Garment cutting device
[ technical field ] A method for producing a semiconductor device
The invention relates to the technical field of garment production equipment, in particular to the technical field of garment cutting devices.
[ background of the invention ]
Clothes are a general term for clothes, shoes, ornaments and the like, and are often referred to as clothes. The definition of a garment in the national standard is: the product is also called as clothes, which is sewed and worn on the human body to play the role of protection and decoration. Clothing has emerged in the early stages of human society development, when ancient people made some of the material into coarse "clothing" that was worn. The first clothes of humans were mostly made of animal skins, and the earliest "fabrics" of the wraps were made of fibers such as hemp and grass. For society, clothing is a necessity for covering and decorating, and is not only worn, but also represents identity, a life attitude and individual charm. The production of clothes needs to cut cloth into different garment pieces and then sew the garment pieces together, and modern people have higher and higher requirements on the cutting process, and also have high-speed efficiency while pursuing high-quality cutting, for example, the modern people need to cut cloth or leather with different shapes, angles and lengths by hands, the cutting quality is difficult to ensure, and the efficiency is low, so the cutting machine has been developed for overcoming the defect.
The cutting machine is a precision instrument specially used for cutting materials such as cloth and leather, and has been widely applied to industries such as leather and cloth due to the high cutting precision and the high cutting efficiency. Wherein, the numerical control cutting machine which can realize the automatic cutting function is taken as the main part.
Wherein, the patent number is CN212641011U and has just provided a numerical control's cloth guillootine, including support, PLC controller, the fixed workstation that is equipped with in top of support, the top of support is located the relative both sides of workstation and all fixes and is equipped with the fixed station, the top of fixed station is all fixed and is equipped with first electronic slide rail, and the top of first electronic slide rail is through the fixed grillage of assorted electronic slider fixed connection, the fixed lateral shifting mechanism that is equipped with in one side of fixed grillage, this numerical control's cloth guillootine only need the manual work of the first time carry out the centre gripping after, need not the workman and cut out the location of position to the cloth, can automize and cut out the collection, effectual reduction intensity of labour, effectual improvement work efficiency. But the guillootine of this kind of structure can only cut the sola cloth once, cuts efficiently, and the material loading is slow, influences efficiency.
[ summary of the invention ]
The invention aims to solve the problems in the prior art and provides a garment cutting device which can improve cutting efficiency and cutting quality.
In order to achieve the purpose, the invention provides a garment cutting device, which comprises a cutting table and an automatic cutting mechanism arranged at the upper end of the cutting table, wherein a first feeding mechanism and a second feeding mechanism which are used for conveying cloth to the lower side of the automatic cutting mechanism are respectively arranged at two sides of the automatic cutting mechanism, the first feeding mechanism and the second feeding mechanism have the same structure and respectively comprise a first circular rail connected end to end and a second circular rail arranged in parallel at the inner ring of the first circular rail, a plurality of circular rail sliding blocks capable of sliding along the guide rail are arranged at the upper sides of the first circular rail and the second circular rail, a cloth placing plate used for placing the cloth is arranged at the upper side of each circular rail sliding block, a circular rail sliding block driving mechanism capable of driving the circular rail sliding blocks to slide along the guide rail is further arranged between the first circular rail and the second circular rail, and the adjacent parts of the first feeding mechanism and the second feeding mechanism are respectively arranged as a first cutting area and a second cutting area, the automatic cutting mechanism stretches across the first cutting area and the second cutting area, and the first feeding mechanism and the second feeding mechanism further comprise a multi-layer cloth paving machine which is arranged on the upper side of the cutting table and used for paving multi-layer cloth on the cloth placing plate.
Preferably, the circular rail sliding block driving mechanism comprises an annular driving chain and a plurality of chain wheels, the annular driving chain is arranged between the first circular rail and the second circular rail, the chain wheels are rotatably arranged on the cutting table and meshed with the annular driving chain, any chain wheel lower side is provided with a chain wheel driving motor capable of driving the chain wheel to rotate, and the circular rail sliding block lower side is fixedly connected with the annular driving chain.
