CN115058877B - 3D simulation type garment tailoring system - Google Patents

Abstract

The application relates to the technical field of garment cutting, in particular to a 3D simulation type garment cutting system which comprises two supporting frames which are distributed front and back, wherein a positioning return-type frame is arranged between the two supporting frames, the front end of the positioning return-type frame is connected with a pressing shaping plate through four electric push rods, and a shaping cutting device is arranged on the positioning return-type frame and is used for shaping the size of garment materials. The positioning cutting device can cut out various types of clothes with different sizes, the whole length of the clothes is adjusted through the interval adjusting unit, and the waistline and shoulder circumference size of the clothes are adjusted through the center basic unit and the outer basic unit; the elastic smooth ring is arranged to ensure smoother contour during garment cutting and shaping, and the cutting knife of the traditional cutting equipment can cut along the elastic smooth ring through the elastic smooth ring, so that the cut garment can be well attached to the waist and the shoulder of a human body.

Description

3D simulation type garment tailoring system

Technical Field

The application relates to the technical field of garment cutting, in particular to a 3D simulation type garment cutting system.

Background

The clothing cutting is a process from making a plan view or three-dimensional cutting cloth to cutting clothing materials, and comprises 3 steps of plane cutting, three-dimensional cutting and prototype cutting, wherein the plane cutting is to design a plane drawing according to the measured size of a human body, namely a short-inch cutting method; the three-dimensional cutting is a prototype garment piece cut from a human body and well meets the requirement of a human body curve; prototype tailoring is a method of tailoring garments in an inferential manner by three-dimensionally tailoring the garment, using prototypes plus style looseness.

The utility model provides a clothes three-dimensional cutting device like publication number CN213476422U, includes the bottom plate, bottom plate upper end middle part is fixed to be provided with the stand, the inside upper end activity interlude of stand is provided with the extension rod, the fixed first backup pad that is provided with in extension rod upper end, first backup pad upper end both sides all are provided with the head rod through the pivot activity, the head rod upper end is provided with the second connecting rod through the pivot activity, the fixed second backup pad that is provided with in second connecting rod upper end, the inside cavity that is provided with of second backup pad, the inside both sides of cavity all movable block is provided with the slider, slider one side is fixed to be provided with the connecting block. This prior art excellent in use effect can be when using with clothes three-dimensional support make things convenient for the staff to tailor, and can fold it when the device does not need to use and accomodate to can conveniently store the transportation.

Problems with the prior art described above:

1. although the clothes can be cut by three-dimensionally supporting in the prior art, the prior art realizes the sizing of the waistline and shoulder circumference of the clothes only by simple matching of the first connecting rod and the second connecting rod, and cannot be well fit with the size of the waist and the shoulder of a human body.

2. The cloth is needed to be cut to a proper size before the clothes are manufactured in a clothes production factory, so that the clothes can be sewn conveniently, the cloth is needed to be cut to a rough shape in advance in the prior art, the clothes can be supported, and the cutting procedure is increased, so that the prior art cannot be popularized in the clothes factory, and the prior art can only cut for one size of the clothes, so that the popularization degree is further reduced, and the application range is not large.

Disclosure of Invention

In a first aspect, the present application provides a 3D simulation type garment tailoring system, which adopts the following technical scheme:

the utility model provides a 3D analog type clothing tailoring system, includes two support frames that distribute around, two be provided with the location back-form frame between the support frame, location back-form frame front end is connected with through four electric putter presses the shaping board, be provided with the design on the location back-form frame and tailor the device for carry out the size design to clothing surface fabric.

The shaping cutting device comprises two fixed vertical bars fixed in a positioning return frame, the two fixed vertical bars are distributed in a bilateral symmetry mode, a central key unit is arranged between the middle parts of the fixed vertical bars, two outer edge key units are arranged between the upper side and the lower side of the fixed vertical bars, a distance adjusting unit is arranged between the central key unit and the adjacent outer edge key units and between the adjacent outer edge key units, edge components are connected between the outer edge key units and the end parts located on the same side, and edge components are connected between the central key units and the adjacent outer edge key units and the end parts located on the same side.

Preferably, the central key unit comprises two L-shaped center strips which are distributed in a bilateral symmetry mode, the two L-shaped center strips are in bilateral sliding fit, the L-shaped center strips are arranged at the front ends of the fixed vertical strips in a bilateral sliding mode, sliding racks are arranged at the rear ends of the L-shaped center strips, rectangular holes which are convenient for the sliding racks to move are formed in the front ends of the fixed vertical strips, positioning strips are connected between the middle parts of the fixed vertical strips, a control shaft is mounted on the positioning strips through a bearing, a control gear is mounted on the control shaft, the two sliding racks are meshed with the control gear, and a control handle which is convenient to rotate is arranged at one end, far away from the control gear, of the control shaft.

