阅读说明：本技术 一种坯布传送分切装置 (Grey cloth conveying and slitting device ) 是由 马斌彬 于 2021-10-14 设计创作，主要内容包括：本发明公开了一种坯布传送分切装置,属于纺织加工机械技术领域,包括工作台、分切装置、下料收卷装置、上料收卷装置、升降装置、驱动装置和拉紧压平装置,所述分切装置处于工作台中心位置,所述下料收卷装置和上料收卷装置分别设置在工作台的两端,所述升降装置设置在工作台上且位于分切装置的下方,所述驱动装置设置在升降装置上,所述拉紧压平装置设置在驱动装置上,本装置能够对坯布分切的间距进行调节,且能对坯布进行多个分段裁切,同时能够自动化将坯布的首端进行分切,提高的工作效率,也保证了人员的安全。(The invention discloses a grey cloth conveying and cutting device, which belongs to the technical field of textile processing machinery and comprises a workbench, a cutting device, a blanking winding device, a feeding winding device, a lifting device, a driving device and a tensioning and flattening device, wherein the cutting device is arranged at the center of the workbench, the blanking winding device and the feeding winding device are respectively arranged at two ends of the workbench, the lifting device is arranged on the workbench and positioned below the cutting device, the driving device is arranged on the lifting device, and the tensioning and flattening device is arranged on the driving device.)

1. The utility model provides a grey cloth conveying and cutting device, a serial communication port, including workstation (1), cut device (2), unloading coiling mechanism (4), material loading coiling mechanism (3), elevating gear (5), drive arrangement (6) and take-up flattening device (7), cut device (2) and be in workstation (1) central point and put, unloading coiling mechanism (4) and material loading coiling mechanism (3) set up the both ends in workstation (1) respectively, elevating gear (5) set up on workstation (1) and are located the below of cutting device (2), drive arrangement (6) set up on elevating gear (5), take-up flattening device (7) set up on drive arrangement (6), cut device (2) including equidistance subassembly (21), equidistance subassembly (22) and equidistance rolling subassembly (23) are cut to the equidistance, subassembly (22) are cut to equidistance and subassembly (23) all set up on equidistance subassembly (21) with equidistance rolling subassembly (23) The equidistance slitting component (22) comprises a slitting motor (221), a slitting rod (222) and a slitting cutter (223), the slitting motor (221) is arranged at the side end of the equidistant frame (211), the slitting rod (222) is arranged at the output end of the slitting motor (221) and penetrates through the equidistant frame (211) to be positioned under the equidistant screw rod (213), the cutting tools (223) are provided with a plurality of cutting tools (223), the cutting tools (223) are sleeved on the cutting rod (222) correspondingly, one end of each equidistant plate (216) is provided with a clamping groove, the clamping grooves are sleeved on the cutting rod (222) correspondingly, the cutting tools (223) are positioned in the clamping grooves correspondingly, the cutting device is characterized in that a bump is arranged on the cutting rod (222), the cutting tools (223) are provided with sliding grooves, and the sliding grooves are in sliding fit with the bump.

2. The grey cloth conveying and slitting device according to claim 1, wherein the equidistant assembly (21) comprises an equidistant frame (211), an equidistant motor (212), an equidistant screw (213), a fixed plate (214), an equidistant connecting rod (215) and an equidistant plate (216), the equidistant frame (211) is arranged on the workbench (1), the equidistant motor (212) is arranged on the equidistant frame (211), the equidistant screw (213) is arranged on the output end of the equidistant motor (212) and passes through the equidistant frame (211), the equidistant screw (213) is provided with two threads, the two threads are oppositely arranged, the fixed plate (214) is sleeved on the central position of the equidistant screw (213) and is rotatably connected with the equidistant screw (213), the equidistant plate (216) is provided with a plurality of equidistant plates, the equidistant plates (216) are respectively arranged on the two threads on the equidistant screw (213) and are uniformly distributed on two sides of the fixed plate (214), equidistance connecting rod (215) are equipped with a plurality of, a plurality of the connection that equidistance connecting rod (215) all correspond just rotates with equidistance board (216) and fixed plate (214) and is connected in the both sides of equidistance board (216) and fixed plate (214).

