CN114575133A

CN114575133A - Textile fabric surface dust removal wrinkle removal device

Info

Publication number: CN114575133A
Application number: CN202210079316.9A
Authority: CN
Inventors: 崔敏
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-01-24
Filing date: 2022-01-24
Publication date: 2022-06-03

Abstract

The application provides a textile fabric surface dust and wrinkle removing device, which belongs to the field of garment manufacturing equipment and comprises a cutting table, a lifting dust removing mechanism and an ironing wrinkle removing mechanism, wherein the lifting dust removing mechanism comprises a lifting table, a speed reducing motor, a first servo motor, a beater, a conveying assembly, a third servo motor, a brush roll and a dust collector, the speed reducing motor is arranged at the top end of a vertical frame, a first cross shaft is arranged at the top end of the output end of the speed reducing motor, the first servo motor is arranged on the vertical frame, the dust collector is arranged above the top of a filter cover, the ironing wrinkle removing mechanism comprises a connecting plate, a fourth servo motor, a sliding block, an iron, a first air blower, a first electric sliding table, a laser cutting head, a second backing plate and a first drying assembly, the iron is arranged on the lower side of the sliding block, and directly leads the textile fabric to the cutting table to start the cutting operation after the dust removing treatment, the production efficiency is improved.

Description

Textile fabric surface dust removal wrinkle removal device

Technical Field

The application relates to the field of clothing equipment, particularly, relates to a textile fabric surface dust removal wrinkle-removing device.

Background

In many clothing workshops, the tailoring table is an important special working platform for performing operations such as sample drawing, material discharging, cloth laying, tailoring and the like, multiple layers of textile fabrics subjected to dust removal and wrinkle removal are overlapped and paved on a smooth and flat tailoring table surface, and the tailoring process can be completed quickly by using the light and smooth pushing of the electric shears.

At present, before a cutting table is used for cutting, dust removal and wrinkle removal treatment of a textile fabric to be cut needs to be specially carried out, then the textile fabric is paved and cut on the cutting table, the two procedures are difficult to be well jointed seamlessly, the occupation of workers is large, the textile fabric which is subjected to the dust removal and wrinkle removal treatment in the cloth paving process can be polluted again or wrinkles are generated, and the quality and the efficiency of the cutting operation are seriously influenced.

Disclosure of Invention

The present application is directed to solving at least one of the problems in the prior art. For this reason, this application provides a textile fabric surface dust removal wrinkle-removing device, a textile fabric surface dust removal wrinkle-removing device can stack the textile fabric who handles through dust removal wrinkle removal directly tiling on the tailoring table, has not only avoided the surface fabric to suffer secondary pollution or produce the fold once more, has also greatly improved the efficiency and the quality of tailor the operation.

The application is realized as follows:

the application provides a weaving surface fabric surface dust removal wrinkle chasing device includes tailoring table, lift dust removal mechanism and irones wrinkle chasing mechanism.

The lifting dust removal mechanism comprises a lifting platform, a speed reducing motor, a first servo motor, a beater, a conveying assembly, a third servo motor, a brush roll and a dust collector, wherein the lifting platform is arranged at one end of the cutting platform, a vertical frame is arranged at the edge of one end, far away from the cutting platform, of the lifting platform, the speed reducing motor is arranged at the top end of the vertical frame, the output end of the speed reducing motor rotates to penetrate through the top end of the vertical frame, a first transverse shaft is arranged at the top end of the output end of the speed reducing motor and above the lifting platform, the first servo motor is arranged on the vertical frame, the output end of the first servo motor rotates to penetrate through the vertical frame, a second transverse shaft is arranged at the top end of the output end of the first servo motor and between the first transverse shaft and the lifting platform, and the second transverse shaft is fixedly penetrated through the beater, the two conveying assemblies and the two brush rolls are arranged on the upper side of the lifting platform in parallel, the two brush rolls are arranged between the two conveying assemblies, one conveying assembly is arranged on one side, close to the beater, of the brush roll, the other conveying assembly is arranged on one end, close to the cutting platform, of the lifting platform, a second connecting block is arranged at one end of each brush roll, the second connecting block is fixedly connected to the edge of the upper side of the lifting platform, a third servo motor is arranged on the outer side of the second connecting block, the output end of the third servo motor penetrates through the second connecting block in a rotating mode, the output end of the third servo motor is fixedly connected to one end of one brush roll, one end of the other brush roll is connected to the inner side of the second connecting block in a rotating mode, a second shell is arranged at the other end of each brush roll, and the other ends of the two brush rolls penetrate through the second shell in a rotating mode, the other ends of the two brush rolls are in transmission connection, one end, far away from the cutting table, of the upper side of the lifting table is provided with a filter cover, the vertical frame, the speed reducing motor, the first cross shaft, the first servo motor, the beater, one conveying assembly and the brush rolls are arranged inside the filter cover, one side, close to the cutting table, of the filter cover is provided with a slotted hole, the dust collector is arranged above the top of the filter cover and communicated with the filter cover, the ironing and wrinkle removing mechanism comprises a connecting plate, a fourth servo motor, a sliding block, an iron, a first air blower, a first electric sliding table, a laser cutting head, a second backing plate and a first drying assembly, the two connecting plates are symmetrically arranged at the two ends of the upper side of the lifting table, the connecting plate is arranged at one side, close to the cutting table, and the connecting plate is arranged between the brush rolls and the other conveying assembly, the fourth servo motor is arranged outside one connecting plate, the output end of the fourth servo motor is rotated to penetrate through one connecting plate, a guide rod and a lead screw are arranged between the two connecting plates in parallel, two ends of the guide rod are respectively and fixedly connected to the inner sides of the two connecting plates, one end of the lead screw is fixedly connected to the output end of the fourth servo motor, the other end of the lead screw is rotatably connected to the inner side of the other connecting plate, lead screw threads penetrate through the slide block, the guide rod penetrates through the slide block in a sliding manner, the iron is arranged on the lower side of the slide block, the first electric sliding table and the first drying assembly are arranged on the upper side of the lifting table and are close to one end of the cutting table, the first drying assembly is arranged on the edge of the upper side of the lifting table, and the first electric sliding table is arranged between the first drying assembly and the other conveying assembly, the laser cutting head sets up the slip end downside of first electronic slip table, the second backing plate sets up the elevating platform upside, the second backing plate with first electronic slip table corresponds the setting, second backing plate upper end is close to tailoring table one side border is provided with first pinion rack, first air-blower sets up tailoring table downside, first air-blower communicate in first stoving subassembly.