Preferably, the outer edge basic tone unit includes the outer edge U type seat of upper and lower slip setting on two fixed vertical bars, outer edge U type seat sliding is provided with two bilateral symmetry's outer edge connecting strip, two outer edge connecting strip relative one end dislocation distribution and sliding fit from top to bottom, and two be connected with extension spring between the outer edge connecting strip, the spout has been seted up in the U type seat concave surface of outer edge, the middle part is provided with the reel in the spout, and the reel is installed on the reel, the reel runs through outer edge U type seat and installs on outer edge U type seat through the bearing, the reel is kept away from to the one end of reel and is installed the rotation holding disc of being convenient for rotate control, two outer edge connecting strip opposite side all is connected with taut rope, and taut rope other end winds on the reel.

Preferably, the interval adjusting unit comprises a jacking spring, the jacking spring is connected between two adjacent outer U-shaped seats, the jacking spring is also connected between the two ends of the adjacent outer U-shaped seats, the adjusting fixing plates are arranged at the upper end and the lower end of each locating strip, the adjusting fixing plates are arranged at two opposite sides of the outer U-shaped seats and positioned in the middle of the fixed vertical strip, the adjusting shafts are rotatably arranged on the adjusting fixing plates, the winding discs are arranged on the adjusting shafts, one side, facing the locating plates, of the outer U-shaped seats is connected with a steel wire rope, one end, far away from the outer U-shaped seats, of the steel wire rope is wound on the winding disc, and one end, far away from the winding disc, of each adjusting shaft is provided with an adjusting holding disc convenient to rotate and adjust.

Preferably, the adjusting holding disc and the rotating holding disc are provided with limiting components.

The limiting assembly comprises a limiting disc arranged at the rear of the adjusting holding disc or the rotating holding disc, a plurality of limiting rods are uniformly arranged on the limiting disc towards one side of the adjusting fixing plate or the outer edge U-shaped seat in the circumferential direction, the limiting rods penetrate through the adjusting holding disc or the rotating holding disc in a sliding mode, a plurality of limiting holes are uniformly formed in one sides of the adjusting fixing plate and the outer edge U-shaped seat towards the limiting disc along the circumferential direction of the adjusting shaft and the winding shaft respectively, and the limiting rods are slidably arranged in the limiting holes.

Preferably, the edge component comprises two tooth sliding strips and three tooth sliding strips, two tooth sliding strips are hinged to the upper end and the lower end of the vertical section of the L-shaped center strip, two tooth sliding strips are hinged to one end, far away from the outer U-shaped seat, of the outer edge connecting strip, which is located at the uppermost end and the lowermost end of the fixed vertical strip, two tooth sliding strips are in sliding fit with the three tooth sliding strips, two adjacent three tooth sliding strips are connected in a rotating mode, and one of the three tooth sliding strips is hinged to the outer edge connecting strip, close to the middle, of the fixed vertical strip.

Preferably, elastic smooth rings are arranged on the outer sides of the outer edge key units and the outer sides of the edge components at the uppermost end and the lowermost end of the fixed vertical bar, and the elastic smooth rings are attached to the outer edge key units and the edge components.

T type groove has been seted up to elasticity smooth ring inside wall, equidistant a plurality of dancer rolls that are provided with in the T type inslot, and dancer roll middle part is connected with the gib block, corresponds trident draw runner and be located two outer along U type seat of fixed vertical bar uppermost and lower extreme a plurality of the gib block is fixed respectively on this trident draw runner and outer along U type seat, all seted up the movable groove on two tooth draw runner lateral walls and the two outer along connecting strip lateral walls that are located fixed vertical bar uppermost and lower extreme, correspond the movable groove the gib block slides and sets up in the movable groove, and is connected with the cooperation spring between this two adjacent gib blocks.

Preferably, the front end surfaces of the edge component, the central key unit and the outer edge key unit are provided with flat panels.

The leveling panel comprises a plurality of leveling components which are distributed up and down, two ends of each leveling component are respectively hinged to three-tooth sliding strips or two-tooth sliding strips, each leveling component consists of a plurality of leveling strips which are distributed left and right, two leveling strips which are adjacent left and right are in sliding fit, one side, far away from the edge component, of each leveling strip lower end is provided with a leveling plate, and two adjacent leveling plates and leveling strips are in sliding fit.

Preferably, the arc extension blocks are arranged in the middle of the left side and the right side of the positioning return frame, the rotating shaft is arranged at the top of the supporting frame through a bearing, and one end of the rotating shaft, which is far away from the supporting frame, is arranged on the arc extension blocks in a detachable mode.

A positioning assembly is arranged between the support frame and the arc-shaped extension block; the locating component comprises a plurality of locating pin holes evenly formed in the outer edge of the arc-shaped extending block, a locating seat is mounted at the top of the supporting frame, a limiting hole is formed in the locating seat, and a locating pin rod penetrates through the limiting hole and the locating pin hole and is used for fixing the arc-shaped extending block on the locating seat.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the positioning cutting device can cut out various kinds of clothes with different sizes, the whole length of the clothes is adjusted through the interval adjusting unit, and the waistline and shoulder circumference sizes of the clothes are adjusted through the central basic adjusting unit and the outer basic adjusting unit, so that the application range of the positioning cutting device is improved.