3. A grey cloth conveying and slitting device according to claim 1, wherein the feeding and winding device (3) comprises a feeding frame (31), a feeding motor (32), a feeding column (33) and a feeding pin (34), the feeding frame (31) is arranged on the workbench (1), the feeding motor (32) is fixedly arranged on the feeding frame (31), the feeding column (33) is arranged at an output end of the feeding motor (32) and penetrates through the feeding frame (31), and the feeding pin (34) is sleeved on the feeding column (33) and is in threaded connection with the feeding column (33).

4. A grey cloth conveying and slitting device according to claim 1, wherein the blanking winding device (4) comprises a blanking frame (41), a blanking motor (42), a blanking column (43) and a blanking pin (44), the blanking frame (41) is arranged on the workbench (1), the blanking motor (42) is fixedly arranged on the blanking frame (41), the blanking column (43) is arranged at an output end of the blanking motor (42) and penetrates through the blanking frame (41), the blanking pin (44) is sleeved on the blanking column (43) and is in threaded connection with the blanking column (43), and a moving projection is arranged on the blanking column (43).

5. A grey cloth conveying and slitting device according to claim 2, wherein a plurality of equidistant winding assemblies (23) are provided, each of the equidistant winding assemblies (23) comprises a winding rod (231), a winding telescopic cylinder (232), a winding fixing column (233) and a winding sliding column (234), one end of the winding rod (231) is connected to the equidistant plate (216), the winding sliding column (234) is connected to the other end of the winding rod (231) and sleeved on the discharging column (43), the winding sliding column (234) and the winding rod (231) are in clamping connection, the winding telescopic cylinder (232) is connected to the winding sliding column (234) and sleeved on the discharging column (43), and the winding fixing column (233) is arranged at the side end of the winding telescopic cylinder (232).

6. The grey cloth conveying and slitting device according to claim 1, wherein the lifting device (5) comprises a lifting motor (51), two lifting frames (52), two lifting shafts (53), two lifting rods (54), two lifting long rods (55), two lifting panels (56) and two lifting columns (59), the lifting motor (51) is arranged on the workbench (1), the two lifting frames (52) are symmetrically arranged on the workbench (1) and located at the side ends of the lifting motor (51), the lifting shaft (53) is arranged at the output end of the lifting motor (51) and penetrates through the two lifting frames (52), the two lifting rods (54) are symmetrically arranged on the lifting shafts (53), the two lifting long rods (55) are correspondingly connected to the lifting rods (54) and rotatably connected with the lifting rods (54), two the lower extreme at lift panel (56) is connected respectively to the one end of lift stock (55), lift post (59) are equipped with a plurality of, a plurality of the setting that all corresponds of lift post (59) is on workstation (1), lift panel (56) cover is established in a plurality of on lift post (59) and with lift post (59) sliding fit.

7. A grey cloth conveying and slitting device according to claim 6, characterized in that two driving grooves (57) are formed in the lifting panel (56), a driving groove (58) is further formed in the lifting panel (56), and a fixing groove is further formed in the lifting panel (56).

8. A grey cloth conveying and slitting device according to claim 7, characterized in that the driving device (6) comprises a driving motor (61), a driving screw (62) and two driving rods (63), the driving motor (61) is arranged in a fixing groove, the driving screw (62) is arranged at an output end of the driving motor (61), the driving screw (62) is located in a driving groove (58) and is rotatably connected with the driving groove (58), two driving rods (63) are arranged, the two driving rods (63) are correspondingly arranged in a driving groove (57) and are rotatably connected with the driving groove (57), and two threads are arranged on the driving screw (62) and are oppositely arranged.

