CN114194908A

CN114194908A - Tailoring and stacking system for garment materials

Info

Publication number: CN114194908A
Application number: CN202111428837.2A
Authority: CN
Inventors: 白广志; 任继平
Original assignee: SINOMECH CORP
Current assignee: SINOMECH CORP
Priority date: 2021-11-26
Filing date: 2021-11-26
Publication date: 2022-03-18
Anticipated expiration: 2041-11-26
Also published as: CN114194908B

Abstract

The invention provides a tailoring and stacking system for garment materials, and relates to the field of fabric tailoring. The cutting and stacking system comprises a rack structure, a fabric traction mechanism, a laser cutting mechanism, a cloth piece supporting mechanism and a stacking conveying mechanism which are arranged at intervals from top to bottom; the fabric traction mechanism is provided with a traction path for stretching the garment fabric to pass through, the traction path is positioned at the interval between the laser cutting mechanism and the cloth piece supporting mechanism, the cloth piece supporting mechanism comprises a low-friction supporting plate which is movably assembled, and the low-friction supporting plate is used for supporting the garment fabric and moving so that a finished cloth piece falls onto the stacking conveying mechanism; the stacking conveying mechanism is provided with a cutting stacking area and a sorting unloading area, the cutting stacking area and the laser cutting mechanism are arranged in an up-and-down corresponding mode to receive cloth piece finished products falling from the low-friction bearing plate, and the sorting unloading area and the laser cutting mechanism are arranged in a staggered mode. The cloth piece finished products of different styles realize categorised pile up into the buttress, can supply the follow-up process to take fast, need not artifical letter sorting and classify.

Description

Tailoring and stacking system for garment materials

Technical Field

The invention relates to the technical field of fabric cutting, in particular to a cutting and stacking system for garment fabric.

Background

In the production of clothes, the laser cutting technology is widely applied to cut the fabric of the clothes, usually, the flexible fabric is placed on a circulating conveyor belt and cut under the condition of slight tension so as to ensure that the cut fabric is smooth and has no wrinkles.

After tailorring the completion, need sort and accomodate cloth piece finished product, chinese utility model patent that the bulletin number is CN214055566U, the bulletin day is 2021.08.27 if the bulletin number specifically includes the support frame, the front end of support frame is equipped with the horizontal plate, and the front end of horizontal plate has seted up the spout, the spout sets up to sliding connection with first slider, hydraulic telescoping rod is installed to the lower extreme of first slider, and hydraulic telescoping rod's lower extreme installs the connecting block, the central point of connecting block puts to articulate has mechanical tongs. Through setting up hydraulic telescoping rod and mechanical tongs, the connecting block is articulated with mechanical tongs, can drive mechanical tongs and open and contract, has realized snatching the purpose that the garment materials placed in the containing box.

Use garment materials guillootine among the prior art can snatch letter sorting cloth piece finished product, but, the mode of snatching of mechanical tongs only can stack cloth piece finished product letter sorting, stacks and accomodates comparatively in a jumble, and the cloth piece finished product of different shapes and pattern can't accurate classification, is unfavorable for taking fast of subsequent handling.

Disclosure of Invention

In order to solve the problems, the invention aims to provide a tailoring and stacking system for garment materials, which aims to solve the problems that stacking and storage of the existing garment material cutting machine are messy, and finished cloth products in different shapes and styles cannot be accurately classified, so that quick taking in and taking out in subsequent processes are not facilitated.

The technical scheme of the tailoring and stacking system of the garment material is as follows:

the tailoring and stacking system for the clothing fabric comprises a rack structure, a fabric traction mechanism, a laser tailoring mechanism, a cloth piece supporting mechanism and a stacking conveying mechanism, wherein the fabric traction mechanism, the laser tailoring mechanism, the cloth piece supporting mechanism and the stacking conveying mechanism are arranged on the rack structure at intervals from top to bottom;

the fabric traction mechanism is provided with a traction path for stretching the garment fabric to pass through, the traction path is positioned at the interval between the laser tailoring mechanism and the cloth piece supporting mechanism, the cloth piece supporting mechanism comprises a low-friction supporting plate which is movably assembled, and the low-friction supporting plate is used for supporting the garment fabric and moving so that a finished cloth piece falls onto the stacking conveying mechanism;

the stacking conveying mechanism is provided with a cutting stacking area and a sorting unloading area, the cutting stacking area and the laser cutting mechanism are arranged in an up-and-down corresponding mode to receive cloth piece finished products falling from the low-friction bearing plate, and the sorting unloading area and the laser cutting mechanism are arranged in a staggered mode.