2. The elastic smooth ring is arranged to ensure smoother contour during garment cutting and shaping, and the cutting knife of the traditional cutting equipment can cut along the elastic smooth ring through the elastic smooth ring, so that the cut garment can be well attached to the waist and the shoulder of a human body.

3. The positioning return frame is rotatably arranged on the support frame, and the positioning assembly is arranged between the positioning return frame and the support frame, so that the positioning return frame can rotate on the support frame, the placement position and the placement angle of the shaping and cutting device can be changed, and the application range of the positioning return frame is further improved.

4. The application ensures the front end surface of the shaping and cutting device to be flat through the flat panel so as to be matched with the pressing shaping plate, thereby ensuring that the garment material is kept flat and straight during shaping and cutting.

Drawings

Fig. 1 is a schematic structural view of the present application.

Fig. 2 is a schematic rear view of the structure of the present application.

Fig. 3 is an enlarged view of a portion of fig. 2 a of the present application.

Fig. 4 is a schematic structural view of the shaping and cutting device of the present application.

Fig. 5 is a schematic rear view of the shaping and cutting device of the present application.

Fig. 6 is an enlarged view of a portion of the application at B of fig. 5.

Fig. 7 is an enlarged view of a portion of fig. 5C in accordance with the present application.

Fig. 8 is a partial enlarged view of the application at D of fig. 4.

Fig. 9 is an enlarged view of a portion of fig. 4 at E in accordance with the present application.

Fig. 10 is an enlarged view of a portion of fig. 5 at F in accordance with the present application.

FIG. 11 is a schematic view of the structure of a flat panel of the present application.

Fig. 12 is a partial enlarged view of G of fig. 11 according to the present application.

Reference numerals illustrate: 1. a support frame; 11. a rotating shaft; 2. positioning a mold-returning frame; 21. an arc-shaped extension block; 22. a positioning assembly; 221. positioning pin holes; 222. a positioning seat; 223. limiting the aperture; 224. a positioning pin rod; 3. an electric push rod; 4. pressing the shaping plate; 5. a shaping and cutting device; 51. fixing the vertical bar; 52. a center key unit; 521. an L-shaped center strip; 522. sliding racks; 523. a positioning strip; 524. a control shaft; 525. a control gear; 526. a control handle; 53. an outer edge key unit; 531. an outer U-shaped seat; 532. an outer edge connecting strip; 533. a tension spring; 534. a chute; 535. a reel; 536. a winding shaft; 537. rotating the holding disc; 538. tensioning the rope; 54. a pitch adjustment unit; 541. a jack-up spring; 542. adjusting the fixing plate; 543. an adjusting shaft; 544. a winding disc; 545. a wire rope; 546. adjusting a holding disc; 55. an edge assembly; 551. two tooth sliding strips; 552. three-tooth sliding strips; 56. a limit component; 561. a limiting disc; 562. a limit rod; 563. a limiting hole; 57. an elastic smooth ring; 571. a T-shaped groove; 572. an adjusting roller; 573. a guide bar; 574. a moving groove; 58. leveling the panel; 581. a leveling assembly; 582. leveling the strips; 583. and (5) flattening the plate.

Detailed Description

The application is described in further detail below with reference to fig. 1-7.

The embodiment of the application discloses a 3D simulation type garment tailoring system which can realize sizing tailoring aiming at garments of different specifications and sizes in a batched mode, and can adjust the placement position of the system according to actual requirements so as to improve the application range of the system.

Referring to fig. 1 and 2, a 3D simulation type garment tailoring system comprises two supporting frames 1 distributed front and back, a positioning mold returning frame 2 is arranged between the two supporting frames 1, the front end of the positioning mold returning frame 2 is connected with a pressing mold plate 4 through four electric pushing rods 3, the electric pushing rods 3 are used for reciprocating movement of the pressing mold plate 4, and a shaping tailoring device 5 is arranged on the positioning mold returning frame 2 and used for sizing garment materials.

In the specific implementation process, the clothing panel is moved between the positioning return frame 2 and the pressing shaping plate 4, the clothing fabric is pulled to keep the clothing fabric straight and smooth, then the pressing positioning frame presses the clothing fabric on the shaping cutting device 5 under the driving of the electric push rod 3, the clothing fabric is positioned in size through the shaping cutting device 5, the clothing fabric is cut along the outer edge of the shaping cutting device 5 through the existing cutting device, and after the completion, the electric push rod 3 pushes the pressing shaping plate 4 to return to the initial position.

In order to ensure that the garment material can still know whether the auxiliary material is kept tight and smooth after being pushed by the pressing and shaping plate 4 to be pressed on the shaping and cutting device 5, and no wrinkling phenomenon exists, the pressing and shaping plate 4 is made of transparent materials, so that a worker can observe the state of the garment material through the pressing and shaping plate 4, and the worker can correct the garment material at any time.

Referring to fig. 2-3, further, in order to improve the application environment and the application scope of the present application, the middle parts of the left side and the right side of the positioning mold frame 2 are both provided with arc-shaped extension blocks 21, the top of the support frame 1 is provided with a rotating shaft 11 through a bearing, and one end of the rotating shaft 11 far away from the support frame 1 is detachably installed on the arc-shaped extension blocks 21.