9. A grey cloth conveying and slitting device according to claim 8, characterized in that the tensioning and flattening device (7) comprises a first tensioning and flattening assembly (71) and a second tensioning and flattening assembly (72), the first tensioning and flattening assembly (71) and the second tensioning and flattening assembly (72) have the same structure, the first tensioning and flattening assembly (71) and the second tensioning and flattening assembly (72) are sleeved on two threads of the driving screw (62) correspondingly, the first tensioning and flattening assembly (71) comprises a tensioning sleeve column (711), a matching column (712), a tensioning frame (713), a tensioning motor (714), a first gear (715), a second gear (716), a first rotating wheel (717) and a second rotating wheel (718), the tensioning sleeve column (711) is sleeved on the driving screw (62) and is in threaded connection with the driving screw (62), and the matching columns (712) are provided in number of two, the two matching columns (712) are sleeved on the two driving rods (63), the tensioning frame (713) is located at the upper ends of the tensioning sleeve column (711) and the matching column (712), the tensioning motor (714) is arranged at the side end of the tensioning frame (713), the first gear (715) is arranged at the output end of the tensioning motor (714), the second gear (716) is arranged on the tensioning frame (713) and located above the first gear (715), the second gear (716) is meshed with the first gear (715), the first rotating wheel (717) is connected to the first gear (715), and the second rotating wheel (718) is connected to the second gear (716).

Technical Field

The invention relates to the technical field of textile processing machinery, in particular to a grey cloth conveying and slitting device.

Background

The fabric is good in hygroscopicity and air permeability, soft and comfortable to wear and good in heat retention, is widely applied to daily life, has good dyeing property, bright color, complete chromatogram, strong alkali resistance, light resistance, good extensibility and stretchability and good dimensional stability, is woven into fabric which is not subjected to printing and dyeing processing, is manufactured by producing and processing grey fabric which is sold on the market at present, has large size, and is required to be cut according to the requirements of fabric production and processing before finely processing the grey fabric, so that the grey fabric with large size can be cut into the fabric with required size.

Chinese patent publication No. CN205739690U discloses a grey cloth conveying and cutting device, the device includes the fixed bolster, the cloth inlet roller, the delivery roll and grey cloth cutting mechanism, the cloth inlet roller is connected in the fixed bolster both sides with the delivery roll horizontal rotation respectively, grey cloth cutting mechanism sets up the fixed bolster upside between cloth inlet roller and delivery roll, grey cloth cutting mechanism includes the translation support, the translation piece, cut the pneumatic cylinder, rotor plate and hold the cloth board, the translation support is from last to having set gradually translation lead screw and translation guide bar down the level, the translation piece can remove along the translation guide bar level, cut motor drive slitting blade, fixed bolster one side level is provided with holds the cloth guide arm, it sets up in translation sleeve one side to hold the cloth board level. The device structural design is reasonable, can cut grey cloth as required high efficiency in grey cloth transfer process, improves the efficiency of grey cloth processing, satisfies the needs that use.

However, the device can not adjust the space for cutting the grey cloth, can not cut the grey cloth in a plurality of sections, and when the head end of the grey cloth is cut, the head end of the grey cloth needs to be pulled manually for cutting, so that the automation degree is low.

Disclosure of Invention

The embodiment of the invention provides a grey cloth conveying and cutting device, which aims to solve the technical problems that the spacing for cutting the grey cloth cannot be adjusted, the grey cloth cannot be cut in a plurality of sections, when the head end of the grey cloth is cut, the head end of the grey cloth needs to be pulled manually for cutting, and the automation degree is low.

The embodiment of the invention adopts the following technical scheme: including workstation, cutting device, unloading coiling mechanism, material loading coiling mechanism, elevating gear, drive arrangement and taut flattening device, cut the device and be in workstation central point and put, unloading coiling mechanism and material loading coiling mechanism set up respectively at the both ends of workstation, elevating gear sets up on the workstation and is located the below of cutting the device, drive arrangement sets up on elevating gear, taut flattening device sets up on drive arrangement, cut the device and include equidistance subassembly, equidistance subassembly and the equidistance rolling component of cutting all set up on the equidistance subassembly, taut flattening device includes first taut flattening subassembly and the taut flattening subassembly of second, first taut flattening subassembly and the taut flattening subassembly of second are the same in structure, the subassembly is cut to the equidistance including cutting motor, the motor is cut to the equidistance, Cut the pole and cut the cutter, cut the motor setting at the side of equidistance frame, cut the pole setting on the output of cutting the motor and pass the equidistance frame and be located the equidistance screw rod under, it is equipped with a plurality of to cut the cutter, a plurality of cut the cover that the cutter all corresponds and establish on cutting the pole, a plurality of the one end of equidistance board all is equipped with double-layered groove, a plurality of the cover that double-layered groove all corresponds is established on cutting the pole, a plurality of cut the cutter and all correspond be located double-layered inslot, be equipped with the lug on cutting the pole, a plurality of cut the cutter and be equipped with slip recess, a plurality of slip recess all with lug sliding fit.

