provides a digital intelligent printing machine for garment processing, which comprises a supporting frame, wherein the left side and the right side of the supporting frame are respectively provided with a paper unwinding mechanism and a paper winding mechanism, a paper tube is sleeved on the paper unwinding mechanism, a waste paper collecting tube is sleeved on the paper winding mechanism, the head end of paper on the paper tube can be wound and wound by the waste paper collecting tube and straighten the whole paper, a movable cutting device is arranged above the corresponding paper in the supporting frame, and the movable cutting device can cut the paper according to the shape of the garment processing;

inside corresponding paper top both sides of braced frame set up along paper unwinding mechanism to paper winding mechanism's direction symmetry and are the conveying wheelset that expansion trend and slant align the distribution, and the inside corresponding paper top of braced frame sets up chain drive conveyor, conveying wheelset includes along a plurality of delivery wheels of paper upside evenly distributed, delivery wheel outside suit elastic ring, the delivery wheel is whole to be driven through delivery wheel drive, the delivery wheel is inside to be set up to rotate ejecting structure, and when delivery wheel drive driven the delivery wheel, can evenly prop big through rotating ejecting structure with the elastic ring that corresponds for the delivery wheel that is located the upside extrudees the both sides of pressing from both sides tightly with the chain drive conveyor who is located the downside through the elastic ring in its outside to drag with the both sides of slant direction paper, can also carry out the roll extrusion to the paper in the middle of it and carry towards paper winding mechanism's direction.

Furthermore, the supporting frame comprises four support rods which are parallel to each other and are vertically placed, the adjacent support rods are fixedly connected through a first connecting rod at the lower side of the adjacent support rods, and the adjacent support rods are fixedly connected through a second connecting rod at the upper side of the adjacent support rods.

Further, paper unwinding mechanism is including being located the whole outside of its whole outside of a pair of cradling piece on left and the axle of unreeling that the level was placed, is located the corresponding first dead lever of the equal fixed mounting in axle both ends of unreeling of its whole outside of a pair of cradling piece on left, unreels the axle both ends and rotates with the first dead lever lateral part that corresponds and is connected, and the fiber container suit is in the outside of unreeling the axle, and the paper on the fiber container has certain hardness.

Further, the paper winding mechanism comprises a winding shaft which is located on the right side and corresponds to the unwinding shaft horizontally, second fixing rods are fixedly mounted at two ends of the winding shaft corresponding to the whole outer sides of the pair of support rods located on the right side, two ends of the winding shaft are rotatably connected with the corresponding side portions of the second fixing rods, and the waste paper collecting barrel is sleeved on the outer side of the winding shaft.

Further, the movable device of tailorring includes a pair of first electronic slide rail that is parallel to each other, a pair of first electronic slide rail that is parallel to each other is installed in the whole inboard position that is close to the top of a set of cradling piece along the left and right sides symmetry, it sets up rather than the electronic slide rail of vertically second to correspond the whole inboard of a pair of first electronic slide rail, the both ends of the electronic slide rail of second respectively with the spout swing joint that the electronic slide rail of the first of its left and right sides corresponds, the electronic slide rail below of second sets up vertical laser cutter of placing, the installation end of laser cutter and the spout swing joint of the electronic slide rail of second, the head of tailorring of laser cutter is just to the below, the lateral part installation camera of laser cutter, thereby the camera can carry out the position to paper and snatch the convenience and tailor.

Further, rotate ejecting structure and include that the conveying wheel evenly encircles the several arc hole of seting up in its inside mounting hole to lateral wall, and the holistic arc center orientation of arc hole is anticlockwise, the flexible pole of arc of the downthehole movable mounting adaptation of all arcs, the inside mounting hole of conveying wheel corresponds one side that all arc holes are close to its inside extending direction and sets up the guide way, and both communicate each other, second pivot lateral part corresponds guide way fixed mounting guide block, corresponds lateral part and guide way bottom fixed connection with the flexible pole inner of arc through the second spring that sets up the adaptation in the guide block top, and the elastic ring outside is equipped with anti-skidding line in addition.