In an embodiment of the application, the filter cover is provided with a movable door on one side away from the speed reduction motor, and a handle is arranged on the outer side of the movable door.

In one embodiment of the present application, the filter housing is provided with a first bracket at a top side thereof, and the cleaner is provided at an upper side of the first bracket.

In an embodiment of the application, a first through hole is formed in the top side of the filter cover, a dust hood is arranged on the upper side of the first through hole, and the dust collector is communicated with the filter cover through the dust hood.

In an embodiment of this application, conveying assembly includes first splice block, first casing, second servo motor and conveying roller, first splice block with first casing corresponds the setting and is in elevating platform upside both ends border, two the conveying roller sets up side by side first splice block with between the first casing, second servo motor sets up the first splice block outside, second servo motor's output rotate run through in first splice block, second servo motor's output fixed connection in one conveying roller one end, another conveying roller one end rotate connect in first splice block is inboard, two the conveying roller other end all rotate run through in first casing, two conveying roller other end transmission is connected.

In an embodiment of the application, two conveying rollers are far away from one end of the second servo motor and are provided with first gears, two first gears are symmetrically arranged inside the first shell, two first gears are meshed, a first protection plate is arranged outside the first shell, and a plurality of second through holes are uniformly formed in the first protection plate.

In one embodiment of the application, the other ends of the two brush rollers are provided with second gears, the two second gears are symmetrically arranged inside the second shell, the two second gears are meshed, a second protection plate is arranged outside the second shell, and a plurality of third through holes are uniformly formed in the second protection plate.

In one embodiment of the present application, a dust collecting bag is disposed at the air outlet of the vacuum cleaner.

In one embodiment of the present application, a first pad is disposed on the upper side of the lifting platform, and the first pad corresponds to the iron.

In an embodiment of the application, the first drying assembly includes a third casing, a first electric heating tube and a pore plate, the third casing is arranged on the upper side of the lifting table and close to one end edge of the cutting table, the first electric heating tube is arranged inside the third casing, and the pore plate is arranged on the upper side of the third casing.

In an embodiment of this application, a textile fabric surface dust removal wrinkle-smoothing device still includes tensile tiling mechanism.

The stretching and tiling mechanism comprises support frames, a second electric sliding table, a vertical plate, a second toothed plate, a first rotating plate and a first electric push rod, wherein the two support frames are symmetrically arranged at two sides of the cutting table, one end of each support frame is fixedly connected with one end, close to one side of the cutting table, of the lifting table, the second electric sliding table is arranged on the support frame, the vertical plate is arranged at the upper side of the sliding end of the second electric sliding table, the two ends of the second toothed plate are respectively and fixedly connected to one side, close to the first electric sliding table, of the vertical plate, the second toothed plate and the first toothed plate are correspondingly arranged, the two ends of the first rotating plate are respectively and rotatably connected to the inner sides of the two vertical plates, circular groove holes are formed in the vertical plate, connecting shafts are symmetrically arranged at two sides of the first rotating plate, one end of each connecting shaft is rotatably connected to one side of the first rotating plate, the connecting axle other end run through in the circular arc slotted hole, first electric putter sets up the riser outside, first electric putter upper end rotate connect in the riser upper end, first electric putter's piston rod lower extreme fixed connection in connecting axle one side.

In an embodiment of the application, the textile fabric surface dust and wrinkle removing device further comprises an adjusting and drying mechanism

The adjusting and drying mechanism comprises second supports, second air blowers, second drying assemblies, second rotating plates, second electric push rods and side curtains, the two second supports are respectively arranged on the upper sides of the two vertical plates, the second air blowers are arranged between the two second supports, the second drying assemblies are arranged between the tail ends of the two second supports, the second drying assemblies are arranged above the second gear plate and close to one side of the lifting platform, the two ends of each second drying assembly are respectively and fixedly connected to the tail ends of the two second supports, the second air blowers are communicated with the second drying assemblies, the two second rotating plates are symmetrically arranged at the lower end edges of the two sides of each second drying assembly, the upper sides of the second rotating plates are rotatably connected to the second drying assemblies, and the two side curtains are respectively arranged between the two ends of the two second rotating plates, the two second electric push rods are respectively arranged on the outer sides of the tail ends of the two second supports, the upper ends of the second electric push rods are fixedly connected to the outer sides of the tail ends of the second supports, and the lower ends of piston rods of the second electric push rods are in transmission connection with one ends of the two second rotating plates.

In one embodiment of the application, a support plate is arranged between the two second brackets, two sides of the support plate are fixedly connected to the upper side edges of the two second brackets respectively, and the second air blower is arranged on the upper side of the support plate.

In an embodiment of the present application, the second drying assembly includes a tube body and a second electric heating tube, two ends of the tube body are respectively and fixedly connected to the inner sides of the ends of the two second brackets, and the second electric heating tube is disposed inside the tube body.

In an embodiment of the present application, the second rotating plate is symmetrically provided with side shafts on two sides, the piston rod lower end of the second electric push rod is symmetrically provided with connecting rods on two sides, and the two side shafts on the same side of the two second rotating plates respectively penetrate through the two connecting rods.