Further, the frame structure comprises a first frame, the fabric traction mechanism is mounted on the first frame, and the traction path extends along the length direction of the first frame;

the fabric traction mechanism comprises a traction motor, a traction roller and a compression roller, the traction motor is in transmission connection with the traction roller, a compression gap is arranged between the compression roller and the traction roller, and the compression gap and the traction path are arranged in a superposition mode.

Further, the laser cutting mechanism is installed at the upper part of the first rack and comprises a longitudinal moving guide rail, a transverse moving guide rail and a laser cutting host;

the longitudinal movement guide rail extends along the length direction of the first rack, the transverse movement guide rail extends along the width direction of the first rack, the transverse movement guide rail is movably assembled on the longitudinal movement guide rail, and the laser cutting host is movably assembled on the transverse movement guide rail.

Further, the rack structure comprises a second rack, the length direction of the second rack is perpendicular to the length direction of the first rack, and the cloth piece supporting mechanism further comprises a transverse slide rail and a transverse movement driving motor;

the transverse sliding rail is installed on the second rack in a guiding mode, the extending direction of the transverse sliding rail is arranged along the length direction of the second rack, the low-friction bearing plate is fixedly connected to the transverse sliding rail, and the transverse moving driving motor is in transmission connection with the transverse sliding rail.

Further, the rack structure comprises a third rack, the length direction of the third rack is parallel to the length direction of the second rack, and the stacking conveying mechanism is a belt conveying mechanism mounted on the third rack.

Furthermore, one end of the second rack and one end of the third rack are arranged inside the first rack, and the other end of the second rack and the other end of the third rack extend to the outer side of the first rack;

the part of the stacking conveying mechanism located inside the first rack forms the cutting stacking area, and the part of the stacking conveying mechanism located outside the first rack forms the sorting unloading area.

Furthermore, the lower part of the third rack is provided with a lifting mechanism, and the lifting mechanism is in transmission connection with the third rack so as to drive the stacking and conveying mechanism to adjust the height up and down.

Furthermore, a height detection element is arranged on the second rack and used for detecting the height position of the finished cloth piece on the stacking and conveying mechanism, and the height detection element is electrically connected with the lifting mechanism so as to adjust the upper surface of the finished cloth piece on the stacking and conveying mechanism to a set height.

Furthermore, the low-friction bearing plate is made of any one of a metal material, a high polymer material and an inorganic non-metal material.

Further, the roughness of the upper surface of the low friction bearing plate is less than or equal to 50 μm.

Has the advantages that: the tailoring and stacking system for the garment material adopts a frame structure, a material traction mechanism, and a laser tailoring mechanism, a cloth piece supporting mechanism and a stacking conveying mechanism which are arranged from top to bottom at intervals, wherein a traction path of the material traction mechanism penetrates through the space between the laser tailoring mechanism and the cloth piece supporting mechanism; the laser cutting mechanism is positioned above the clothing fabric, the clothing fabric is cut according to cutting pictures and texts, and the cloth piece supporting mechanism supports the clothing fabric below, so that the fabric flatness in the cutting process is ensured, and the accuracy of patterns of cloth piece finished products is ensured.

After cutting out, the control low friction bearing board shifts out the bearing position, cut out good cloth piece finished product because of gravity whereabouts to folding cutting out of sign indicating number conveying mechanism and folding the sign indicating number district, the cloth piece finished product of different patterns realizes categorised folding sign indicating number into the buttress, not only avoided all kinds of cloth piece finished products to mix together, and guaranteed that various cloth piece finished products are in the state of spreading, the cloth piece finished product is folded the sign indicating number to setting for height or quantity, shift it to the district of unloading through folding a sign indicating number conveying mechanism, can supply follow-up process to take fast, need not artifical letter sorting and classify, work efficiency is effectively improved.

Drawings

FIG. 1 is a schematic front view of a garment material cutting and stacking system in an embodiment of the garment material cutting and stacking system of the present invention;

FIG. 2 is a schematic right view of a garment material cutting and stacking system in an embodiment of the garment material cutting and stacking system of the present invention;

FIG. 3 is a schematic top view of a garment material in an embodiment of the system for cutting and stacking garment materials of the present invention.