Further, conveyor wheel drive includes a pair of mounting panel that is parallel to each other, and a pair of mounting panel that is parallel to each other is located its whole inboard and the position that is close to the paper lateral part of a pair of cradling piece of front and back both sides along the fore-and-aft direction symmetrical installation, the mounting panel lateral part corresponds all conveying wheels and all sets up first commentaries on classics hole, all first commentaries on classics downthehole first pivot of installation that all rotate, and all first pivot outer ends equal fixed mounting first sprocket in all first pivots, correspond all first pivots outer ends of same row and all set up the inclined hole along the direction with corresponding conveying wheel vertically along its whole outside adaptation of all first sprockets, and all first pivot lateral walls are connected through setting up a drive motor transmission, the mounting panel lateral part corresponds all first pivots and all sets up the bevel gear in one side that same horizontal direction is close to the axle along with the perpendicular direction of corresponding conveying wheel, all rotate the installation second pivot in all, and all first pivot outer ends of corresponding between first sprocket and the mounting straight-tooth wheel lateral part, and all straight-tooth gear fixed mounting inner that all second pivots correspond on its next door.

Further, link joint transmission conveyor includes the mounting panel lateral part is close to the one row second of changeing the hole that the position equidistance of downside was seted up, all second change downthehole all rotate the installation third pivot, and outside the second that third pivot inner stretched out the correspondence changes the hole, the equal fixed mounting second sprocket in all third pivot, and second sprocket and delivery wheel one-to-one from top to bottom, its whole outside adaptation installation link joint of all second sprockets of two rows around the correspondence, the elastic ring bottom in link joint top surface and the delivery wheel its outside keeps certain clearance simultaneously, its outer end of third pivot that each row is close to unreeling axle one side all is connected through setting up the transmission of second driving motor.

Further, the waste paper collecting cylinder outside covers there is the one deck adhesive film, and its whole outside of a pair of cradling piece that is located the right side corresponds the rolling axle top and sets up the arc clamp plate, and the arc center of arc clamp plate is downward, and the intrados of arc clamp plate pastes with waste paper collecting cylinder's lateral wall mutually, and the top of arc clamp plate is connected with the cradling piece lateral part that the right side corresponds is articulated, and the inboard cradling piece lateral part that corresponds with the right side of arc clamp plate is through setting up first spring fixed connection.

Further, it is a set of the whole inboard position that is close to the below of cradling piece arrange a pair of guide rails that are parallel to each other in the left-right direction symmetry, it sets up rather than vertically finished product collecting plate to correspond the whole inboard setting of a pair of guide rails, finished product collecting plate's both ends respectively with the spout swing joint that the guide rail of its left and right sides corresponds, terminal surface installation handle before the finished product collecting plate, its whole outside correspondence of a pair of cradling piece that is located the right side is located the position installation arc deflector between chain sheet frame and the finished product collecting plate, the arc center of arc deflector is towards the whole inside of cradling piece, the top surface position on its right side of arc deflector is close to its right side of chain sheet frame, the arc deflector lower extreme is close to the top position on its right side of finished product collecting plate.

The invention has the following advantages:

the invention not only can enlarge the whole diameter of the elastic ring at the outer side of the conveying wheel through arranging the rotary conveying wheel, so that the elastic ring with the enlarged upper side is matched with the chain plate frame at the lower side to clamp two sides of paper in the middle of the conveying wheel, but also can enable the paper to be in a static and flat state through arranging the conveying wheel which stops rotating, thereby not only facilitating the matching with a laser cutting machine for cutting, but also preventing the paper from being torn or torn due to continuous clamping and pulling.

The upside is cooperateed by the elasticity circle that props up and downside chain plate frame and can be carried paper with the angle roll extrusion in the slant outside, the anti-skidding line in the elasticity circle outside can increase the friction force between paper and the elasticity circle in addition, the cooperation can be carried the centre gripping paper in the middle to the direction of waste paper collection section of thick bamboo from this, can also pull the centre gripping paper in the middle to its both sides, can also be evened up through the form that the effect of pulling produced various corners perk through tailorring, then subsequent paper of can being convenient for keeps smooth state to be carried out, can be convenient for again through the waste paper after tailorring by the smooth collection of rolling up of waste paper collection section of thick bamboo.