The beneficial effect of this application is: the application obtains a textile fabric surface dust removal and wrinkle removal device through the design, when in use, a first cross shaft is inserted into the center of a textile fabric roll to be processed, then the textile fabric is lapped on a beater and passes through a conveying assembly, a slotted hole, the lower part of an iron and a brush roll, the tail end of the textile fabric passes through a laser cutting head and a second backing plate, a speed reducing motor, a first servo motor, a conveying assembly, a third servo motor, a fourth servo motor, a dust collector and a first air blower are respectively started, dust on the textile fabric is beaten by driving the beater, then residual dust on the textile fabric is further brushed by the brush roll again, the lifted dust is sucked by the dust collector, the textile fabric subjected to dust removal is led out by a conveying assembly outside a filter cover, the iron is started, and a screw rod is driven by the fourth servo motor to drive an iron to reciprocate along a guide rod, ironing textile fabric, can pull the textile fabric who removes dust and wrinkles to tailor the bench, tiling layer by layer, after one deck surface fabric is paved and tailors the platform, start first electronic slip table and drive laser cutting head and cut the surface fabric, the height of elevating platform is properly adjusted according to the height that the surface fabric tiled, make the surface fabric can tile smoothly, after the tiling finishes, can use the electric scissors to begin to tailor the operation, so can directly get into the tiling and tailor the link with the textile fabric that removes dust and wrinkles and handle, make two processes link up better, the textile fabric who avoids removing dust and wrinkles and handle receives secondary pollution or produces the fold once more, effectively improve textile fabric's the efficiency and the quality of removing dust and wrinkles and tailor the operation, and then improve production efficiency.

Drawings

In order to more clearly explain the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and that for those skilled in the art, other related drawings can be obtained from these drawings without inventive effort.

Fig. 1 is a schematic perspective view of a device for removing dust and wrinkles from the surface of a textile fabric according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a lifting dust removal mechanism, an ironing wrinkle removal mechanism, a stretching and flatly laying mechanism and an adjusting drying mechanism provided by the embodiment of the application;

FIG. 3 is a schematic structural diagram of a lifting dust removal mechanism and an ironing and wrinkle-removing mechanism provided in an embodiment of the present application;

FIG. 4 is a schematic structural diagram of a cutting table and a first air blower provided by the embodiment of the application;

FIG. 5 is a schematic view of a filter housing according to an embodiment of the present disclosure;

FIG. 6 is a schematic view of a vacuum cleaner according to an embodiment of the present disclosure;

FIG. 7 is a schematic structural diagram of a delivery assembly provided in an embodiment of the present application;

FIG. 8 is a schematic view of a brush roll configuration provided in an embodiment of the present application;

fig. 9 is a structural schematic diagram of a first electric sliding table, a laser cutting head, a second backing plate and a first toothed plate according to an embodiment of the present application;

fig. 10 is a schematic structural diagram of a first drying assembly according to an embodiment of the present disclosure;

fig. 11 is a schematic structural view of a support frame and a second electric sliding table provided in the embodiment of the present application;

fig. 12 is a structural schematic view of a riser, a second tooth plate and a first rotating plate according to an embodiment of the present application;

fig. 13 is an enlarged schematic structural diagram at a provided in the present application;

fig. 14 is a schematic structural diagram of an adjusting and drying mechanism provided in the embodiment of the present application;

fig. 15 is an enlarged schematic structural diagram at B according to an embodiment of the present application;

fig. 16 is a schematic structural view of a second bracket and a second drying assembly provided in the embodiment of the present application.

In the figure: 100-a cutting table; 200-a lifting dust removal mechanism; 210-a lifting platform; 211-vertical frame; 212-a filter housing; 2121-a movable door; 2122-a first scaffold; 2123-slotted hole; 2124-a first via; 220-a reduction motor; 221-first horizontal axis; 230-a first servo motor; 231-second horizontal axis; 240-beater; 250-a delivery assembly; 251-a first connection block; 252 — a first housing; 253-a second servo motor; 254-conveying rollers; 2541-first gear; 255-a first guard plate; 2551-a second via; 260-a third servo motor; 270-a brush roll; 271-a second connection block; 272-a second housing; 273-second gear; 274-a second guard plate; 2741-third via; 280-a vacuum cleaner; 281-a dust hood; 282-dust collecting bag; 300-ironing and wrinkle-removing mechanism; 310-a connecting plate; 311-a guide bar; 312-a first shim plate; 320-a fourth servo motor; 321-a lead screw; 330-a slide block; 340-an iron; 350-a first blower; 360-a first electric sliding table; 370-a laser cutting head; 380-a second backing plate; 381-first toothed plate; 390-a first drying assembly; 391-a third housing; 392-a first electrical heating tube; 393-well plate; 400-stretching and flatly laying mechanism; 410-a support frame; 420-a second electric sliding table; 430-a riser; 431-circular arc slotted hole; 440-second toothed plate; 450-a first rotation plate; 451-a connecting shaft; 460-a first electric putter; 500-adjusting the drying mechanism; 510-a second support; 511-extension board; 520-a second blower; 530-a second drying assembly; 531-a tube body; 532-second electrothermal tube; 540-a second rotating plate; 541-side shaft; 550-a second electric putter; 551-connecting rod; 560-side curtain.

Detailed Description

The technical solutions in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application.

To make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments obtained by a person of ordinary skill in the art without any inventive work based on the embodiments in the present application are within the scope of protection of the present application.

Examples

As shown in fig. 1-16, a textile fabric surface dust removal and wrinkle removal device according to an embodiment of the present application includes a tailoring table 100, a lifting dust removal mechanism 200, an ironing wrinkle removal mechanism 300, a stretching and flatly laying mechanism 400, and an adjusting and drying mechanism 500, wherein the lifting dust removal mechanism 200 and the ironing wrinkle removal mechanism 300 are disposed at one end of the tailoring table 100, so as to perform dust removal and wrinkle removal processing on a textile fabric to be tailored, the stretching and flatly laying mechanism 400 is disposed above the tailoring table 100, so as to conveniently flatly lay the textile fabric subjected to dust removal and wrinkle removal on the tailoring table 100 in time, and prevent the textile fabric from being polluted or wrinkled again, the adjusting and drying mechanism 500 is disposed on the stretching and flatly laying mechanism 400, and performs drying processing on the textile fabric subjected to dust removal and wrinkle removal processing again when the stretching and flatly laying mechanism 400 reciprocates to pull the textile fabric to be flatly laid on the tailoring table 100.