Further, the equidistance subassembly includes equidistance frame, equidistance motor, equidistance screw rod, fixed plate, equidistance connecting rod and equidistance board, the equidistance sets up on the workstation, the equidistance motor sets up on the equidistance frame, the equidistance screw rod sets up on the output of equidistance motor and passes the equidistance frame, be equipped with two threads on the equidistance screw rod, two threads are opposite settings, the fixed plate cover is established the central point of equidistance screw rod and is rotated with the equidistance screw rod and be connected, the equidistance board is equipped with a plurality of, a plurality of the cover that the equidistance board all corresponds is established and is established on two threads on the equidistance screw rod and even distribution in the both sides of fixed plate, the equidistance connecting rod is equipped with a plurality of the connection that the equidistance connecting rod all corresponds just rotates with equidistance board and fixed plate to be connected.

Further, the material loading coiling mechanism comprises a material loading frame, a material loading motor, a material loading column and a material loading pin, wherein the material loading frame is arranged on the workbench, the material loading motor is fixedly arranged on the material loading frame, the material loading column is arranged at the output end of the material loading motor and penetrates through the material loading frame, and the material loading pin is sleeved on the material loading column and is in threaded connection with the material loading column.

Further, unloading coiling mechanism includes unloading frame, unloading motor, unloading post and unloading round pin, the unloading frame sets up on the workstation, the unloading motor is fixed to be set up on the unloading frame, the unloading post sets up on the output of unloading motor and passes the unloading frame, unloading round pin cover establish on the unloading post and with unloading post threaded connection, be equipped with the removal lug on the unloading post.

Further, equidistance rolling subassembly is equipped with a plurality of, every the equidistance rolling subassembly all includes rolling pole, rolling telescopic cylinder, rolling fixed column and rolling slip post, the one end of rolling pole is connected on the equidistance board, rolling slip post connection is on the other end of rolling pole and the cover is established on the unloading post, rolling slip post and rolling pole are the joint setting, the rolling telescopic cylinder is connected on rolling slip post and the cover is established on the unloading post, the rolling fixed column sets up the side at the rolling telescopic cylinder.

Further, the lifting device comprises a lifting motor, a lifting frame, a lifting shaft, a lifting rod, a lifting long rod, a lifting panel and a lifting column, the lifting motors are arranged on the workbench, two lifting frames are arranged, the two lifting frames are symmetrically arranged on the workbench and positioned at the side end of the lifting motor, the lifting shaft is arranged on the output end of the lifting motor and penetrates through the two lifting frames, the two lifting rods are symmetrically sleeved on the lifting shaft, two lifting long rods are arranged, the two lifting long rods are correspondingly connected on the lifting rod and are rotatably connected with the lifting rod, one end of each lifting long rod is respectively connected with the lower end of the lifting panel, the lifting column is provided with a plurality of lifting panels, the lifting columns are correspondingly arranged on the workbench, and the lifting panels are sleeved on the lifting columns and are in sliding fit with the lifting columns.

Furthermore, two driving grooves are formed in the lifting panel, driving grooves are further formed in the lifting panel, and fixing grooves are further formed in the lifting panel.

Further, drive arrangement includes driving motor, driving screw and actuating lever, driving motor sets up in the fixed slot, driving screw sets up on driving motor's output, driving screw is located the drive recess and rotates with the drive recess and be connected, the actuating lever is equipped with two, two the setting that the actuating lever all corresponds just rotates with the drive recess in the drive recess and is connected, the last two screw threads that are equipped with of driving screw, two screw threads are opposite settings.