The fashioned scraps of paper after will being tailor can be collected through the cooperation of finished product collecting plate and arc deflector, tailor according to tailoring's shape to paper through setting up laser cutter and first electronic slide rail, the electronic slide rail clearance fit of second to make this device more intelligent, still carry out the position through setting up the camera to the paper surface simultaneously and snatch, make this device digitalize more.

Through the cooperation of the elastic traction effect of the arc-shaped pressing plate and the outer side of the waste paper collecting barrel, the waste paper is pushed away and pressed by the arc-shaped pressing plate in the curling process, and the curling process of the waste paper is smoother.

Drawings

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

Fig. 2 is a left side view of fig. 1.

Fig. 3 is a view from direction a-1 of fig. 1.

Fig. 4 is an enlarged view of a portion i of fig. 3.

Fig. 5 is a view from direction B of fig. 3.

Fig. 6 is an enlarged view of a portion ii of fig. 5.

Fig. 7 is a view from direction a-2 of fig. 1.

Fig. 8 is an enlarged view of a part iii of fig. 7.

Detailed Description

To facilitate an understanding of the invention for those skilled in the art, a specific embodiment thereof will be described below with reference to the accompanying drawings.

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 obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the present application, it is to be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

It will be understood that when an element is referred to as being "mounted on" 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 "disposed on" another component, it can be directly on the other component or intervening components may also be present. When an element is referred to as being "secured to" another element, it can be directly secured to the other element or intervening elements may also be present.

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

As shown in fig. 1 and 2, the invention provides a digital intelligent printing machine for clothing processing, which comprises four support rods 1 which are parallel to each other and are vertically arranged, wherein the lower sides of the adjacent support rods 1 are fixedly connected through a first connecting rod 11, and the upper sides of the adjacent support rods 1 are fixedly connected through a second connecting rod 12.

Lie in its whole outside of a pair of cradling piece 1 on left and correspond and set up the spool 2 of unreeling that the level was placed, lie in its whole outside of a pair of cradling piece 1 on left and correspond and unreel the first dead lever 21 of the equal fixed mounting in spool 2 both ends, unreel 2 both ends and the first dead lever 21 lateral part rotation that corresponds and be connected, unreel 2 outside suit fiber container 22, paper 23 on the fiber container 22 has certain hardness and is clockwise winding.

It is located that its whole outside of a pair of cradling piece 1 on right side corresponds unreels axle 2 and sets up the rolling axle 3 that the level was placed, and both are parallel to each other, and its whole outside of a pair of cradling piece 1 on right side corresponds the equal fixed mounting second dead lever 31 in rolling axle 3 both ends, and 3 both ends of rolling axle are rotated with the second dead lever 31 lateral part that corresponds and are connected, and 3 outside suit waste paper collection tube 32 of rolling axle, the waste paper collection tube 32 outside covers there is one deck adhesive film.

It corresponds rolling axle 3 top and sets up arc clamp plate 33 in its whole outside of a pair of cradling piece 1 that is located the right side, and the arc center of arc clamp plate 33 is downward, and the intrados of arc clamp plate 33 pastes mutually with the lateral wall of waste paper collection tube 32, and the top of arc clamp plate 33 is connected with the 1 lateral part of cradling piece that the right side corresponds is articulated, and the inboard 1 lateral part of cradling piece that corresponds with the right side of arc clamp plate 33 is through setting up first spring 34 fixed connection.

The position that the whole inboard of a set of cradling piece 1 is close to the top is in the left and right directions symmetry installation a pair of first electronic slide rail 4 that is parallel to each other, correspond the whole inboard setting of a pair of first electronic slide rail 4 rather than vertically electronic slide rail 41 of second, the both ends of electronic slide rail 41 of second respectively with the spout swing joint that the first electronic slide rail 4 of its left and right sides corresponds, electronic slide rail 41 below of second sets up vertical laser cutter 42 of placing, the installation end of laser cutter 42 and the spout swing joint of electronic slide rail 41 of second, the head of tailorring of laser cutter 42 is just to the below, camera 43 is installed to the lateral part of laser cutter 42, thereby camera 43 can carry out the position to paper 23 and snatch the convenience of tailorring.