The positioning return frame 2 can rotate under the support of the support frame 1 through the rotating shaft 11 so as to adjust the placement position and the swinging angle of the shaping cutting device 5, and the positioning return frame is applicable to more occasions, and meanwhile, the positioning return frame 2 and the shaping cutting device 5 can be detached through the detachable positioning return frame 11, so that the shaping cutting device 5 can be matched and installed on the existing cutting equipment, and the application range of the positioning return frame is further improved.

Furthermore, after the adjustment of the swing angle of the positioning mold frame 2 is completed, it is necessary to ensure that the positioning mold frame 2 is fixed on the support frame 1 to prevent the positioning mold frame 2 from continuing to rotate on the support frame 1, so that a positioning component 22 is disposed between the support frame 1 and the arc-shaped extension block 21; specifically, the positioning assembly 22 includes a plurality of positioning pin holes 221 uniformly formed along the outer edge of the arc-shaped extension block 21, a positioning seat 222 is mounted on the top of the support frame 1, a limiting hole 223 is formed in the positioning seat 222, and a positioning pin 224 penetrates through the limiting hole 223 and the positioning pin hole 221 and is used for fixing the arc-shaped extension block 21 on the positioning seat 222.

In the specific implementation process, after the positioning return frame 2 drives the arc-shaped extension block 21 to rotate at the top of the support frame 1, the positioning pin rods 224 are sequentially inserted into the limiting holes 223 and the positioning pin holes 221 so that the positioning return frame 2 is fixed on the positioning seat 222 on the support frame 1 through the arc-shaped extension block 21, the positioning return frame 2 is ensured to be stable when the sizing and cutting device 5 of the application shapes and cuts the clothing fabric, and the problem of swinging of the positioning return frame 2 occurs in the penmand; when the swing angle of the shaping and cutting device 5 needs to be adjusted, the positioning pin 224 is pulled out from the positioning pin hole 221 and the limiting hole 223, and the positioning mold frame 2 can be continuously rotated and adjusted on the supporting frame 1.

Referring to fig. 4-5, in a preferred embodiment, the shaping and cutting device 5 includes two fixed vertical bars 51 fixed in the positioning mold-returning frame 2, and the two fixed vertical bars 51 are distributed symmetrically left and right, a central key unit 52 is disposed between the middle parts of the two fixed vertical bars 51, for adjusting the left and right spacing between the middle parts of the garment fabric, two outer edge key units 53 are disposed between the upper and lower sides of the two fixed vertical bars 51, for adjusting the left and right spacing between the upper and lower sides of the garment fabric, a spacing adjusting unit 54 is disposed between the central key unit 52 and the adjacent outer edge key units 53 and between the adjacent outer edge key units 53, for adjusting the overall length of the garment fabric, edge components 55 are connected between the adjacent outer edge key units 53 and the end parts on the same side, and edge components 55 are connected between the central key unit 52 and the adjacent outer edge key units 53, so that the central key unit 52 and the plurality of outer edge key units 53 can be connected into a whole.

In the specific implementation process, according to the size requirement of the clothing, firstly, the distance between two adjacent outer edge key units 53 and the distance between the center key unit 52 and the adjacent outer edge key units 53 are adjusted through the distance adjusting unit 54, so that the overall length of the clothing is adjusted; the left-right spacing of the center key unit 52 and the outer edge key units 53 is then adjusted, respectively, until the outline formed by the two outer edge key units 53 and the plurality of edge components 55 at the uppermost and lowermost ends of the fixed vertical bar 51 is in the shape of a cut-out garment.

Referring to fig. 4 to 6, specifically, the center key unit 52 includes two L-shaped center bars 521 distributed symmetrically in a left-right direction, the two L-shaped center bars 521 are slidably fitted in a left-right direction, the L-shaped center bars 521 are slidably disposed at front ends of the fixed vertical bars 51 in a left-right direction, sliding racks 522 are disposed at rear ends of the L-shaped center bars 521, rectangular holes for facilitating movement of the sliding racks 522 are formed at front ends of the fixed vertical bars 51, a positioning bar 523 is connected between middle portions of the two fixed vertical bars 51, a control shaft 524 is mounted on the positioning bar 523 through a bearing, a control gear 525 is mounted on the control shaft 524, the two sliding racks 522 are engaged on the control gear 525, and a control handle 526 for facilitating rotation is disposed at an end of the control shaft 524 away from the control gear 525.

In a specific implementation process, the control handle 526 is rotated to drive the control gear 525 on the control shaft 524 to rotate, so that the two sliding racks 522 respectively drive the two L-shaped center bars 521 to move in opposite directions or move in opposite directions, thereby adjusting the distance between the two L-shaped center bars 521, and further adjusting the size of the middle part of the garment shaping and cutting.