According to some embodiments of the present application, as shown in fig. 2-3 and 5-8, the lifting and dust removing mechanism 200 includes a lifting table 210, a decelerating motor 220, a first servo motor 230, a beater 240, a conveying assembly 250, a third servo motor 260, a brush roller 270 and a dust collector 280, the lifting table 210 is disposed at one end of the cutting table 100, a vertical frame 211 is disposed at one end edge of the lifting table 210 away from the cutting table 100, the decelerating motor 220 is disposed at a top end of the vertical frame 211, an output end of the decelerating motor 220 is rotatably penetrated through a top end of the vertical frame 211, a first transverse shaft 221 is disposed at a top end of an output end of the decelerating motor 220, the first transverse shaft 221 is disposed above the lifting table 210, the first servo motor 230 is disposed on the vertical frame 211, an output end of the first servo motor 230 is rotatably penetrated through the vertical frame 211, a second transverse shaft 231 is disposed at a top end of an output end of the first servo motor 230, the second transverse shaft 231 is disposed between the first transverse shaft 221 and the lifting table 210, the second transverse shaft 231 is fixedly penetrated through the beater 240, the two conveying assemblies 250 and the two brush rolls 270 are arranged on the upper side of the lifting platform 210 in parallel, the two brush rolls 270 are arranged between the two conveying assemblies 250, one conveying assembly 250 is arranged on one side of the brush roll 270 close to the beater 240, the other conveying assembly 250 is arranged on one end of the lifting platform 210 close to the cutting platform 100, one end of each of the two brush rolls 270 is provided with a second connecting block 271, the second connecting block 271 is fixedly connected to the edge of the upper side of the lifting platform 210, a third servo motor 260 is arranged on the outer side of the second connecting block 271, the output end of the third servo motor 260 is rotatably penetrated through the second connecting block 271, the output end of the third servo motor 260 is fixedly connected to one end of one brush roll 270, one end of the other brush roll 270 is rotatably connected to the inner side of the second connecting block 271, the other ends of the two brush rolls 270 are provided with a second housing 272, and the other ends of the two brush rolls 270 are rotatably penetrated through the second housing 272, the other ends of the two brush rolls 270 are in transmission connection, one end of the upper side of the lifting platform 210, which is far away from the cutting platform 100, is provided with a filter cover 212, a vertical frame 211, a speed reducing motor 220, a first cross shaft 221, a first servo motor 230, a beater 240, a conveying assembly 250 and the brush rolls 270 are all arranged inside the filter cover 212, one side of the filter cover 212, which is close to the cutting platform 100, is provided with a slotted hole 2123, a dust collector 280 is arranged above the top of the filter cover 212, the dust collector 280 is communicated with the filter cover 212, one side of the filter cover 212, which is far away from the speed reducing motor 220, is provided with a movable door 2121, the outer side of the movable door 2121 is provided with a handle, textile fabric is conveniently coiled on the first cross shaft 221 through the movable door 2121, then the movable door 2121 is closed, the filter cover 212 forms a closed space, so that dust is not leaked out, the top side of the filter cover 212 is provided with a first support 2122, the dust collector 280 is arranged on the upper side of the first support 2122, the top side of the filter cover 212 is provided with a first through hole 2124, the suction hood 281 is arranged on the upper side of the first through hole 2124, the dust collector 280 is communicated with the filter hood 212 through the suction hood 281, when the first servo motor 230 drives the second cross shaft 231 to rotate the beater 240 to beat dust adhered to the textile fabric and further to be brushed away through the brush roller 270, the dust collector 280 can suck the risen dust in time, and the dust removal treatment of the textile fabric is completed.

Wherein, the conveying assembly 250 comprises a first connecting block 251, a first housing 252, a second servo motor 253 and conveying rollers 254, the first connecting block 251 and the first housing 252 are correspondingly arranged at the two end edges of the upper side of the lifting platform 210, the two conveying rollers 254 are arranged between the first connecting block 251 and the first housing 252 in parallel, the second servo motor 253 is arranged outside the first connecting block 251, the output end of the second servo motor 253 is rotatably penetrated through the first connecting block 251, the output end of the second servo motor 253 is fixedly connected with one end of one conveying roller 254, one end of the other conveying roller 254 is rotatably connected inside the first connecting block 251, the other ends of the two conveying rollers 254 are rotatably penetrated through the first housing 252, the other ends of the two conveying rollers 254 are in transmission connection, one ends of the two conveying rollers 254 far away from the second servo motor 253 are both provided with a first gear 2541, the two first gears 2541 are symmetrically arranged inside the first housing 252, two first gears 2541 are engaged, a first protection plate 255 is arranged on the outer side of a first housing 252, a plurality of second through holes 2551 are uniformly formed in the first protection plate 255, when a second servo motor 253 drives one conveying roller 254, the two first gears 2541 are engaged to reversely drive the other conveying roller 254, so that the textile fabric is slowly conveyed at a certain speed, the first protection plate 255 can prevent foreign matters from entering the first housing 252 to obstruct the movement of the first gears 2541, the second through holes 2551 can timely dissipate heat generated by the movement of the first gears 2541 in the first housing 252 to ensure the stable operation of the textile fabric, second gears 273 are arranged at the other ends of two brush rollers 270, the two second gears 273 are symmetrically arranged in a second housing 272, the two second gears 273 are engaged, a second protection plate 274 is arranged on the outer side of the second housing 272, a plurality of third through holes 2741 are uniformly formed in the second protection plate 274, in practical operation, the rotation direction of the brush roller 270 is generally opposite to that of the conveying roller 254, and the rotation speed of the brush roller 270 is greater than that of the conveying roller 254 to obtain a better dust brushing effect, and the air outlet of the dust collector 280 is provided with a dust collecting bag 282, and the dust collecting bag 282 can effectively collect dust blown out from the air outlet of the dust collector 280.