A pair of guide rails 4 which are parallel to each other are symmetrically arranged in the left-right direction at the positions, close to the lower part, of the inner side of the whole of one group of support rods 1, a finished product collecting plate 51 which is perpendicular to the guide rails 4 is arranged on the inner side of the whole corresponding pair of guide rails 4, two ends of the finished product collecting plate 51 are movably connected with sliding grooves corresponding to the guide rails 4 on the left side and the right side respectively, and a handle 52 is arranged on the front end face of the finished product collecting plate 51.

As shown in fig. 1, fig. 3 and fig. 4, the position that is close to paper 23 lateral part is corresponding in its whole inboard of a pair of cradling piece 1 that is located both sides around in a pair of mounting panel 6 that is parallel to each other of fore-and-aft direction symmetry installation, the mounting panel 6 lateral part is close to the position equidistance of upside and corresponding the offering one row of first hole 61, all first holes 61 in all rotate the first pivot 7 of installation, and the mounting panel 6 outside that corresponds is stretched out to first pivot 7 outer end, place in corresponding first hole 61 in first pivot 7 the inner, all first pivot 7 outer ends are the first sprocket 71 of fixed mounting, and first sprocket 71 keeps a determining deviation with corresponding mounting panel 6 lateral part, correspond the first chain 72 of its whole outside adaptation installation of all first sprockets 71 of same row, its outer end of first pivot 7 that each row is close to unreeling spool 2 one side all is connected through setting up first driving motor 701 transmission.

The inclined hole 62 is all seted up to one side that the corresponding unreeling axle 2 of mounting panel 6 lateral part is close to in same horizontal direction to all first trompils 61, and inclined hole 62 extends along the direction of keeping away from corresponding first trompil 61 gradually from its inner to the outer end, all rotate installation second pivot 74 in the inclined hole 62, and the inner and outer end of second pivot 74 all stretches out outside the corresponding inclined hole 62, all first pivot 7 lateral walls are corresponding the equal fixed mounting spur gear 73 in position between first sprocket 71 and the mounting panel 6 lateral part that corresponds, all second pivot 74 outer ends correspond the helical gear 75 of the equal fixed mounting adaptation of spur gear 73 on its next door, both intermeshing, equal fixed mounting delivery wheel 8 in all second pivot 74, then the delivery wheel 8 of both sides is whole to be the slant and aligns the distribution.

As shown in fig. 5 and 6, the conveying wheel 8 is uniformly provided with a plurality of arc-shaped holes 81 around from the inner mounting hole to the outer side wall thereof, the overall arc center of each arc-shaped hole 81 faces in the counterclockwise direction, the adaptive arc-shaped flexible rods 82 are movably mounted in all the arc-shaped holes 81, a guide groove 83 is formed in one side, close to the inner extending direction, of each arc-shaped hole 81 corresponding to the mounting hole of the conveying wheel 8, the guide groove 83 and the guide block 741 are communicated with each other, the side portion of the second rotating shaft 74 corresponds to the guide groove 83, a guide block 741 is fixedly mounted on the side portion of the second rotating shaft 83, the inner end of each arc-shaped flexible rod 82 corresponds to the side portion and is fixedly connected with the bottom of the guide groove 83 through a second spring 84 which is provided with an adaptive guide block 741, the elastic ring 85 is sleeved on the entire outer side of each conveying wheel 8, and anti-skid threads are arranged on the outer side of the elastic ring 85.

As shown in fig. 1, fig. 7 and fig. 8, a row of second rotating holes 63 are formed in the side portion of the mounting plate 6 at equal intervals and in correspondence with the lower side, third rotating shafts 9 are rotatably installed in all the second rotating holes 63, the inner ends of the third rotating shafts 9 extend out of the corresponding second rotating holes 63, second chain wheels 91 are fixedly installed at the inner ends of all the third rotating shafts 9, the second chain wheels 91 correspond to the conveying wheels 8 one by one, a chain plate frame 92 is installed in an adaptive manner on the whole outer side of all the second chain wheels 91 corresponding to the front and rear rows, a certain gap is kept between the top surface of the chain plate frame 92 and the bottom of the elastic ring 85 outside the conveying wheels 8, and the outer end of each row of the third rotating shafts 9 close to one side of the unwinding shaft 2 is in transmission connection with a second driving motor 901.