Preferably, the automatic cutting mechanism comprises a cloth cutting machine, a CCD camera and a first transverse moving cylinder, wherein the side edge of the cloth cutting machine is used for shooting cloth below the cloth cutting machine, the first transverse moving cylinder stretches across the cutting mechanism arranged in the first cutting area and the second cutting area, a second transverse moving cylinder, which is perpendicular to the first transverse moving cylinder, is transversely arranged on the first transverse moving cylinder, and the cloth cutting machine and the CCD camera are arranged on a cylinder slider of the second transverse moving cylinder.
Preferably, one side of the cloth placing plate, which is far away from the first circular rail ring center, is hinged to the upper side of the circular rail sliding block through a cloth placing plate hinge.
Preferably, a turning driving cylinder capable of driving the cloth placing plate to turn around the hinge point for discharging is arranged between the cloth placing plate and the circular rail sliding block, and two ends of the turning driving cylinder are respectively hinged with the cloth placing plate and the circular rail sliding block.
Preferably, an automatic cleaning mechanism for cleaning the cloth scraps on the upper side of the cloth placing plate is further arranged on the upper sides of the first feeding mechanism and the second feeding mechanism.
Preferably, the cleaning mechanism comprises a cleaning roller arranged transversely and a dust suction machine head arranged on one side of the cleaning roller transversely, the cleaning roller and the dust suction machine head are fixed through a cleaning rack, two sides of the cleaning rack are provided with a cleaning mechanism transverse moving cylinder capable of driving the cleaning rack to clean along the cloth placing plate, and the cleaning mechanism transverse moving cylinder is arranged on the cutting table in an overhead mode through a transverse moving cylinder support.
Preferably, a cleaning mechanism lifting and moving cylinder capable of driving the cleaning frame to lift up and down is vertically arranged between the cleaning mechanism transverse moving cylinder and the cleaning frame, and a distance detection sensor for detecting the distance between the cleaning frame and the cloth placing plate is further arranged on the cleaning frame.
Preferably, the first cutting area and the second cutting area are further provided with cloth pressing mechanisms which can be matched with the automatic cutting mechanisms and used for pressing cloth on the cloth placing plate in the cutting areas.
Preferably, the cloth pressing mechanism comprises pressing mechanism first traversing cylinders arranged on two sides of the first cutting area and the second cutting area, a pressing support matched with the cloth placing plate is transversely arranged between the pressing mechanism first traversing cylinders, a pressing mechanism lifting cylinder capable of driving the pressing support to lift up and down is vertically arranged between the pressing mechanism first traversing cylinder and the pressing support, and the pressing mechanism first traversing cylinder and the automatic cutting mechanism move synchronously.
Preferably, the lower pressing support comprises a support body and at least two lower pressing rollers transversely arranged on the lower pressing support, and a gap through which a cutting part of the automatic cutting mechanism can pass is formed between the lower pressing rollers.
Preferably, a workbench for an operator to stop is arranged on one side of the cutting table, and a workbench traversing mechanism capable of driving the workbench to traverse to the position near the first feeding mechanism or the second feeding mechanism in a reciprocating manner is further arranged on the side edge of the cutting table.
Preferably, workstation sideslip mechanism including transversely locating tailoring table side workstation side fixed rail and with workstation side fixed rail relative parallel arrangement's drive rack, the workstation with workstation side fixed rail fixed connection, be equipped with on the workstation can with drive rack join in marriage the drive gear of meshing and can drive the rotatory workstation driving motor of drive gear.
Preferably, the workbench comprises a workbench transverse plate for operators to stop and a vertical main support plate arranged on one side of the workbench transverse plate and connected with the workbench side fixing rail, an upper folding edge transversely arranged at the top of the main support plate and provided with the cutting table in a side bending manner, a workbench upper sliding rail matched with the upper folding edge is arranged on the cutting table, the upper folding edge is fixedly connected with the workbench upper sliding rail, and the workbench upper sliding rail is arranged in parallel with the workbench side fixing rail.
Preferably, a finished product conveying belt capable of being matched with the worktable transverse moving mechanism is transversely arranged at a position close to the worktable transverse moving mechanism.