In the figure: 1-a frame structure, 11-a first frame, 12-a second frame and 13-a third frame; 2-a fabric traction mechanism, 20-a traction motor, 21-a traction roller and 22-a compression roller;

3-laser cutting mechanism, 30-laser cutting host, 31-longitudinal moving guide rail and 32-transverse moving guide rail;

4-cloth piece supporting mechanism, 40-low friction supporting plate, 41-transverse slide rail, 42-transverse moving drive motor and 43-height detection element;

5-stacking conveying mechanism, 50-lifting mechanism, 51-cutting stacking area and 52-sorting unloading area; 6-garment materials and 60-cloth finished products.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the specific embodiment 1 of the cutting and stacking system for clothing material of the present invention, as shown in fig. 1 to 3, the cutting and stacking system for clothing material comprises a frame structure 1, a material traction mechanism 2 mounted on the frame structure 1, a laser cutting mechanism 3, a cloth piece supporting mechanism 4 and a stacking conveying mechanism 5, wherein the laser cutting mechanism 3, the cloth piece supporting mechanism 4 and the stacking conveying mechanism 5 are arranged at intervals from top to bottom; the fabric traction mechanism 2 is provided with a traction path for stretching the clothing fabric 6 to pass through, the traction path is positioned at the interval between the laser tailoring mechanism 3 and the cloth piece supporting mechanism 4, the cloth piece supporting mechanism 4 comprises a low-friction supporting plate 40 which is movably assembled, and the low-friction supporting plate 40 is used for supporting the clothing fabric 6 and moving so that the cloth piece finished product 60 falls onto the stacking conveying mechanism 5; the stacking conveying mechanism 5 is provided with a cutting stacking area 51 and a sorting discharging area 52, the cutting stacking area 51 and the laser cutting mechanism 52 are arranged up and down correspondingly to receive the cloth finished products 60 falling from the low-friction bearing plate 40, and the sorting discharging area 52 and the laser cutting mechanism 3 are arranged in a staggered mode.

The tailoring and stacking system for the garment material adopts a frame structure 1, a material traction mechanism 2, and a laser tailoring mechanism 3, a cloth piece supporting mechanism 4 and a stacking conveying mechanism 5 which are arranged from top to bottom at intervals, wherein the traction path of the material traction mechanism 2 passes through the space between the laser tailoring mechanism 3 and the cloth piece supporting mechanism 4; the laser cutting mechanism 3 is positioned above the clothing fabric 6, the clothing fabric 6 is cut according to cutting pictures and texts, and the cloth piece supporting mechanism 4 supports the clothing fabric 6 below, so that the fabric flatness in the cutting process is ensured, and the accuracy of 60 patterns of a cloth piece finished product is ensured. After cutting out, control low friction bearing board 40 shifts out the bearing position, the cloth piece finished product 60 of cutting out falls to the cutting out of folding sign indicating number conveying mechanism 5 because of gravity and folds sign indicating number district 51, the cloth piece finished product 60 of different styles realizes categorised folding sign indicating number into the buttress, not only avoided all kinds of cloth piece finished products 60 to mix together, and guaranteed that various cloth piece finished products 60 are in the state of spreading out, cloth piece finished product 60 folds the sign indicating number to setting for height or quantity, shift it to letter sorting district 52 of unloading through folding sign indicating number conveying mechanism 5, can supply the follow-up process to take fast, need not artifical letter sorting, and the work efficiency is effectively improved.

In this embodiment, the frame structure 1 includes a first frame 11, the fabric traction mechanism 2 is mounted on the first frame 1, and a traction path of the fabric traction mechanism 2 extends along the length direction of the first frame 1; and the fabric traction mechanism 2 comprises a traction motor 20, a traction roller 21 and a compression roller 22, the traction motor 20 is in transmission connection with the traction roller 21, a compression gap is arranged between the compression roller 22 and the traction roller 21, and the compression gap and the traction path are arranged in a superposition mode. The upper side and the lower side of the clothing fabric are respectively compressed by the compression roller 22 and the traction roller 21, the traction motor 20 drives the traction roller 21 to rotate to realize traction operation, corresponding fabric piece finished products 60 are cut out when passing below the laser cutting mechanism 3, and the cut waste fabric is moved out through a compression gap.