Furthermore, the first tensioning flattening component and the second tensioning flattening component are sleeved on two threads of the driving screw correspondingly, the first tensioning flattening component comprises a tensioning sleeve column, a matching column, a tensioning frame, a tensioning motor, a first gear, a second gear, a first rotating wheel and a second rotating wheel, the tensioning sleeve columns are sleeved on the driving screw rods and are in threaded connection with the driving screw rods, two matching columns are arranged, the two matching columns are sleeved on the two driving rods, the tensioning frame is positioned at the upper ends of the tensioning sleeve column and the matching column, the tensioning motor is arranged at the side end of the tensioning frame, the first gear is arranged on the output end of the tensioning motor, the second gear is arranged on the tensioning frame and is positioned above the first gear, the second gear is meshed with the first gear, the first rotating wheel is connected to the first gear, and the second rotating wheel is connected to the second gear.

The embodiment of the invention adopts at least one technical scheme which can achieve the following beneficial effects:

one is as follows: the device can drive the winding telescopic cylinder through the rotation of the blanking column, so that the gray fabric sleeved on the winding telescopic cylinder can be wound, the uniform winding operation of the cut gray fabric is realized, the winding sliding column and the winding rod are clamped and arranged, the gray fabric can be taken down through the rotating blanking pin after the winding is finished, the winding telescopic cylinder can perform telescopic motion, the winding fixed column and the side end of the winding sliding column rotate, the winding rod can be driven to perform equidistant motion through the equidistant motion of the equidistant plate, the winding sliding column is driven to perform equidistant motion through the equidistant motion of the winding rod, the winding sliding column drives the winding telescopic cylinder to perform equidistant motion on the basis of the winding fixed column, so that the distance between the winding gray fabric of the winding telescopic cylinder is the same as the distance between the gray fabric of the slitting cutters, and after the slitting cutters perform the adjustment on the distance between the gray fabric, the interval of the grey cloth rolled by the rolling telescopic cylinder is synchronously adjusted, the grey cloth rolled by the rolling telescopic cylinder is in the same interval, the grey cloth can be completely attached to the rolling telescopic cylinder when being rolled onto the rolling telescopic cylinder, the perfect rolling effect is achieved, and the phenomenon that the grey cloth causes fold deviation in the rolling process is avoided.

Secondly, after the grey cloth is sleeved on the feeding column, the first tensioning and flattening assembly is driven to be flush with the feeding and winding device through the operation of the lifting device, then the lifting device stops operating, at the moment, the head end of the grey cloth sleeved on the feeding column is pulled out and placed between the first rotating wheel and the second rotating wheel on the first tensioning and flattening assembly, after the placement is completed, the first tensioning and flattening assembly and the second tensioning and flattening assembly are driven to symmetrically move inwards through the operation of the driving device, so that the first tensioning and flattening assembly and the second tensioning and flattening assembly are in the closest state, when the head end of the grey cloth is not touched with each other, the first tensioning and flattening assembly is operated to convey a part of the head end of the grey cloth, the head end of the grey cloth can be just positioned between the first rotating wheel and the second rotating wheel on the second tensioning and flattening assembly, and the head end of the grey cloth is clamped through the operation of the second tensioning and flattening assembly, then the first tensioning and flattening component and the second tensioning and flattening component are driven to symmetrically move outwards through the operation of the driving device, at the moment, the first tensioning and flattening component is in a matched operation state, the second tensioning and flattening component is in a stop operation state, meanwhile, the feeding and rolling device is in a matched operation state, when the first tensioning and flattening component and the second tensioning and flattening component move to the two sides of the equidistant component, the driving device stops operating, at the moment, the slitting cutter and the rolling telescopic cylinder are adjusted to the required space for slitting the gray fabric through the operation of the slitting device, after the adjustment is completed, the slitting cutter is rotated through the operation of the equidistant slitting component, the gray fabric between the first tensioning and flattening component and the second tensioning and flattening component is in a straightening and tensioning state, and then the lifting device operates to drive the gray fabric between the first tensioning and flattening component and the second tensioning and flattening component to move towards the slitting cutter, thereby the grey cloth that is in the intermediate position between the first taut subassembly of flattening and the taut subassembly of second is cut, at this moment, the inside symmetric motion of grey cloth between the first taut subassembly of flattening and the taut subassembly of second is driven through drive arrangement operation, thereby make the grey cloth that is in the taut subassembly one side of flattening of second cut, and the head end of grey cloth only remains the tight partly of the taut subassembly of flattening of second and does not cut this moment, at this moment, rotate through the operation of the taut subassembly direction of flattening of second, the grey cloth that presss from both sides tight partly on the taut subassembly of second loosens, make grey cloth toward gyration, cut remaining partly grey cloth, the realization is cut the head end of grey cloth is automized, the work efficiency is improved, personnel's injury has also been avoided.