According to some embodiments of the present application, as shown in fig. 2-4 and 9-10, the ironing and de-wrinkling mechanism 300 comprises a connecting plate 310, a fourth servo motor 320, a sliding block 330, an iron 340, a first blower 350, a first electric sliding table 360, a laser cutting head 370, a second backing plate 380 and a first drying assembly 390, wherein the two connecting plates 310 are symmetrically arranged at two ends of the upper side of the lifting table 210, the connecting plate 310 is arranged at one side of the brush roll 270 close to the cutting table 100, the connecting plate 310 is arranged between the brush roll 270 and another conveying assembly 250, the fourth servo motor 320 is arranged at the outer side of one connecting plate 310, the output end of the fourth servo motor 320 is rotatably penetrated through one connecting plate 310, a guide rod 311 and a lead screw 321 are arranged between the two connecting plates 310 in parallel, two ends of the guide rod 311 are respectively fixedly connected to the inner sides of the two connecting plates 310, one end of the lead screw 321 is fixedly connected to the output end of the fourth servo motor 320, the other end of the screw 321 is rotatably connected to the inner side of the other connecting plate 310, the screw 321 is threaded through the sliding block 330, the guide rod 311 is slidably inserted through the sliding block 330, the iron 340 is disposed on the lower side of the sliding block 330, the first electric sliding table 360 and the first drying assembly 390 are disposed on the upper side of the lifting table 210 near one end of the cutting table 100, the first drying assembly 390 is disposed on the upper side edge of the lifting table 210, the first electric sliding table 360 is disposed between the first drying assembly 390 and the other conveying assembly 250, the laser cutting head 370 is disposed on the lower side of the sliding end of the first electric sliding table 360, the second backing plate 380 is disposed on the upper side of the lifting table 210, the second backing plate 380 and the first electric sliding table 360 are correspondingly disposed, the first toothed plate 381 is disposed on the upper end of the second backing plate 380 near one side edge of the cutting table 100, the first blower 350 is disposed on the lower side of the cutting table 100, the first blower 350 is communicated with the first drying assembly 390, the first backing plate 312 is disposed on the upper side of the lifting table 210, the first backing plate 312 and the iron 340 are correspondingly arranged, when the fourth servo motor 320 drives the screw 321 to reciprocate along the guide rod 311 to iron the dedusted textile fabric, the first backing plate 312 can provide support for the fabric, so that the ironing effect is better, the first drying assembly 390 comprises a third shell 391, a first electric heating tube 392 and a pore plate 393, the third shell 391 is arranged at the edge of the upper side of the lifting platform 210 close to one end of the cutting platform 100, the first electric heating tube 392 is arranged inside the third shell 391, the pore plate 393 is arranged at the upper side of the third shell 391, when the iron 340 irons the textile fabric, the ironing effect needs to be improved by matching with water vapor, therefore, the fabric which is just ironed needs to be dried, when the fabric is pulled to be flatly laid on the cutting platform 100, the first blower 350 blows air into the third shell 391, the heat of the opened first electric heating tube 392 is sprayed out onto the fabric which is just ironed through vent holes uniformly formed in the third shell 391, make its rapid draing to the next process is tailor, through the hose intercommunication between first air-blower 350 and the first stoving subassembly 390, so can not hinder elevating platform 210 height-adjusting.

According to some embodiments of the present application, as shown in fig. 2 and fig. 11-13, the conventional spreading of the drawworks is mostly completed by manual traction, but for the textile fabric which has just undergone dust removal and wrinkle removal treatment, secondary pollution of the fabric is easily caused if the spreading operation is performed by the conventional manual method, and since the manual operation is difficult to be coordinated, wrinkles are easily generated again when the fabric is spread on the cutting table 100, so that the dust removal and wrinkle removal effects and quality of the fabric entering the cutting process are greatly reduced, and the production efficiency and the quality of the finished product are also seriously affected, the stretching and spreading mechanism 400 includes a support frame 410, a second electric sliding table 420, a vertical plate 430, a second toothed plate 440, a first rotating plate 450 and a first electric push rod 460, two support frames 410 are symmetrically arranged at two sides of the cutting table 100, one end of the support frame 410 is fixedly connected to one end of the lifting table 210 near the cutting table 100, the second electric sliding table 420 is arranged on the supporting frame 410, the vertical plate 430 is arranged on the upper side of the sliding end of the second electric sliding table 420, two ends of the second toothed plate 440 are respectively and fixedly connected to one side, close to the first electric sliding table 360, of the vertical plate 430, the second toothed plate 440 and the first toothed plate 381 are correspondingly arranged, two ends of the first rotating plate 450 are respectively and rotatably connected to the inner sides of the two vertical plates 430, an arc groove hole 431 is formed in each vertical plate 430, connecting shafts 451 are symmetrically arranged on two sides of the first rotating plate 450, one end of each connecting shaft 451 is rotatably connected to one side of the first rotating plate 450, the other end of each connecting shaft 451 penetrates through the arc groove hole 431, a first electric push rod 460 is arranged on the outer side of each vertical plate 430, the upper end of the first electric push rod 460 is rotatably connected to the upper end of each vertical plate 430, the lower end of a piston rod of the first electric push rod 460 is fixedly connected to one side of the connecting shaft 451, when the other conveying assembly 250 draws out the fabric subjected to the dust removal and wrinkle removal, the end of the first electric sliding table 360 stops on the first toothed plate 381, the two second electric sliding tables 420 drive the second toothed plate 440, the second toothed plate 440 and the first toothed plate 381 are correspondingly arranged, and the teeth of the second toothed plate 440 and the first toothed plate 381 can be meshed, after the second toothed plate 440 and the first toothed plate 381 are meshed, the first rotation plate 450 is pushed to be pressed against the second gear plate 440 through the connection shaft 451 by the first electric push rod 460, the tail end of the fabric is clamped, the second toothed plate 440 and the first toothed plate 381 are driven by the first electric sliding table 360 again, the fabric is led out at a certain speed by matching with the conveying assembly 250 and is flatly laid on the tailoring table 100, so as to facilitate the operation of the next cutting procedure, thereby avoiding the problems that when the textile fabric after dust removal and wrinkle removal treatment is drawn manually, the fabric is subjected to secondary pollution or is wrinkled again, the dust removal and wrinkle removal effects of the textile fabric are prevented from being influenced, and the dust removal and wrinkle removal treatment and cutting processing efficiency and quality of the textile fabric are improved.