As shown in fig. 1, the arc guide plates 13 are installed at positions, corresponding to positions between the chain plate frame 92 and the finished product collecting plate 51, of the overall outer sides of the pair of support rods 1 located on the right side, arc centers of the arc guide plates 13 face the overall inner portion of the support rods 1, the upper ends of the arc guide plates 13 are close to the top surface of the right side of the chain plate frame 92, and the lower ends of the arc guide plates 13 are close to the top position of the right side of the finished product collecting plate 51.

During the use, walk around the position between the chain sheet frame 92 of upside and downside with the head end of paper 23 to the waste paper collection tube 32 outside, through the viscidity membrane of waste paper collection tube 32 outside with the clockwise winding of paper 23 head end fixed, and simultaneously and straighten paper 23 wholly.

All the first driving motors 701 and the second driving motors 901 are started, the first driving motors 701 drive the corresponding first rotating shafts 7 and the first chain wheels 71 and the straight gears 73 on the first rotating shafts 7 to rotate clockwise, all the first chain wheels 71 corresponding to the same row are driven to rotate through the transmission of the first chains 72, and the straight gears 73 on the first rotating shafts 7 are meshed and matched with the corresponding bevel gears 75 to drive the corresponding bevel gears 75 and the second rotating shafts 74 to rotate anticlockwise.

The second driving motor 901 drives the corresponding third rotating shaft 9 and the second chain wheel 91 on the third rotating shaft 9 to rotate clockwise, and the second chain wheel 91 drives the link plate frame 92 on the outer side of the second chain wheel 91 to transmit clockwise as a whole.

When the second rotating shaft 74 rotates counterclockwise, the guide blocks 741 on the second rotating shaft 74 slide along the corresponding guide grooves 83, and simultaneously the guide blocks 741 push the arc-shaped flexible rods 82 in the arc-shaped holes 81 outward toward the arc-shaped holes 81 by overcoming the elastic force of the second springs 84, and push the outer ends of the arc-shaped flexible rods 82 out of the outer side of the conveying wheel 8 by a certain distance, at this time, the plurality of arc-shaped flexible rods 82 distributed in a surrounding manner push the inner side of the elastic ring 85, and expand the overall diameter of the elastic ring 85, and the elastic ring 85 with the expanded upper side is matched with the lower side chain plate frame 92 to clamp the two sides of the paper 23 in the middle.

The second rotating shaft 74 continues to rotate counterclockwise, and at this time, the guide block 741 pushes against the side wall of the corresponding arc-shaped hole 81, so as to drive the conveying wheel 8 to rotate counterclockwise as a whole, as shown in fig. 1 and fig. 3, because the conveying wheels 8 on the front and rear sides are aligned obliquely, the elastic ring 85 whose upper side is expanded is matched with the lower side chain plate frame 92 to rotate clockwise by pulling the paper cylinder 22 at an oblique outer side angle, thereby rolling and conveying the paper 23, meanwhile, because the outer side of the elastic ring 85 is provided with the anti-slip pattern, friction force between the paper 23 and the elastic ring 85 can be increased, and the mutual matching can convey the paper 23 clamped in the middle to the direction of the waste paper collecting cylinder 32, and can pull the paper 23 clamped in the middle to both sides thereof, thereby facilitating the subsequent paper 23 to be conveyed out in a flat and straight state.

When the paper 23 needs to be cut, all the first driving motors 701 and the second driving motors 901 are closed, the arc-shaped flexible rods 82 in the arc-shaped holes 81 are reset through the elastic force restoring action of the second springs 84, the elastic rings 85 are enabled to restore the initial state and no longer clamp the paper 23, meanwhile, the conveying wheels 8 and the chain plate frames 92 stop moving, the paper 23 is in a static and flat state, therefore, the cutting is convenient to match with the laser cutting machine 42, and the paper 23 can be prevented from being torn or torn due to continuous clamping and pulling.

Start first electronic slide rail 4, second electronic slide rail 41, laser cutter 42 and camera 43, carry out the point location through camera 43 and snatch to paper 23 surface, because paper 23 has certain hardness, thereby can cut out this section of paper 23 according to tailoring's shape through laser cutter 42 and first electronic slide rail 4, second electronic slide rail 41 clearance fit, link joint frame 92 can also support corresponding paper 23.