Referring to fig. 5 to 7, in order to match the movement adjustment of the L-shaped center bar 521, the left and right dimensions of the upper and lower ends of the garment material are correspondingly adjusted; specifically, the outer edge key unit 53 includes an outer edge U-shaped seat 531 that slides up and down on two fixed vertical bars 51, two outer edge connecting bars 532 that are symmetrically distributed are slidably disposed in the outer edge U-shaped seat 531, two outer edge connecting bars 532 are distributed and slidingly matched up and down in a staggered manner relative to one end, and a tension spring 533 (shown in fig. 4) is connected between the two outer edge connecting bars 532, a sliding groove 534 is formed in a concave surface of the outer edge U-shaped seat 531, a winding disc 535 is disposed in the middle of the sliding groove 534, the winding disc 535 is mounted on the winding shaft 536, the winding shaft 536 penetrates through the outer edge U-shaped seat 531 and is mounted on the outer edge U-shaped seat 531 through a bearing, a rotary holding disc 537 that is convenient for rotation control is mounted at one end of the winding shaft 536 away from the winding disc 535, tensioning ropes 538 are connected to opposite sides of the two outer edge connecting bars 532, and the other ends of the tensioning ropes are wound on the winding disc 535.

In a specific implementation process, the rotation of the winding disc 535 on the winding shaft 536 is controlled by rotating the holding disc 537, so that the tensioning rope 538 starts to wind on the winding disc 535, and the tensioning rope 538 pulls the outer edge connecting strip 532 to move towards the middle part of the outer edge U-shaped seat 531, so that the cutting and sizing size of the upper end and the lower end of the garment fabric can be adjusted; when the grip 537 is rotated in the opposite direction, the tension cord 538 wound on the winding disc 535 starts to be separated from the winding disc 535, so that the two outer edge connection strips 532 can be moved in opposite directions under the pull of the tension spring 533, and the cutting and sizing size of the upper and lower ends of the garment fabric can be adjusted.

7-8, before adjusting the size between the left end and the right end of the tailoring and shaping of the garment fabric, the overall length of the garment fabric needs to be adjusted; specifically, the interval adjusting unit 54 includes a jack-up spring 541, a jack-up spring 541 (shown in fig. 4) is connected between two ends of two adjacent outer U-shaped seats 531, a positioning bar 523 and two adjacent outer U-shaped seats 531 are also connected with the jack-up spring 541, an adjusting fixing plate 542 is installed at the upper and lower ends of the positioning bar 523, an adjusting fixing plate 542 is also installed at opposite sides of the two outer U-shaped seats 531 located in the middle of the fixed vertical bar 51, an adjusting shaft 543 is rotatably installed on the adjusting fixing plate 542, a winding disc 544 is installed on the adjusting shaft 543, one side, facing the positioning plate, of the outer U-shaped seats 531 is connected with a steel wire rope 545, one end, away from the outer U-shaped seats 531, of the steel wire rope 545 is wound on the winding disc 544, and an adjusting grip 546 convenient to rotate and adjust is installed at one end, away from the winding disc 544, of the adjusting shaft 543.

In a specific implementation process, the adjusting grip 546 is rotated to enable the adjusting shaft 543 to drive the winding disc 544 to rotate, so that the steel wire rope 545 is wound on the winding disc 544, and the steel wire rope 545 is improved to pull the outer U-shaped seat 531 to move towards the positioning strip 523, so that the distance between two adjacent outer U-shaped seats 531 and the distance between the positioning strip 523 and the adjacent outer U-shaped seat 531 can be changed, and finally, the size and the size of the upper length and the lower length of the garment fabric during cutting and shaping are adjusted; when the spacing needs to be enlarged, the outer edge U-shaped seat 531 is pushed by the lifting spring 541 to move away from the positioning strip 523, so as to realize the spacing adjustment.

Wherein, the interval adjusting unit 54 and the outer edge basic adjusting unit 53 of the application realize the up-down interval adjustment and the left-right interval adjustment through the cooperation between the springs (the jacking springs 541, the tension springs 533) and the ropes (the steel wire ropes 545, the tensioning ropes 538), so that the rotation of the rolling shaft 536 and the adjusting shaft 543 easily occurs under the action of the tension springs 533 and the jacking springs 541 under the condition that no external force is applied to the rolling shaft 536 and the adjusting shaft 543, and the steel wire ropes 545 and the tensioning ropes 538 are respectively loosened from the winding disc 544 and the winding disc 535, so that the up-down interval adjustment and the left-right interval are not controlled; the present application thus provides a stop assembly 56 (shown in fig. 7) on both the adjustment grip 546 and the rotational grip 537.

Referring to fig. 7, specifically, the limiting assembly 56 includes a limiting disc 561 disposed behind an adjusting grip 546 or a rotating grip 537, a plurality of limiting rods 562 are uniformly disposed on the limiting disc 561 toward one side of the adjusting fixing plate 542 or the outer U-shaped seat 531 in a circumferential direction, the limiting rods 562 slidably penetrate through the adjusting grip 546 or the rotating grip 537, a plurality of limiting holes 563 are uniformly disposed on one sides of the adjusting fixing plate 542 and the outer U-shaped seat 531 toward the limiting disc 561 along the adjusting shaft 543 and the winding shaft 536 in a circumferential direction, respectively, and the limiting rods 562 are slidably disposed in the limiting holes 563.