According to some embodiments of the present application, as shown in fig. 2 and 14-16, if the material of the textile fabric to be processed is special, the thickness is large, or wrinkles are large, the amount of steam sprayed and the ironing time are increased when the wrinkle removing process is performed, so that it is difficult to completely dry the textile fabric just after being processed by only the first drying component 390 when being pulled out and laid flat, the adjusting and drying mechanism 500 includes two second supports 510, a second blower 520, a second drying component 530, a second rotating plate 540, a second electric push rod 550 and a side curtain 560, the two second supports 510 are respectively disposed on the upper sides of the two vertical plates 430, the second blower 520 is disposed between the two second supports 510, the second drying component 530 is disposed between the ends of the two second supports 510, the second drying component 530 is disposed above the second toothed plate 440 and close to the lifting table 210, both ends of the second drying component 530 are respectively fixedly connected to the ends of the two second supports 510, the second blower 520 is communicated with the second drying assembly 530, two second rotating plates 540 are symmetrically arranged at the lower end edges of two sides of the second drying assembly 530, the upper side of the second rotating plate 540 is rotatably connected with the second drying assembly 530, two side curtains 560 are respectively arranged between two ends of the two second rotating plates 540, two second electric push rods 550 are respectively arranged at the outer sides of the tail ends of the two second brackets 510, the upper end of each second electric push rod 550 is fixedly connected with the outer side of the tail end of the second bracket 510, the lower end of a piston rod of each second electric push rod 550 is in transmission connection with one end of each second rotating plate 540, a support plate 511 is arranged between the two second brackets 510, two sides of the support plate 511 are respectively and fixedly connected with the upper side edges of the two second brackets 510, the second blower 520 is arranged at the upper side of the support plate 511, the second drying assembly 530 comprises a tube 531 and a second electric heating tube 532, two ends of the tube 531 are respectively and fixedly connected with the inner sides of the tail ends of the two second brackets 510, the second electric heating tube 532 is arranged inside the tube 531, the two sides of the second rotating plate 540 are symmetrically provided with side shafts 541, the two sides of the lower end of the piston rod of the second electric push rod 550 are symmetrically provided with connecting rods 551, the two side shafts 541 on the same side of the two second rotating plates 540 respectively penetrate through the two connecting rods 551, when a layer of processed textile fabric is flatly laid on the cutting table 100, the first electric sliding table 360 drives the laser cutting head 370 to cut off the fabric, the first electric push rod 460 pulls up the first rotating plate 450 to release the tail end of the fabric, then the two second electric sliding tables 420 drive the whole adjusting and drying mechanism 500 to move reversely, simultaneously, the second air blower 520 and the second drying assembly 530 are started, the sliding end speed of the second electric sliding table 420 is properly adjusted, the fabric is dried again, the power and the temperature of the second air blower 520 and the second drying assembly 530 can be adjusted according to the actual material and thickness of the textile fabric, through second electric putter 550 lift connecting rod 551, pull two second rotor plates 540 through side shaft 541 and open and shut, side curtain 560 can stretch out and draw foldingly, and then adjust to required air output, guarantee that can fast drying the textile fabric who tiles on tailoring table 100, when second pinion rack 440 and first pinion rack 381 press from both sides tight surface fabric end once more and pull its tiling once more, can temporarily close second air-blower 520 and second stoving subassembly 530, in order to wait to open the use once more, so can further dry the surface fabric, when the textile fabric's of removing dust and removing wrinkles processing material is comparatively special or thickness is great, also can dry completely, guarantee going on smoothly of next tailoring process, improve textile fabric dust removal and remove wrinkles and handle and tailor the efficiency and the quality of processing.