Thirdly, after the head end of the grey cloth is cut, the first tensioning flattening component and the second tensioning flattening component are driven to move downwards through the operation of the lifting device, so that the first tensioning flattening component and the second tensioning flattening component are lower than the equidistant cutting component, at the moment, the head end of the cut grey cloth is retracted through the reverse rotation of the first tensioning flattening component, the first tensioning flattening component and the second tensioning flattening component can be in the closest state, under the condition that the two components are not touched, the head end of the cut grey cloth is clamped through the operation of the second tensioning flattening component, after the head end of the cut grey cloth is clamped through the second tensioning flattening component, the feeding winding device is always in the matched operation state, the first tensioning flattening component and the second tensioning flattening component are driven to move towards the position of the cutting tool through the operation of the lifting device, and the grey cloth is cut through the cutting tool, at this moment in grey cloth cutting process, first taut subassembly and the taut subassembly that flattens of second are in motion state, the head end of grey cloth can be more and more long this moment, when the grey cloth head end of accomplishing the cutting can be fixed on the flexible section of thick bamboo of rolling, set up the grey cloth head end on the flexible section of thick bamboo of rolling one by one, at this moment, through the taut subassembly continuous operation of first taut subassembly and the taut subassembly of the second that flattens, the material loading coiling mechanism, the equal synchronization of equidistance subassembly and unloading coiling mechanism are cut, the grey cloth between the taut subassembly of first taut flattening subassembly and the taut flattening subassembly of second is in the state of flare-outing, it is even to be convenient for cut and the rolling, thereby realize accomplishing the grey cloth cutting, cut through rotatory unloading round pin after accomplishing, the grey cloth that will accomplish the rolling is taken off.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of a first angular perspective structure of the present invention;

FIG. 2 is a schematic view of a second angular perspective structure according to the present invention;

FIG. 3 is a structural diagram of the equidistant components and the equidistant slitting components in the first state of the invention;

FIG. 4 is a structural diagram of the equidistant components and the equidistant slitting components of the invention in a second state;

FIG. 5 is a schematic perspective view of an isometric winding assembly according to the present invention;

FIG. 6 is a schematic perspective view of a slitting device and a feeding and winding device according to the present invention;

FIG. 7 is a schematic perspective view of the tension-pressing device of the present invention;

FIG. 8 is a schematic perspective view of the lifting device of the present invention;

FIG. 9 is a schematic perspective view of the driving device of the present invention;

FIG. 10 is a schematic perspective view of the lifting device and the tension-pressing device of the present invention;

FIG. 11 is a first structural view illustrating the state of the tension and flattening device and some devices according to the present invention;

FIG. 12 is a second structural diagram illustrating the state of the tension and flattening device and some devices according to the present invention.

Reference numerals:

the automatic feeding device comprises a workbench 1, a slitting device 2, an equidistant component 21, an equidistant frame 211, an equidistant motor 212, an equidistant screw 213, a fixed plate 214, an equidistant connecting rod 215, an equidistant plate 216, an equidistant slitting component 22, a slitting motor 221, a slitting rod 222, a slitting cutter 223, an equidistant winding component 23, a winding rod 231, a winding telescopic cylinder 232, a winding fixed column 233, a winding sliding column 234, a feeding winding device 3, a feeding frame 31, a feeding motor 32, a feeding column 33, a feeding pin 34, a blanking winding device 4, a blanking frame 41, a blanking motor 42, a blanking column 43, a blanking pin 44, a lifting device 5, a lifting motor 51, a lifting frame 52, a lifting shaft 53, a lifting rod 54, a lifting long lifting rod 55, a lifting panel 56, a driving groove 57, a driving groove 58, a lifting column 59, a driving device 6, a driving motor 61, a driving screw 62, a driving rod 63, a tensioning flattening device 7, a first tensioning flattening component 71, a second tensioning device, a third device, a fourth, A second tension flattening assembly 72, a tension sleeve column 711, a matching column 712, a tension frame 713, a tension motor 714, a first gear 715, a second gear 716, a first rotating wheel 717, and a second rotating wheel 718.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The technical solutions provided by the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