The laser cutting mechanism 3 is installed on the upper part of the first machine frame 11, and the laser cutting mechanism 3 comprises a longitudinal moving guide rail 31, a transverse moving guide rail 32 and a laser cutting host 30; the longitudinal moving guide rail 31 extends along the length direction of the first frame 11, the transverse moving guide rail 32 extends along the width direction of the first frame 11, the transverse moving guide rail 32 is movably assembled on the longitudinal moving guide rail 31, and the laser cutting host 30 is movably assembled on the transverse moving guide rail 32. The laser cutting mechanism 3 is provided with a longitudinal moving guide rail 31 and a transverse moving guide rail 32, and the working process is as follows: the laser cutting mechanism 3 controls the longitudinal moving guide rail 31 and the transverse moving guide rail 32 to move continuously according to the cutting image-text instruction, and continuous laser outputs to form a connected cutting motion track, so that the cutting motion path is consistent with the cutting image-text.

Moreover, the frame structure 1 includes a second frame 12, the length direction of the second frame 12 is perpendicular to the length direction of the first frame 11, and the cloth piece supporting mechanism 4 further includes a transverse slide rail 41 and a transverse movement driving motor 42; the transverse slide rail 42 is installed on the second frame 12 in a guiding manner, the extending direction of the transverse slide rail 42 is arranged along the length direction of the second frame 12, the transverse moving drive motor 42 is in transmission connection with the transverse slide rail 41, and the low-friction bearing plate 40 is fixedly connected with the transverse slide rail 41. Specifically, a transmission belt and a belt pulley are designed between the transverse moving drive motor 42 and the transverse sliding rail 41, a roller is further installed on the second rack 12, the roller is connected with the belt pulley in a rotation stopping manner, and the belt pulley are used for driving the low-friction bearing plate 40 to perform switching movement between the cutting stacking area 51 and the sorting discharging area 52. In order to meet different use requirements, the belt transmission can be replaced by gear and rack transmission or lead screw and nut transmission, and the purpose of driving the low-friction bearing plate 40 to move can also be achieved.

In the present embodiment, the frame structure 1 includes a third frame 13, the length direction of the third frame 13 is arranged parallel to the length direction of the second frame 12, and the stacking and conveying mechanism 5 is a belt conveying mechanism mounted on the third frame 12. One ends of the second rack 12 and the third rack 13 are arranged inside the first rack 1, and the other ends of the second rack 12 and the third rack 13 extend to the outer side of the first rack 11; the part of the stacking and conveying mechanism 5 positioned inside the first machine frame 1 forms a cutting stacking area 51, and the part of the stacking and conveying mechanism 5 positioned outside the first machine frame 1 forms a sorting discharging area 52.

As shown in fig. 2, the left side portions of the second frame 12 and the third frame 13 are located inside the first frame 1, that is, the left side portion of the stacking and conveying mechanism 5 is a cutting and stacking area 51 to receive the cloth piece finished product 60 cut above; the right parts of the second frame 12 and the third frame 13 are located outside the first frame 1, namely the right part of the stacking conveying mechanism 5 is a cutting stacking area 51, and the finished cloth piece products 60 which are orderly stacked are conveyed out through the stacking conveying mechanism 5, so that the finished cloth piece products can be directly taken out in the subsequent process.

And, the lower part of the third frame 13 is provided with a lifting mechanism 50, and the lifting mechanism 50 is in transmission connection with the third frame 13 to drive the stacking and conveying mechanism 5 to adjust the height up and down. Preferably, the lifting mechanism 50 is a motor worm and gear mechanism, and can drive the stacking conveying mechanism 5 to ascend or descend so as to adapt to the cloth piece finished products 60 with different stacking heights, thereby ensuring that the cloth piece finished products 60 accurately fall from the low-friction bearing plate 40 to the corresponding positions. In order to meet different use requirements, the lifting mechanism can also be a motor gear rack mechanism, a hydraulic oil cylinder or an air cylinder and the like, and the purpose of lifting the stacking conveying mechanism 5 can be achieved.