Specifically, this textile fabric surface dust removal wrinkle chasing device's theory of operation: when the dust removing device is used, the first transverse shaft 221 is inserted into the center of a textile fabric roll to be treated, then the textile fabric is lapped on the beater 240 and passes through the conveying assembly 250, the slotted hole 2123, the lower part of the iron 340 and the brush roller 270, the tail end of the textile fabric passes through the space between the laser cutting head 370 and the second backing plate 380, the speed reducing motor 220, the first servo motor 230, the conveying assembly 250, the third servo motor 260, the fourth servo motor 320, the dust collector 280 and the first air blower 350 are respectively started, the beater 240 is driven to beat dust on the textile fabric, then the brush roller 270 is used for further brushing residual dust on the textile fabric, the lifted dust is sucked and removed by the dust collector 280, the textile fabric subjected to dust removal is led out by one conveying assembly 250 except the filter hood 212, the iron 340 is started, the fourth servo motor 320 drives the screw 321 to drive the iron 340 to reciprocate along the guide rod 311 to iron the textile fabric, that is, the textile fabric with the dust and wrinkles removed is pulled towards the cutting table 100, when the iron 340 irons the textile fabric, the ironing effect needs to be improved by cooperating with the steam, so that the fabric which is just ironed needs to be dried, when the fabric is pulled to the cutting table 100 to be flatly laid, the first blower 350 blows air into the third shell 391, the heat of the opened first electric heating tube 392 is sprayed out onto the fabric which is just ironed through the vent holes uniformly formed on the third shell 391, so that the fabric is rapidly dried, the next procedure is convenient for cutting, when another conveying assembly 250 draws out the fabric with the dust and wrinkles removed, the tail end of the fabric passes through the first electric sliding table 360 and stops on the first toothed plate 381, the two second electric sliding tables 420 drive the second toothed plate 440, the second toothed plate 440 and the first toothed plate 381 are correspondingly arranged, and the teeth formed by the second toothed plate 440 and the first toothed plate 381 can be engaged, after the second toothed plate 440 is engaged with the first toothed plate 381, the first electric push rod 460 pushes the first rotating plate 450 through the connecting shaft 451 to tightly press the first rotating plate 450 and the second toothed plate 440, so as to clamp the end of the fabric, the first electric sliding table 360 drives the second toothed plate 440 and the first toothed plate 381 again, the conveying assembly 250 is matched to draw out the fabric at a certain speed, so that the fabric is flatly laid on the cutting table 100, and the operation of the next cutting procedure is facilitated, thus the secondary pollution to the fabric or the wrinkle of the fabric can be avoided when the textile fabric processed by dust removal and wrinkle removal is manually drawn, after one layer of the fabric is fully laid on the cutting table 100, the first electric sliding table 360 is started to drive the laser cutting head 370 to cut the fabric, the first rotating plate 450 is pulled up through the first electric push rod 460 to release the end of the fabric, and then the two second electric sliding tables 420 are used to drive the whole adjusting and drying mechanism 500 to move reversely, the second blower 520 and the second drying assembly 530 are started, the sliding end speed of the second electric sliding table 420 is properly adjusted, the fabric is dried again, the power and the temperature of the second blower 520 and the second drying assembly 530 can be adjusted according to the actual material and the thickness of the fabric, the connecting rod 551 is lifted and lowered through the second electric push rod 550, the two second rotating plates 540 are pulled to open and close through the side shafts 541, the side curtains 560 can be folded in a telescopic manner and further adjusted to the required air output amount, the fabric which is paved on the cutting table 100 can be quickly dried, when the second toothed plate 440 and the first toothed plate 381 clamp the tail end of the fabric again and pull the fabric to be paved again, the second blower 520 and the second drying assembly 530 can be temporarily closed to be started again for use, so that the fabric can be further dried, when the material of the fabric which is subjected to the dust removal and wrinkle removal treatment is special or has a large thickness, also can dry completely, according to the height of the high suitable regulation elevating platform 210 of surface fabric tiling, be through the hose intercommunication between first air-blower 350 and the first stoving subassembly 390, so can not hinder elevating platform 210 height-adjusting, make the surface fabric can tile smoothly, the tiling finishes the back, can use the electric scissors to begin to tailor the operation, so can directly get into the tiling and tailor the link with the textile fabric that removes dust and wrinkle processing, make two processes link up better, the textile fabric who avoids removing dust and removing wrinkle processing receives secondary pollution or produces the fold once more, effectively improve the efficiency and the quality of the dust removal wrinkle removal of textile fabric and tailor the operation, and then improve production efficiency.

It should be noted that the specific model specifications of the lifting table 210, the speed reduction motor 220, the first servo motor 230, the second servo motor 253, the third servo motor 260, the dust collector 280, the fourth servo motor 320, the iron 340, the first air blower 350, the first electric sliding table 360, the laser cutting head 370, the first electric heating tube 392, the second electric sliding table 420, the first electric push rod 460, the second air blower 520, the second electric heating tube 532 and the second electric push rod 550 need to be determined according to the actual specification of the device, and the specific model selection calculation method adopts the prior art in the field, so detailed description is omitted.

The power supply and the principle of the speed reducing motor 220, the first servo motor 230, the second servo motor 253, the third servo motor 260, the vacuum cleaner 280, the fourth servo motor 320, the iron 340, the first blower 350, the first electric sliding table 360, the laser cutting head 370, the first electric heating tube 392, the second electric sliding table 420, the first electric push rod 460, the second blower 520, the second electric heating tube 532 and the second electric push rod 550 are clear to those skilled in the art and will not be described in detail herein.

The above is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and variations may be made to the present application by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims

1. A textile fabric surface dust removal and wrinkle removal device is characterized by comprising

A cutting table (100);

the lifting dust removal mechanism (200), the lifting dust removal mechanism (200) comprises a lifting platform (210), a speed reduction motor (220), a first servo motor (230), a beater (240), a conveying assembly (250), a third servo motor (260), a brush roll (270) and a dust collector (280), the lifting platform (210) is arranged at one end of the cutting platform (100), a vertical frame (211) is arranged at the edge of one end, far away from the cutting platform (100), of the lifting platform (210), the speed reduction motor (220) is arranged at the top end of the vertical frame (211), the output end of the speed reduction motor (220) rotates to penetrate through the top end of the vertical frame (211), a first transverse shaft (221) is arranged at the top end of the output end of the speed reduction motor (220), the first transverse shaft (221) is arranged above the lifting platform (210), and the first servo motor (230) is arranged on the vertical frame (211), the output end of the first servo motor (230) rotates to penetrate through the vertical frame (211), a second transverse shaft (231) is arranged at the top end of the output end of the first servo motor (230), the second transverse shaft (231) is arranged between the first transverse shaft (221) and the lifting platform (210), the second transverse shaft (231) fixedly penetrates through the beater (240), the two conveying assemblies (250) and the two brush rolls (270) are arranged on the upper side of the lifting platform (210) in parallel, the two brush rolls (270) are arranged between the two conveying assemblies (250), one conveying assembly (250) is arranged on one side, close to the beater (240), of the brush roll (270), the other conveying assembly (250) is arranged on one end, close to the cutting platform (100), of the lifting platform (210), of the two brush rolls (270), one end of each brush roll (270) is provided with a second connecting block (271), the second connecting block (271) is fixedly connected to the upper side edge of the lifting platform (210), the third servo motor (260) is arranged on the outer side of the second connecting block (271), the output end of the third servo motor (260) rotates to penetrate through the second connecting block (271), the output end of the third servo motor (260) is fixedly connected to one end of the brush roll (270), one end of the other brush roll (270) rotates to be connected to the inner side of the second connecting block (271), the other ends of the two brush rolls (270) are provided with second shells (272), the other ends of the two brush rolls (270) rotate to penetrate through the second shells (272), the other ends of the two brush rolls (270) are in transmission connection, one end, far away from the cutting platform (100), of the upper side of the lifting platform (210) is provided with a filter cover (212), and the vertical frame (211) and the speed reduction motor (220), The first transverse shaft (221), the first servo motor (230), the beater (240), the conveying assembly (250) and the brush roll (270) are all arranged inside the filter cover (212), a slotted hole (2123) is formed in one side, close to the cutting table (100), of the filter cover (212), the dust collector (280) is arranged above the top of the filter cover (212), and the dust collector (280) is communicated with the filter cover (212);