In a specific implementation process, when the distance between the cutting and shaping of the garment fabric needs to be adjusted, the limiting disc 561 is pulled to enable the limiting rod 562 to be separated from the limiting hole 563, so that the adjusting holding disc 546 or the rotating holding disc 537 can be controlled to rotate, and after the adjustment is completed, the limiting disc 561 is pushed again to enable the limiting rod 562 to be slidably pushed into the limiting hole 563, so that the rolling shaft 536 or the adjusting shaft 543 can be limited to rotate.

Referring to fig. 9, when the center key unit 52, the outer edge key unit 53, and the pitch adjustment unit 54 are all moved and adjusted, the belt edge assembly 55 is also slidingly adjusted; specifically, the edge component 55 includes two tooth slide bars 551 and three tooth slide bars 552, two tooth slide bars 551 are hinged at the upper end and the lower end of the vertical section of the l-shaped center bar 521, two tooth slide bars 551 are hinged at the end, far away from the outer edge U-shaped seat 531, of the outer edge connecting bar 532 located at the uppermost end and the lowermost end of the fixed vertical bar 51, the two tooth slide bars 551 are in sliding fit with the three tooth slide bars 552, two adjacent three tooth slide bars 552 are connected in a rotating manner, and one of the three tooth slide bars 552 is hinged on the outer edge connecting bar 532 near the middle part of the fixed vertical bar 51.

In the specific implementation process, when the pitch adjusting unit 54 changes the vertical pitch and the center key unit 52 and the outer edge key unit 53 change the horizontal pitch, the two-tooth sliding bar 551 and the three-tooth sliding bar 552 are in sliding fit, so that the edge component 55 and the two outer edge key units 53 at the uppermost end and the lowermost end of the fixed vertical bar 51 form a complete annular structure.

Referring to fig. 9 to 10, further, the outer sides of the two outer edge key units 53 and the outer sides of the plurality of edge components 55 at the uppermost and lowermost ends of the fixed vertical bar 51 are provided with elastic smooth rings 57, and the elastic smooth rings 57 are attached to the outer edge key units 53 and the edge components 55; the elastic smooth ring 57 can ensure that the outer edge of the shaping and cutting device 5 is smooth, and the fabric is convenient to cut.

When the central key unit 52, the outer edge key unit 53 and the interval adjusting unit 54 adjust the size of the garment fabric cutting and shaping size, the elastic smooth ring 57 is always attached to the edge component 55 and the two outer edge key units 53 located at the uppermost end and the lowermost end of the fixed vertical bar 51, in order to improve the attaching degree, the inner side wall of the elastic smooth ring 57 is provided with a T-shaped groove 571, a plurality of adjusting rollers 572 are arranged in the T-shaped groove 571 at equal intervals, the middle part of each adjusting roller 572 is connected with a guide bar 573, a plurality of guide bars 573 corresponding to the three-tooth sliding bar 552 and the two outer edge U-shaped seats 531 located at the uppermost end and the lowermost end of the fixed vertical bar 51 are respectively fixed on the three-tooth sliding bar 552 and the outer edge U-shaped seats 531, the outer side walls of the two tooth sliding bars 551 and the two outer edge connecting bars 532 located at the uppermost end and the lowermost end of the fixed vertical bar 51 are respectively provided with a moving groove 574, the guide bars 573 corresponding to the moving groove 574 are slidingly arranged in the moving groove 574, and a matching spring (not shown in the figure) is connected between the two adjacent guide bars 573.

In a specific implementation process, the adjusting roller 572 slides in the T-shaped groove 571 to adapt the fitting degree of the elastic smooth ring 57 on the edge component 55 and the two outer edge tone units 53 located at the uppermost end and the lowermost end of the fixed vertical bar 51, and meanwhile, the elastic smooth ring 57 is prevented from being separated, because the outer edge connecting bar 532 is slidably arranged in the outer edge U-shaped seat 531 and the two-tooth sliding bar 551 is slidably arranged in the three-tooth sliding bar 552, in order to avoid collision between the guide bar 573 and the outer edge U-shaped seat 531 or the three-tooth sliding bar 552, a certain distance between two adjacent guide bars 573 located in the moving groove 574 can be ensured by matching springs, so that the phenomenon of accumulation is prevented.

Referring to fig. 11 to 12, in order to ensure that the pressing and shaping plate 4 can press the clothing fabric smoothly, the present application is provided with a leveling panel 58 at the front end surfaces of the edge unit 55, the center key unit 52 and the outer edge key unit 53.

The leveling panel 58 comprises a plurality of leveling components 581 which are distributed up and down, two ends of the leveling components 581 are respectively hinged on the three-tooth sliding strip 552 or the two-tooth sliding strip 551, the leveling components 581 are composed of a plurality of leveling strips 582 which are distributed left and right, two leveling strips 582 which are adjacent left and right are in sliding fit, one side, far away from the edge component 55, of the lower end of each leveling strip 582 is provided with a leveling plate 583, and two adjacent leveling plates 583 and the leveling strips 582 are in sliding fit.