The embodiment of the invention provides a grey cloth conveying and slitting device, which comprises a workbench 1, a slitting device 2, a blanking and winding device 4, a feeding and winding device 3, a lifting device 5, a driving device 6 and a tensioning and flattening device 7, wherein the slitting device 2 is arranged at the central position of the workbench 1, the blanking and winding device 4 and the feeding and winding device 3 are respectively arranged at two ends of the workbench 1, the lifting device 5 is arranged on the workbench 1 and positioned below the slitting device 2, the driving device 6 is arranged on the lifting device 5, the tensioning and flattening device 7 is arranged on the driving device 6, the slitting device 2 comprises an equidistant component 21, an equidistant slitting component 22 and an equidistant winding component 23, the equidistant slitting component 22 and the equidistant winding component 23 are both arranged on the equidistant component 21, the tensioning and flattening device 7 comprises a first tensioning and flattening component 71 and a second tensioning and flattening component 72, the first tensioning flattening component 71 and the second tensioning flattening component 72 have the same structure, the equidistant cutting component 22 comprises a cutting motor 221, a cutting rod 222 and a cutting tool 223, the cutting motor 221 is arranged at the side end of an equidistant frame 211, the cutting rod 222 is arranged at the output end of the cutting motor 221 and penetrates through the equidistant frame 211 to be positioned under an equidistant screw rod 213, the cutting tool 223 is provided with a plurality of cutting tools 223, the cutting tools 223 are sleeved on the cutting rod 222 correspondingly, one end of an equidistant plate 216 is provided with a clamping groove, the clamping grooves are sleeved on the cutting rod 222 correspondingly, the cutting tools 223 are positioned in the clamping groove correspondingly, the cutting rod 222 is provided with a convex block, the cutting tools 223 are provided with a sliding groove, the sliding groove is matched with the convex block in a sliding way, and the sliding groove is matched with the convex block in a sliding way, can make and cut cutter 223 remove on cutting pole 222, it carries out the equidistance removal to drive through equidistance board 216 equidistance motion cutting cutter 223, thereby the realization is adjusted the interval that grey cloth was cut, and can cut a plurality of sections of grey cloth, and simultaneously, it drives through cutting motor 221 operation and cuts pole 222 of cutting on the motor 221 output and rotate on equidistance frame 211, it rotates to drive cutting cutter 223 to cut pole 222, thereby the realization is cut the operation to grey cloth, this device can adjust the interval that grey cloth was cut, and can carry out a plurality of sections to grey cloth and cut, can automize and cut the head end of grey cloth, the work efficiency of improvement, personnel's safety has also been guaranteed.

Preferably, the equidistance subassembly 21 includes equidistance frame 211, equidistance motor 212, equidistance screw rod 213, fixed plate 214, equidistance connecting rod 215 and equidistance board 216, equidistance frame 211 sets up on workstation 1, equidistance motor 212 sets up on equidistance frame 211, equidistance screw rod 213 sets up on the output of equidistance motor 212 and passes equidistance frame 211, be equipped with two threads on equidistance screw rod 213, two threads are opposite settings, fixed plate 214 cover is established at the central point of equidistance screw rod 213 and is rotated with equidistance screw rod 213 and be connected, equidistance board 216 is equipped with a plurality of, a plurality of the cover that equidistance board 216 all corresponds is established on two threads on equidistance screw rod 213 and even distribution in the both sides of fixed plate 214, equidistance connecting rod 215 is equipped with a plurality of the connection that equidistance connecting rod 215 all corresponds is in the both sides of equidistance board 216 and fixed plate 214 and is connected with equidistance board 216 and fixed plate 214 rotation, the equidistance connecting rod 215 through setting up can inject equidistance board 216 and move for the equidistance when moving on equidistance screw rod 213, and the operation drives equidistance screw rod 213 on the equidistance motor 212 output through equidistance motor 212 and rotates on equidistance frame 211, and equidistance screw rod 213 rotates and drives equidistance board 216 and uses fixed plate 214 to be opposite direction on equidistance screw rod 213 and carry out the equidistance removal as the center on two threads, can drive equidistance through the operation of the equidistance subassembly 21 that sets up and cut subassembly 22 and equidistance rolling-up subassembly 23 and carry out synchronous equidistance motion.