an ironing and wrinkle-removing mechanism (300), the ironing and wrinkle-removing mechanism (300) comprises a connecting plate (310), a fourth servo motor (320), a sliding block (330), an iron (340), a first air blower (350), a first electric sliding table (360), a laser cutting head (370), a second backing plate (380) and a first drying assembly (390), the two connecting plates (310) are symmetrically arranged at two ends of the upper side of the lifting table (210), the connecting plate (310) is arranged at one side of the brush roll (270) close to the cutting table (100), the connecting plate (310) is arranged between the brush roll (270) and the other conveying assembly (250), the fourth servo motor (320) is arranged at the outer side of one connecting plate (310), the output end of the fourth servo motor (320) rotatably penetrates through one connecting plate (310), and a guide rod (311) and a lead screw (321) are arranged between the two connecting plates (310) in parallel, two ends of the guide rod (311) are respectively fixedly connected with the inner sides of the two connecting plates (310), one end of the screw rod (321) is fixedly connected with the output end of the fourth servo motor (320), the other end of the screw rod (321) is rotatably connected with the inner side of the other connecting plate (310), the screw rod (321) is threaded through the sliding block (330), the guide rod (311) is slidably penetrated through the sliding block (330), the iron (340) is arranged at the lower side of the sliding block (330), the first electric sliding table (360) and the first drying component (390) are arranged at the upper side of the lifting table (210) and are close to one end of the cutting table (100), the first drying component (390) is arranged at the upper side edge of the lifting table (210), the first electric sliding table (360) is arranged between the first drying component (390) and the other conveying component (250), laser cutting head (370) set up the slip end downside of first electronic slip table (360), second backing plate (380) set up elevating platform (210) upside, second backing plate (380) with first electronic slip table (360) correspond the setting, second backing plate (380) upper end is close to tailoring platform (100) one side border is provided with first pinion rack (381), first air-blower (350) set up tailoring platform (100) downside, first air-blower (350) communicate in first stoving subassembly (390).

2. The dust and wrinkle removing device for the surface of the textile fabric as claimed in claim 1, wherein a movable door (2121) is provided on the side of the filter cover (212) away from the speed reducing motor (220), and a handle is provided on the outer side of the movable door (2121).

3. A dust and wrinkle removing device for textile fabric surfaces, as claimed in claim 1, characterized in that said filter housing (212) is provided with a first bracket (2122) at a top side thereof, and said vacuum cleaner (280) is provided at an upper side of said first bracket (2122).

4. The dust and wrinkle removing device for the surface of the textile fabric as claimed in claim 1, wherein a first through hole (2124) is opened on the top side of the filter cover (212), a dust hood (281) is disposed on the upper side of the first through hole (2124), and the dust collector (280) is communicated with the filter cover (212) through the dust hood (281).

5. The fabric surface dust and wrinkle removing device according to claim 1, wherein the conveying assembly (250) comprises a first connecting block (251), a first housing (252), a second servo motor (253) and conveying rollers (254), the first connecting block (251) and the first housing (252) are correspondingly arranged at the two end edges of the upper side of the lifting platform (210), two conveying rollers (254) are arranged between the first connecting block (251) and the first housing (252) in parallel, the second servo motor (253) is arranged at the outer side of the first connecting block (251), the output end of the second servo motor (253) is rotatably penetrated through the first connecting block (251), the output end of the second servo motor (253) is fixedly connected to one end of one conveying roller (254), and one end of the other conveying roller (254) is rotatably connected to the inner side of the first connecting block (251), the other ends of the two conveying rollers (254) are rotatably penetrated through the first shell (252), and the other ends of the two conveying rollers (254) are in transmission connection.

6. The device for removing dust and wrinkles from the surface of the textile fabric according to claim 5, wherein one ends of the two conveying rollers (254) far away from the second servo motor (253) are respectively provided with a first gear (2541), the two first gears (2541) are symmetrically arranged inside the first housing (252), the two first gears (2541) are engaged, a first protection plate (255) is arranged outside the first housing (252), and a plurality of second through holes (2551) are uniformly formed in the first protection plate (255).

7. The device for removing dust and wrinkles from the surface of the textile fabric according to claim 1, wherein the other ends of the two brush rolls (270) are respectively provided with a second gear (273), the two second gears (273) are symmetrically arranged inside the second housing (272), the two second gears (273) are engaged with each other, a second protection plate (274) is arranged outside the second housing (272), and a plurality of third through holes (2741) are uniformly formed in the second protection plate (274).

8. A fabric surface de-dusting and de-wrinkling device according to claim 1, wherein a dust collecting bag (282) is arranged at the air outlet of the dust collector (280).

9. A fabric surface dedusting and wrinkle-removing device according to claim 1, characterized in that the upper side of the lifting platform (210) is provided with a first pad (312), and the first pad (312) and the iron (340) are correspondingly arranged.

10. The textile fabric surface dedusting and wrinkle-removing device according to claim 1, wherein the first drying assembly (390) comprises a third casing (391), a first electric heating tube (392) and a pore plate (393), the third casing (391) is arranged on the upper side of the lifting platform (210) near one end edge of the cutting platform (100), the first electric heating tube (392) is arranged inside the third casing (391), and the pore plate (393) is arranged on the upper side of the third casing (391).