The tailoring device of the invention has the following beneficial effects: the invention sets a first feeding mechanism and a second feeding mechanism to cooperate with an automatic cutting mechanism, the first feeding mechanism and the second feeding mechanism can feed materials in turn to cut, the cutting process is carried out uninterruptedly, the efficiency is improved, the utilization ratio of the automatic cutting mechanism is improved, the time waste caused by the waiting process is reduced, the feeding mechanism can drive a cloth placing plate to rotate around a circular rail by setting a circular rail and a circular rail slide block driving mechanism, when the cloth placing plate passes through a multilayer cloth paving machine, the multilayer cloth paving machine can lay multilayer cloth on the cloth placing plate and automatically cut, the cloth placing plate after the cloth paving is finished is continuously conveyed to a first cutting area or a second cutting area of the automatic cutting mechanism, the automatic cutting mechanism can automatically cut the cloth on the cloth placing plate, when the cloth cutting of one cutting area is finished, the automatic cutting mechanism can move to another cutting area to cut, time waste is reduced.
The features and advantages of the present invention will be described in detail by embodiments in conjunction with the accompanying drawings.
[ description of the drawings ]
FIG. 1 is a schematic top view of a cutting apparatus for garments according to the present invention.
FIG. 2 is a schematic top view of an automatic cutting mechanism of a garment cutting device according to the present invention.
FIG. 3 is a schematic top view of a cloth pressing mechanism of a garment cutting device according to the present invention.
FIG. 4 is a schematic top view of the cleaning mechanism of the cutting device of the present invention.
FIG. 5 is a schematic view of the cleaning mechanism of the cutting device of the present invention.
FIG. 6 is a schematic side view of a lateral sliding mechanism of a worktable of a tailoring apparatus according to the present invention.
In the figure: 1-cutting table, 2-automatic cutting mechanism, 3-first circular rail, 4-second circular rail, 5-circular rail slide block, 6-cloth placing plate, 7-circular rail slide block driving mechanism, 8-multilayer cloth spreading machine, 9-cleaning mechanism, 10-cloth pressing mechanism, 11-first cutting area, 12-second cutting area setting, 13-overturning driving cylinder, 14-workbench, 15-workbench traversing mechanism, 16-finished product conveying belt, 21-cloth cutting machine, 22-CCD camera, 23-cutting mechanism first traversing cylinder, 24-cutting mechanism second traversing cylinder, 71-annular driving chain, 72-chain wheel, 73-chain wheel driving motor, 91-cleaning roller, 92-dust suction machine head, 93-cleaning machine frame, 94-a cleaning mechanism traversing cylinder, 95-a traversing cylinder bracket, 96-a cleaning mechanism lifting and moving cylinder, 97-a distance detection sensor, 101-a pressing mechanism first traversing cylinder, 102-a downward pressing bracket, 103-a pressing mechanism lifting cylinder, 1021-a bracket body, 1022-a downward pressing roller, 141-a workbench transverse plate, 142-a main supporting plate, 143-an upper hem, 151-a workbench side fixed rail, 152-a driving rack, 153-a workbench driving motor and 154-a workbench upper slide rail.
[ detailed description ] embodiments
In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings and examples. It should be understood, however, that the description herein of specific embodiments is only intended to illustrate the invention and not to limit the scope of the invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.
In the description of the present invention, it should be noted that when an element is referred to as being "fixed" or "disposed" to another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.
In the description of the present invention, it should be noted that the terms "center", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or the orientations or positional relationships in which the products of the present invention are conventionally placed when used, and are merely used for convenience of describing 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," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance. . Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise. The meaning of "a number" is one or more unless specifically limited otherwise.
In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.