In the specific implementation process, when the sizing cutting device 5 is adjusted, two upper and lower adjacent flat plates 583 and flat strips 582 are in sliding fit, and two left and right adjacent flat strips 582 and two flat plates 583 are in sliding fit left and right; the application ensures the front end surface of the shaping and cutting device 5 to be flat through the flat panel 58 so as to be matched with the pressing shaping plate 4, thereby ensuring that the garment material is kept flat and straight during shaping and cutting.

The implementation principle of the application is as follows:

(1): firstly, the placement position and the placement angle of the shaping and cutting device 5 are determined according to the implementation requirements, the placement angle of the shaping and cutting device 5 is driven by rotating the positioning frame, and after the position placement of the shaping and cutting device 5 is finished, the positioning frame 2 is fixed on the support frame 1 through the positioning pin 224.

(2): then, according to the size of the clothing, the distance between two adjacent outer edge tone units 53 and the distance between the center tone unit 52 and the adjacent outer edge tone units 53 are adjusted by the distance adjusting unit 54, and the left-right distance between the outer edge tone units 53 and the center tone unit 52 is adjusted, so that the size of the clothing fabric during cutting and shaping can be determined.

(3): the garment material is then extended and moved between the positioning return frame 2 and the pressing and shaping plate 4, and is tensioned and straightened, then the pressing and shaping plate 4 is moved towards the positioning return frame 2 under the action of the electric push rod 3, and the garment material is pressed on the leveling panel 58, so that the garment material is cut along the elastic smooth ring 57 by the existing cutting equipment.

The embodiments of the present application are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in this way, therefore: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (5)

1. 3D analog type clothing tailoring system, including two support frames (1) that distribute around, its characterized in that: a positioning return frame (2) is arranged between the two support frames (1), the front end of the positioning return frame (2) is connected with a pressing shaping plate (4) through four electric push rods (3), and a shaping cutting device (5) is arranged on the positioning return frame (2) and is used for sizing the garment fabric;

the shaping and cutting device (5) comprises two fixed vertical bars (51) fixed in a positioning return frame (2), the two fixed vertical bars (51) are distributed in bilateral symmetry, a central key unit (52) is arranged between the middle parts of the two fixed vertical bars (51), two outer edge key units (53) are arranged between the upper side and the lower side of the two fixed vertical bars (51), a distance adjusting unit (54) is arranged between the central key unit (52) and the adjacent outer edge key units (53) and between the adjacent two outer edge key units (53), edge components (55) are connected between the adjacent two outer edge key units (53) and the end parts which are positioned on the same side, and edge components (55) are connected between the central key units (52) and the adjacent outer edge key units (53) and between the end parts which are positioned on the same side;

the central key unit (52) comprises two L-shaped central strips (521) which are distributed symmetrically left and right, the two L-shaped central strips (521) are matched in a left-right sliding mode, the L-shaped central strips (521) are arranged at the front end of a fixed vertical strip (51) in a left-right sliding mode, sliding racks (522) are arranged at the rear end of the L-shaped central strips (521), rectangular holes which are convenient for the sliding racks (522) to move are formed in the front end of the fixed vertical strip (51), a positioning strip (523) is connected between the middle parts of the two fixed vertical strips (51), a control shaft (524) is arranged on the positioning strip (523) through a bearing, a control gear (525) is arranged on the control shaft (524), the two sliding racks (522) are meshed on the control gear (525), and a control handle (526) which is convenient to rotate is arranged at one end of the control shaft (524) away from the control gear (525);

the outer edge basic tone unit (53) comprises an outer edge U-shaped seat (531) which is arranged on two fixed vertical strips (51) in a sliding way up and down, two outer edge connecting strips (532) which are distributed in a bilateral symmetry way are arranged in the outer edge U-shaped seat (531), the two outer edge connecting strips (532) are distributed in a staggered way up and down and are in sliding fit relative to one end, an extension spring (533) is connected between the two outer edge connecting strips (532), a sliding groove (534) is formed in the concave surface of the outer edge U-shaped seat (531), a rolling disc (535) is arranged in the middle of the sliding groove (534), the rolling disc (535) is arranged on a rolling shaft (536), the rolling shaft (536) penetrates through the outer edge U-shaped seat (531) and is arranged on the outer edge U-shaped seat (531) through a bearing, one end, which is far away from the rolling disc (532), of the rolling shaft (536) is provided with a rotating disc (537) which is convenient to rotate and is controlled, the two outer edge connecting strips (532) are connected with a tensioning rope (538) on the opposite side, and the other end of the rolling disc (538) is wound on the rolling disc (538).