After the paper 23 is cut by the laser cutting machine 42, all the first driving motors 701 and the second driving motors 901 are continuously started, the paper 23 is continuously conveyed towards the direction of the waste paper collecting cylinder 32, meanwhile, the paper 23 clamped in the middle is continuously pulled towards the two sides of the waste paper collecting cylinder, and the cut section of paper 23 is obliquely pulled, so that the shapes of various corners and corners generated by cutting are flattened, and therefore, the subsequent paper 23 can be conveniently conveyed out in a flat state, and the cut waste paper can be conveniently rolled and collected by the waste paper collecting cylinder 32.

When fashioned scraps of paper are carried to its head end along with paper 23 and break away from the support of chain sheet frame 92, because its head end of fashioned scraps of paper of action of gravity can stretch into the inboard of arc deflector 13, then can fall into on finished product collecting plate 51 through the guide effect of arc deflector 13 to collect fashioned scraps of paper, this section paper 23 cuts out the completion back through laser cutter 42, can take out finished product collecting plate 51 from the spout of guide rail 4 through snatching handle 52, thereby take out fashioned scraps of paper.

In addition, when waste paper collecting barrel 32 rolled up to paper and collected, because arc clamp plate 33 drags through the elasticity of first spring 34 and makes its inner arc face paste mutually with waste paper collecting barrel 32's lateral wall, through arc clamp plate 33's pressure effect for waste paper is in the process of curling and is being driven and is pressed of arc clamp plate 33, thereby lets the process that waste paper curls more smooth-going.

When the next piece of paper 23 is conveyed to the whole inner side of the support rod 1, the cutting and the waste paper collection are continued in the same way, and the tailoring is completed under the matching action.

The invention not only can enlarge the whole diameter of the elastic ring 85 at the outer side by arranging the rotary conveying wheel 8, so that the elastic ring 85 with the enlarged upper side is matched with the lower chain plate frame 92 to clamp the two sides of the paper 23 in the middle, but also can lead the paper 23 to be in a static and flat state by arranging the conveying wheel 8 which stops rotating, thereby not only being convenient to match with the laser cutting machine 42 for cutting, but also preventing the paper 23 from being torn or torn by continuous clamping and pulling.

The elastic ring 85 with the expanded upper side is matched with the chain plate frame 92 at the lower side to convey the paper 23 in an inclined outer angle rolling mode, in addition, the anti-skidding lines at the outer side of the elastic ring 85 can increase friction force between the paper 23 and the elastic ring 85, so that the paper 23 clamped in the middle can be conveyed towards the direction of the waste paper collecting cylinder 32 in a matching mode, the paper 23 clamped in the middle can be pulled towards two sides of the waste paper collecting cylinder, the shape of various corners raised by cutting can be pulled flat through the pulling effect, the subsequent paper 23 can be conveyed out in a flat state, and the cut waste paper can be smoothly rolled and collected by the waste paper collecting cylinder 32.

Can collect the fashioned scraps of paper after will being tailor through the cooperation of finished product collecting plate 51 and arc deflector 13, tailor paper 23 according to tailoring's shape through setting up laser cutter 42 and first electronic slide rail 4, the electronic slide rail 41 clearance fit of second to make this device more intelligent, still carry out the position through setting up camera 43 to paper 23 surface simultaneously and snatch, make this device more digital.

Through the cooperation of arc clamp plate 33 through the elasticity of first spring 34 is dragged the effect and the waste paper collecting tube 32 outside for waste paper is in the process of curling driving pressure of arc clamp plate 33, thereby lets the process that waste paper curls more smooth-going.

The above-described embodiments of the present invention do not limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a tailoring is with digital intelligent machine of making edition which characterized in that: the cloth cutting machine comprises a supporting frame, wherein a paper unwinding mechanism and a paper winding mechanism are respectively arranged on the left side and the right side of the supporting frame, a paper tube (22) is sleeved on the paper unwinding mechanism, a waste paper collecting tube (32) is sleeved on the paper winding mechanism, the head end of paper (23) on the paper tube (22) can be wound and wound by the waste paper collecting tube (32) and straightens the whole paper (23), a movable cutting device is arranged in the supporting frame and above the corresponding paper (23), and the movable cutting device can cut the paper (23) according to the shape of clothing processing;