The first embodiment is as follows:
referring to fig. 1 and 2, the present invention relates to a garment cutting device, which comprises a cutting table 1 and an automatic cutting mechanism 2 disposed at the upper end of the cutting table 1. The two sides of the automatic cutting mechanism 2 are respectively provided with a first feeding mechanism and a second feeding mechanism which are used for conveying the cloth to the lower side of the automatic cutting mechanism 2. First feed mechanism is the same with second feed mechanism structure, all includes end to end's first circular rail 3 and relative parallel locate the second circular rail 4 of first circular rail 3 inner circle. A plurality of circular track sliding blocks 5 which can slide along the guide rails are arranged on the upper sides of the first circular track 3 and the second circular track 4. The upper side of the ring rail slide block 5 is provided with a cloth placing plate 6 for placing cloth. And a circular rail slide block driving mechanism 7 capable of driving the circular rail slide block 5 to slide along the guide rail is further arranged between the first circular rail 3 and the second circular rail 4. The first feeding mechanism and the second feeding mechanism are arranged adjacently to form a first cutting area 11 and a second cutting area 12 respectively. The automatic cutting mechanism 2 spans a first cutting area 11 and a second cutting area setting 12. The first feeding mechanism and the second feeding mechanism further comprise a multi-layer cloth paving machine 8 which is arranged on the upper side of the cutting table 1 and used for paving a plurality of layers of cloth on the cloth placing plate 6. In the embodiment, the first feeding mechanism and the second feeding mechanism are matched with the automatic cutting mechanism 2, the first feeding mechanism and the second feeding mechanism can feed materials in turn for cutting, the cutting process is carried out uninterruptedly, the efficiency is improved, the utilization rate of the automatic cutting mechanism 2 is improved, the time waste caused by the material waiting process is reduced, the feeding mechanism can drive the cloth placing plate 6 to rotate around a circular rail by arranging the circular rail and circular rail slide block driving mechanism 7, when the cloth placing plate 6 passes through the multilayer cloth paving machine 8, the multilayer cloth paving machine 8 can pave and automatically cut multiple layers of cloth on the cloth placing plate 6, the paved rear cloth placing plate 6 is continuously conveyed to the first cutting area 11 or the second cutting area 12 of the automatic cutting mechanism 2, the automatic cutting mechanism 2 can automatically cut the cloth on the cloth placing plate 6, after the cloth cutting of one cutting area is finished, the automatic cutting mechanism 2 can move to another cutting area to cut at once, and time waste is reduced.
Referring to fig. 1, the endless track slider driving mechanism 7 includes an endless driving chain 71 connected end to end and a plurality of sprockets 72 capable of cooperating with the endless driving chain 71. An endless drive chain 71 is provided between the first endless track 3 and the second endless track 4. The chain wheel 72 is rotatably provided with the cutting table 1 and is engaged with the endless drive chain 71. A sprocket driving motor 73 capable of driving the sprocket 72 to rotate is provided on the lower side of any one of the sprockets 72. The lower side of the circular track slide block 5 is fixedly connected with a circular driving chain 71. Through the drive of annular driving chain 71, the drive dynamics is stronger, and the precision is higher, and it is more convenient to control.
Referring to fig. 1 and 2, the automatic cutting mechanism 2 includes a cloth cutting machine 21, a CCD camera 22 provided at a side of the cloth cutting machine 21 for photographing cloth below the cloth cutting machine 21, and a cutting mechanism first traverse cylinder 23 provided across the first cutting area 11 and the second cutting area 12. A second transverse cylinder 24 of the cutting mechanism is transversely arranged on the first transverse cylinder 23 of the cutting mechanism and is relatively and vertically arranged with the first transverse cylinder 23 of the cutting mechanism. The cloth cutter 21 and the CCD camera 22 are provided on a cylinder block of the second traverse cylinder 24. The first transverse cylinder 23 of the cutting mechanism can drive the cloth cutting machine 21 to be switched between the first cutting area 11 and the second cutting area 12 and drive the cloth cutting machine 21 to be transversely adjusted, and the second transverse cylinder 24 of the cutting mechanism can be matched with the first transverse cylinder 23 to be longitudinally adjusted, so that the cutting is more convenient.
Example two:
referring to fig. 1, one side of the cloth placing plate 6 far away from the circle center of the first circular rail 3 is hinged with the upper side of the circular rail slide block 5 through a cloth placing plate hinge 17. The cloth placing plate 6 is hinged to the circular rail sliding block 5, so that the cloth placing plate 6 can be turned and lifted conveniently, waste cloth cut on the cloth placing plate 6 is cleaned, and manpower is saved.