The interval adjusting unit (54) comprises jacking springs (541), jacking springs (541) are connected between two ends of two adjacent outer U-shaped seats (531), jacking springs (541) are connected between two ends of each locating strip (523) and two adjacent outer U-shaped seats (531), adjusting fixing plates (542) are arranged at the upper end and the lower end of each locating strip (523), adjusting fixing plates (542) are also arranged at one opposite side of each outer U-shaped seat (531) in the middle of each fixing vertical strip (51), an adjusting shaft (543) is rotatably arranged on each adjusting fixing plate (542), a winding disc (544) is arranged on each adjusting shaft (543), one side, facing the locating plate, of each outer U-shaped seat (531) is connected with a steel wire rope (545), one end, far away from each outer U-shaped seat (531), of each steel wire rope (545) is wound on each winding disc (544), and one end, far away from each winding disc (544), of each adjusting shaft (543) is provided with an adjusting holding disc (546) which is convenient to rotate;

the edge component (55) comprises two tooth sliding strips (551) and three tooth sliding strips (552), two tooth sliding strips (551) are hinged to the upper end and the lower end of the vertical section of the L-shaped center strip (521), two tooth sliding strips (551) are hinged to one end, far away from an outer edge U-shaped seat (531), of the outer edge connecting strip (532) at the uppermost end and the lowermost end of the fixed vertical strip (51), two tooth sliding strips (551) are hinged to one end, far away from the outer edge U-shaped seat (531), of the outer edge connecting strip (532), the two tooth sliding strips (551) are in sliding fit with three tooth sliding strips (552), two adjacent three tooth sliding strips (552) are connected in a rotating mode, and one of the three tooth sliding strips (552) are hinged to the outer edge connecting strip (532) close to the middle of the fixed vertical strip (51).

2. A 3D simulated garment tailoring system as claimed in claim 1, wherein: the adjusting holding disc (546) and the rotating holding disc (537) are provided with limiting assemblies (56);

spacing subassembly (56) are including setting up spacing dish (561) at regulation holding disk (546) or rotation holding disk (537) rear, spacing dish (561) evenly are provided with a plurality of gag levers (562) towards one side circumference of adjusting fixed plate (542) or outer U type seat (531), gag levers (562) slip run through regulation holding disk (546) or rotation holding disk (537), a plurality of spacing holes (563) have evenly been seted up along regulating spindle (543) and rolling axle (536) circumference respectively to one side of adjusting fixed plate (542) and outer U type seat (531) towards spacing dish (561), gag levers (562) slip setting is in spacing hole (563).

3. A 3D simulated garment tailoring system as claimed in claim 2, wherein: elastic smooth rings (57) are arranged on the outer sides of the two outer edge tone units (53) and the outer sides of the plurality of edge components (55) at the uppermost end and the lowermost end of the fixed vertical bar (51), and the elastic smooth rings (57) are attached to the outer edge tone units (53) and the edge components (55);

t type groove (571) have been seted up to elasticity smooth ring (57) inside wall, equidistant a plurality of dancer rolls (572) that are provided with in T type groove (571), and dancer roll (572) middle part is connected with guide bar (573), corresponds trident draw runner (552) and be located two outer U type seat (531) of fixed vertical bar (51) uppermost and lowermost a plurality of guide bar (573) are fixed respectively on this trident draw runner (552) and outer U type seat (531), two outer lateral walls of tooth draw runner (551) and two outer connecting strips (532) lateral walls that are located fixed vertical bar (51) uppermost and lowermost all have been seted up on the lateral wall of connecting strip (532), correspond to move draw runner (574) guide bar (573) slip sets up in moving groove (574), and be connected with the cooperation spring between these two adjacent guide bars (573).

4. A 3D simulated garment tailoring system as claimed in claim 1, wherein: the front end surfaces of the edge assembly (55), the center key unit (52) and the outer edge key unit (53) are provided with a leveling panel (58);

the leveling panel (58) comprises a plurality of leveling components (581) which are distributed up and down, two ends of the leveling components (581) are respectively hinged to three-tooth sliding strips (552) or two-tooth sliding strips (551), each leveling component (581) consists of a plurality of leveling strips (582) which are distributed left and right, two leveling strips (582) which are adjacent left and right are in sliding fit, one side, far away from the edge component (55), of each leveling strip (582) is provided with a leveling plate (583), and two adjacent leveling plates (583) and leveling strips (582) are in sliding fit.

5. A 3D simulated garment tailoring system as claimed in claim 1, wherein: arc-shaped extension blocks (21) are arranged in the middle of the left side and the right side of the positioning mold frame (2), a rotating shaft (11) is arranged at the top of the supporting frame (1) through a bearing, and one end, far away from the supporting frame (1), of the rotating shaft (11) is detachably arranged on the arc-shaped extension blocks (21);

a positioning assembly (22) is arranged between the support frame (1) and the arc-shaped extension block (21); the positioning assembly (22) comprises a plurality of positioning pin holes (221) uniformly formed in the outer edge of the arc-shaped extending block (21), a positioning seat (222) is arranged at the top of the supporting frame (1), a limiting hole (223) is formed in the positioning seat (222), and a positioning pin rod (224) penetrates through the limiting hole (223) and the positioning pin hole (221) and is used for fixing the arc-shaped extending block (21) on the positioning seat (222).