inside paper (23) top both sides that correspond of braced frame set up along the direction symmetry of paper unwinding mechanism to paper winding mechanism and are the conveying wheel group that expansion trend and slant align the distribution, and inside paper (23) top that corresponds of braced frame sets up chain drive conveyor, conveying wheel group includes along a plurality of delivery wheel (8) of paper (23) upside evenly distributed, delivery wheel (8) outside suit elastic ring (85), and delivery wheel (8) are whole to be driven through delivery wheel drive, delivery wheel (8) inside sets up rotates ejection structure, and when delivery wheel drive driven delivery wheel (8), can evenly prop big through rotating ejection structure with corresponding elastic ring (85) for delivery wheel (8) that are located the upside extrude the both sides of pressing from both sides of paper (23) through elastic ring (85) in its outside and the chain drive conveyor that are located the downside, and pull with the both sides of slant direction paper (23), can also carry out the roll extrusion to paper (23) in the middle of it towards the direction of paper winding mechanism and carry.

2. The digital intelligent printing machine for garment processing according to claim 1, characterized in that: the supporting frame comprises four mutually parallel and vertically placed support rods (1), the adjacent support rods (1) are fixedly connected through first connecting rods (11) at the lower sides of the support rods, and the adjacent support rods (1) are fixedly connected through second connecting rods (12) at the upper sides of the adjacent support rods.

3. The digital intelligent printing machine for garment processing according to claim 2, characterized in that: the paper unwinding mechanism comprises a pair of left support rods (1), a unwinding shaft (2) which is horizontally arranged on the whole outer side of the support rods, first fixing rods (21) which are fixedly arranged at two ends of the unwinding shaft (2) and correspond to the whole outer side of the support rods (1), two ends of the unwinding shaft (2) are rotatably connected with the corresponding side portions of the first fixing rods (21), a paper tube (22) is sleeved on the outer side of the unwinding shaft (2), and paper (23) on the paper tube (22) has certain hardness.

4. The digital intelligent printing machine for garment processing according to claim 3, characterized in that: the paper winding mechanism comprises a pair of support rods (1) located on the right side, a winding shaft (3) which is horizontally placed in a corresponding unwinding shaft (2), a pair of support rods (1) located on the right side, a whole outer side of the support rods (1) corresponding to the two ends of the winding shaft (3), second fixing rods (31) are fixedly mounted at the two ends of the winding shaft (3), the two ends of the winding shaft (3) are rotatably connected with the corresponding side portions of the second fixing rods (31), and a waste paper collecting cylinder (32) is sleeved on the outer side of the winding shaft (3).

5. The digital intelligent printing machine for garment processing according to claim 4, characterized in that: the movable cutting device comprises a pair of first electric sliding rails (4) which are parallel to each other, the pair of first electric sliding rails (4) which are parallel to each other are symmetrically installed at the positions, close to the upper side, of the whole inner side of a group of support rods (1) along the left-right direction, a pair of second electric sliding rails (41) which are perpendicular to the whole inner side of the first electric sliding rails (4) are arranged, two ends of each second electric sliding rail (41) are respectively connected with the sliding grooves corresponding to the first electric sliding rails (4) on the left side and the right side of the second electric sliding rail, a vertical laser cutting machine (42) is arranged below the second electric sliding rails (41), the mounting end of the laser cutting machine (42) is movably connected with the sliding grooves of the second electric sliding rails (41), the cutting head of the laser cutting machine (42) is right opposite to the lower side, a camera (43) is installed on the side portion of the laser cutting machine (42), and the camera (43) can carry out point position grabbing and convenient cutting on paper (23).

6. The digital intelligent printing machine for garment processing according to claim 5, wherein: rotate ejecting structure and include that conveying wheel (8) evenly encircles several arc hole (81) of seting up in its inside mounting hole to lateral wall, and the holistic arc center orientation of arc hole (81) is anticlockwise, arc flexible rod (82) of movable mounting adaptation in all arc holes (81), guide way (83) are seted up to one side that all arc holes (81) of its inside mounting hole of conveying wheel (8) are close to its inside extending direction, and both communicate each other, second pivot (74) lateral part corresponds guide way (83) fixed mounting guide block (741), and in guide way (83) through second spring (84) that sets up the adaptation with arc flexible rod (82) inner corresponding lateral part and guide way (83) bottom fixed connection in guide block (741) top, in addition elastic ring (85) outside is equipped with anti-skidding line.