The second frame 12 is provided with a height detecting element 43, the height detecting element 43 is used for detecting the height position of the finished cloth piece 60 on the stacking and conveying mechanism 5, and the height detecting element 43 is electrically connected with the lifting mechanism 50 so as to adjust the upper surface of the finished cloth piece 60 on the stacking and conveying mechanism 5 to a set height. The implementation process is as follows: the height detection element 43 firstly detects whether the finished cloth piece 60 is stacked to a set height, if not, a starting electric signal is fed back to the controller, and the controller controls the lifting mechanism 50 to drive the stacking conveying mechanism 5 to lift. When the upper surface of the finished cloth piece 60 reaches the set height, a stop signal is fed back to the controller, and the controller controls the lifting mechanism 50 to stop lifting; correspondingly, if the height is too high, the lifting mechanism 50 is controlled to lower the stacking and conveying mechanism 5. After the same batch of fabrics is cut, the controller controls the stacking conveying mechanism 5 to start to operate, the finished cloth pieces 60 with orderly stacked codes are conveyed to the sorting and discharging area 52 from the cutting and stacking area 51, and the process is circulated.

In addition, the low friction bearing plate 40 is made of any one of a metal material, a polymer material, and an inorganic non-metal material. And, the roughness of the upper surface of the low friction bearing plate 40 is less than or equal to 50 μm. Preferably, the low-friction bearing plate 40 is made of stainless steel plate, the roughness of the upper surface is 20 μm, the surface of the stainless steel plate is flat and smooth, the friction resistance between the stainless steel plate and the finished cloth piece 60 is smaller, and when the low-friction bearing plate 40 moves, the finished cloth piece 60 falls to the cutting and stacking area 51 of the stacking conveying mechanism 5 under the action of gravity, so that the aim of classifying and stacking the finished cloth pieces 60 in different styles is fulfilled. In order to meet different use requirements, in other embodiments, the low-friction bearing plate can be made of acrylic, glass, plastic and other materials, and the roughness of the upper surface of the low-friction bearing plate can be any roughness of 0.1 μm, 1 μm, 10 μm, 50 μm or less than 50 μm.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and substitutions can be made without departing from the technical principle of the present invention, and these modifications and substitutions should also be regarded as the protection scope of the present invention.

Claims

1. A tailoring and stacking system for garment materials is characterized by comprising a rack structure, a material traction mechanism, a laser tailoring mechanism, a cloth piece supporting mechanism and a stacking conveying mechanism, wherein the material traction mechanism, the laser tailoring mechanism, the cloth piece supporting mechanism and the stacking conveying mechanism are arranged on the rack structure at intervals from top to bottom;

2. The garment material cutting and stacking system of claim 1, wherein the frame structure includes a first frame, the material pulling mechanism is mounted on the first frame, and the pulling path extends along a length of the first frame;

3. The cutting and stacking system for the garment material as claimed in claim 2, wherein the laser cutting mechanism is mounted at the upper part of the first frame, and comprises a longitudinal moving guide rail, a transverse moving guide rail and a laser cutting host;

4. The system of claim 2, wherein the frame structure includes a second frame, the second frame having a length dimension perpendicular to a length dimension of the first frame, the sheet support mechanism further including a transverse slide and a transverse drive motor;

5. The system of claim 4, wherein the frame structure includes a third frame, a length of the third frame is parallel to a length of the second frame, and the stacking and conveying mechanism is a belt conveying mechanism mounted on the third frame.

6. The cutting and stacking system for garment materials according to claim 5, wherein one end of the second frame and one end of the third frame are arranged inside the first frame, and the other end of the second frame and the other end of the third frame extend to the outer side of the first frame;

7. The cutting and stacking system for garment materials according to claim 5 or 6, wherein a lifting mechanism is arranged at the lower part of the third frame, and the lifting mechanism is in transmission connection with the third frame to drive the stacking and conveying mechanism to adjust the height up and down.

8. The system for cutting and stacking clothing materials according to claim 7, wherein a height detection element is arranged on the second frame, the height detection element is used for detecting the height position of the finished cloth pieces on the stacking and conveying mechanism, and the height detection element is electrically connected with the lifting mechanism so as to adjust the upper surface of the finished cloth pieces on the stacking and conveying mechanism to a set height.

9. The system of claim 1, wherein the low friction support plate is made of any one of a metal material, a polymer material, and an inorganic non-metallic material.

10. The garment material cropping stack system of claim 1, wherein the roughness of the upper surface of the low friction support plate is less than or equal to 50 μm.