Referring to fig. 1, a turning driving cylinder 13 capable of driving the cloth placing plate 6 to turn around a hinge point for discharging is arranged between the cloth placing plate 6 and the circular rail slide block 5. Two ends of the overturning driving cylinder 13 are respectively hinged with the cloth placing plate 6 and the circular rail slide block 5. Set up upset actuating cylinder 13 and can drive the cloth and place board 6 automatic upset and unload, further use manpower sparingly, improve degree of automation.
Example three:
referring to fig. 1, 4 and 5, an automatic cleaning mechanism 9 for cleaning the cloth debris on the upper side of the cloth placing plate 6 is further disposed on the upper sides of the first feeding mechanism and the second feeding mechanism. The automatic cleaning mechanism 9 is arranged to automatically clean cloth scraps on the cloth placing plate 6, so that the neatness of the cloth placing plate 6 is improved.
Referring to fig. 1, 4 and 5, the cleaning mechanism 9 includes a cleaning roller 91 transversely disposed and a cleaner head 92 transversely disposed on one side of the cleaning roller 91. The cleaning roller 91 and the cleaner head 92 are fixed by a cleaning frame 93. Cleaning mechanism traversing cylinders 94 capable of driving the cleaning frame 93 to clean along the cloth placing plate 6 are provided on both sides of the cleaning frame 93. The cleaning mechanism transverse cylinder 94 is arranged on the cutting table 1 in an overhead manner through a transverse cylinder bracket 95. In the present embodiment, the cleaning roller 91 is arranged to be capable of cleaning up the debris in cooperation with the surface of the cloth placing plate 6, the dust collector head 92 is capable of absorbing the debris in cooperation with the cleaning roller 91, and the cleaning mechanism traversing cylinder 94 is capable of controlling the traversing of the cleaning frame 93, so that the cleaning roller 91 and the dust collector head 92 clean all parts of the surface of the cloth placing plate 6.
Referring to fig. 1, 4 and 5, a cleaning mechanism lifting and lowering cylinder 96 capable of driving the cleaning frame 93 to lift up and down is vertically disposed between the cleaning mechanism traversing cylinder 94 and the cleaning frame 93. The cleaning frame 93 is further provided with a distance detection sensor 97 for detecting a distance between the cleaning frame 93 and the cloth placing plate 6. Set up distance detection sensor 97 and be convenient for clean mechanism lift and move cylinder 96 automatic control and clean frame 93 and cloth and place the interval between the board 6, avoid colliding with, damage cleans frame 93 and cloth and places board 6, and set up the mechanism 9 that cleans behind distance detection sensor 97 and can also place board 6 upset cooperation with upset driving cylinder 13, when upset driving cylinder 13 drive cloth is placed board 6 upset and is unloaded, distance detection sensor 97 cleans mechanism lift and moves cylinder 96 automatic control and clean frame 93 and cloth and place the interval between the board 6 according to testing result control, clean mechanism's sideslip cylinder 94 drive and clean frame 93 sideslip, clean frame 93 and place 6 surface adjustment along the cloth automatically.
Example four:
referring to fig. 1 and 3, the first cutting area 11 and the second cutting area 12 are further provided with a cloth pressing mechanism 10 which can be matched with the automatic cutting mechanism 2 for pressing the cloth on the cloth placing plate 6 in the cutting area. The cloth pressing mechanism 10 is arranged to be convenient for being matched with the automatic cutting mechanism 2, so that cloth displacement in the cutting process is avoided, and the cutting precision is improved.
Referring to fig. 1 and 3, the cloth pressing mechanism 10 includes pressing mechanism first traverse cylinders 101 disposed at both sides of the first cutting area 11 and the second cutting area 12. A lower pressing bracket 102 used for being matched with the cloth placing plate 6 is transversely arranged between the first traverse cylinders 101 of the pressing mechanism. A pressing mechanism lifting cylinder 103 which can drive the pressing bracket 102 to lift up and down is vertically arranged between the pressing mechanism first traversing cylinder 101 and the pressing bracket 102. The first traverse cylinder 101 of the hold-down mechanism moves in synchronization with the automatic cutting mechanism 2.