7. The digital intelligent printing machine for garment processing according to claim 6, characterized in that: the conveyor wheel driving device comprises a pair of mutually parallel mounting plates (6), the pair of mutually parallel mounting plates (6) are symmetrically mounted at the positions of the whole inner sides of a pair of support rods (1) which are positioned at the front side and the rear side and are close to the side parts of paper (23) along the front and rear direction, first rotating holes (61) are formed in the side parts of the mounting plates (6) corresponding to all conveying wheels (8), first rotating shafts (7) are rotatably mounted in all the first rotating holes (61), all the outer ends of all the first rotating shafts (7) are fixedly mounted on the first chain wheels (71) in the same row, first chains (72) are mounted in the whole outer side adaptation mode of all the first chain wheels (71) in the same row, each row of the outer ends of the first rotating shafts (7) close to one side of the unwinding shaft (2) are in transmission connection through arranging a first driving motor (701), the side parts of the mounting plates (6) correspond to all the first rotating holes (61) in the same horizontal direction, inclined holes (62) are formed in the direction of one side part close to one side of the unwinding shaft (2) and are in the direction of the same vertical direction of the corresponding conveying wheels (8), and all straight-tooth wheels (73) are mounted on the side wall of the mounting plates (73), and all straight teeth wheels (73) are mounted on the side wall of the straight teeth wheels (73), the two are meshed with each other, and the conveying wheels (8) are fixedly arranged at the inner ends of the corresponding second rotating shafts (74).

8. The digital intelligent printing machine for garment processing according to claim 7, characterized in that: chain plate transmission conveyor includes mounting panel (6) lateral part is close to one row second that the position equidistance of downside was seted up and changes hole (63), all second are changeed and all rotate installation third pivot (9) in hole (63), and third pivot (9) inner stretches out outside corresponding second changes hole (63), equal fixed mounting second sprocket (91) in all third pivot (9), and second sprocket (91) and delivery wheel (8) one-to-one from top to bottom, its whole outside adaptation installation chain sheet frame (92) of all second sprockets (91) of two rows around the correspondence, simultaneously chain sheet frame (92) top surface keeps certain clearance with elastic ring (85) bottom in its outside of delivery wheel (8), its outer end of third pivot (9) that each row is close to unreel axle (2) one side all is connected through setting up second driving motor (901) transmission.

9. The digital intelligent printing machine for garment processing according to claim 8, characterized in that: the utility model discloses a waste paper collection section of thick bamboo, waste paper collection section of thick bamboo (32) outside covers there is the one deck adhesive film, it sets up arc clamp plate (33) to correspond rolling axle (3) top in its whole outside of a pair of cradling piece (1) that is located the right side, the arc heart of arc clamp plate (33) is downward, the intrados of arc clamp plate (33) pastes with the lateral wall of waste paper collection section of thick bamboo (32) mutually, the top of arc clamp plate (33) is connected with the cradling piece (1) lateral part that the right side corresponds is articulated, cradling piece (1) lateral part that arc clamp plate (33) inboard and right side correspond is through setting up first spring (34) fixed connection.

10. The digital intelligent printing machine for garment processing according to claim 9, wherein: a set of the whole inboard position that is close to the below of cradling piece (1) arrange a pair of guide rail (4) that are parallel to each other in the left-right direction symmetry installation, it sets up rather than vertically finished product collecting plate (51) to correspond a pair of guide rail (4) whole inboard, the both ends of finished product collecting plate (51) respectively with the spout swing joint that guide rail (4) of its left and right sides correspond, terminal surface installation handle (52) before finished product collecting plate (51), its whole outside correspondence of a pair of cradling piece (1) that is located the right side is located chain sheet frame (92) and finished product collecting plate (51) between position installation arc deflector (13), the arc heart of arc deflector (13) is towards cradling piece (1) whole inside, arc deflector (13) upper end is close to the top surface position on its right side of chain sheet frame (92), arc deflector (13) lower extreme is close to the top position on its right side of finished product collecting plate (51).

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