Referring to fig. 1 and 3, the pressing bracket 102 includes a bracket body 1021 and two pressing rollers 1022 transversely disposed on the pressing bracket 102. A gap through which the cutting part of the automatic cutting mechanism 2 can pass is arranged between the pressing rollers 1022. Set up and push down roller 1022 and cloth contact and compress tightly the cloth, be convenient for push down support 102 sideslip, push down support 102 sideslip in-process need not to lift up, improve and compress tightly the effect, set up the clearance and be convenient for cloth cutter 21 to pass through between two push down rollers 1022.
Example five:
referring to fig. 1 and 6, a worktable 14 for an operator to stay is arranged at one side of the cutting table 1. The side edge of the cutting table 1 is also provided with a worktable traversing mechanism 15 which can drive a worktable 14 to reciprocate and traverse to the vicinity of the first feeding mechanism or the second feeding mechanism. The cutting table 1 is arranged at the discharging position of the first feeding mechanism and the second feeding mechanism, the cut cloth pieces need to be taken out after the cloth on the first feeding mechanism and the second feeding mechanism is cut by the automatic cutting mechanism 2, the step needs to be carried out manually, due to the arrangement of the first feeding mechanism and the second feeding mechanism, the first feeding mechanism and the second feeding mechanism are required to be discharged during discharging, the interval between the two mechanisms is far, a worker needs to reciprocate between the first feeding mechanism and the second feeding mechanism to discharge, the working strength is high, in the embodiment, the working table 14 and the working table transverse moving mechanism 15 capable of driving the working table 14 to reciprocate transversely move to the vicinity of the first feeding mechanism or the second feeding mechanism are arranged, and the worker can move to the discharging position of the first feeding mechanism or the second feeding mechanism through the working table transverse moving mechanism 15 to discharge only by standing on the working table 14, greatly reducing the labor intensity.
Referring to fig. 1 and 6, the worktable lateral movement mechanism 15 includes a worktable-side fixed rail 151 transversely disposed on a side edge of the cutting table 1 and a driving rack 152 disposed in parallel with the worktable-side fixed rail 151. The table 14 is fixedly connected to the table-side fixed rail 151. The table 14 is provided with a driving gear which can be engaged with the driving rack 152 and a table driving motor 153 which can drive the driving gear to rotate.
Referring to fig. 1 and 6, the work table 14 includes a work table cross plate 141 on which an operator stays, and a main supporting plate 142 vertically disposed at one side of the work table cross plate 141 and connected to the work table side fixing rail 151. The top of the main supporting plate 142 is transversely provided with an upper folding edge 143 which is arranged to be bent towards the side of the cutting table 1. The cutting table 1 is provided with a table upper slide rail 154 which can be matched with the upper folding edge 143. The upper flange 143 is fixedly connected to the upper slide rail 154 of the table. The table upper slide rail 154 is disposed in parallel with the table side fixing rail 151. The embodiment improves the fixing firmness and stability of the workbench 14 and improves the safety by arranging the matching of the upper sliding rail 154 and the upper folding edge 143 of the workbench.
Referring to fig. 1, a finished product conveyer belt 16 capable of being matched with the worktable traversing mechanism 15 is transversely arranged on the cutting table 1 and close to the worktable traversing mechanism 15. The unloading is convenient, and the cut garment pieces taken out by the working personnel only need to be placed on the finished product conveying belt 16.
The working process of the invention is as follows:
in the working process of the garment cutting device, the feeding mechanism can drive the cloth placing plate 6 to rotate around the circular rail by arranging the circular rail and circular rail slider driving mechanism 7, when the cloth placing plate 6 passes through the multilayer cloth paving machine 8, the multilayer cloth paving machine 8 can pave and automatically cut multiple layers of cloth on the cloth placing plate 6, the paved and laid back cloth placing plate 6 is continuously conveyed to the first cutting area 11 or the second cutting area 12 of the automatic cutting mechanism 2, the automatic cutting mechanism 2 can automatically cut the cloth on the cloth placing plate 6, and after the cloth cutting of one cutting area is finished, the automatic cutting mechanism 2 can immediately transversely move to the other cutting area for cutting, so that the time waste is reduced.
The above embodiments are illustrative of the present invention, and are not intended to limit the present invention, and any simple modifications of the present invention are within the scope of the present invention.