Preferably, the feeding and winding device 3 includes a feeding frame 31, a feeding motor 32, a feeding column 33 and a feeding pin 34, the feeding frame 31 is disposed on the workbench 1, the feeding motor 32 is fixedly disposed on the feeding frame 31, the feeding column 33 is disposed at an output end of the feeding motor 32 and penetrates through the feeding frame 31, the feeding pin 34 is sleeved on the feeding column 33 and is in threaded connection with the feeding column 33, when a blank fabric is to be processed, the feeding pin 34 is firstly taken down, the whole tube of blank fabric is sleeved on the feeding column 33, the feeding pin 34 is fixed on the feeding column 33 through rotation, at this time, the feeding column 33 at the output end of the feeding motor 32 can be driven to rotate through operation of the feeding motor 32, the feeding column 33 rotates to drive the blank fabric on the feeding column 33 to rotate, and thereby facilitating next grey fabric slitting operation.

Preferably, unloading coiling mechanism 4 includes unloading frame 41, unloading motor 42, unloading post 43 and unloading round pin 44, unloading frame 41 sets up on workstation 1, unloading motor 42 is fixed to be set up on unloading frame 41, unloading post 43 sets up on unloading motor 42's output and passes unloading frame 41, unloading round pin 44 cover establish on unloading post 43 and with unloading post 43 threaded connection, be equipped with the removal lug on unloading post 43, move the unloading post 43 that drives unloading motor 42 output through unloading motor 42 and rotate, can drive equidistance rolling component 23 motion through the unloading coiling mechanism 4 influence that sets up.

Preferably, a plurality of equidistant winding assemblies 23 are provided, each of the equidistant winding assemblies 23 includes a winding rod 231, a winding telescopic cylinder 232, a winding fixing column 233 and a winding sliding column 234, one end of the winding rod 231 is connected to the equidistant plate 216, the winding sliding column 234 is connected to the other end of the winding rod 231 and sleeved on the blanking column 43, the winding sliding column 234 and the winding rod 231 are in clamping connection, the winding telescopic cylinder 232 is connected to the winding sliding column 234 and sleeved on the blanking column 43, the winding fixing column 233 is arranged at the side end of the winding telescopic cylinder 232, the winding telescopic cylinder 232 can be driven by the rotation of the blanking column 43, so that the gray fabric sleeved on the winding telescopic cylinder 232 can be wound, the uniform winding operation of the cut gray fabric can be realized, the winding sliding column 234 and the winding rod 231 can be taken down by rotating the blanking pin 44 after the winding of the gray fabric is completed, the rolling telescopic cylinder 232 can perform telescopic motion to rotate the side ends of the rolling fixed column 233 and the rolling sliding column 234, the equidistant plate 216 can drive the winding rod 231 to move equidistantly, the equidistant plate 231 drives the winding sliding column 234 to move equidistantly, the equidistant plate 234 drives the winding telescopic cylinder 232 to move equidistantly based on the winding fixed column 233, so that the space between the grey cloth wound by the winding telescopic cylinder 232 is the same as the space between the grey cloth slit by the slitting cutter 233, after the adjustment of the space between the grey cloth slit by the slitting cutter 233 is completed, the interval that the grey cloth was rolled up to rolling telescopic tube 232 is also the synchronous control completion, realizes that both are in the same interval, and grey cloth can be in completely with the laminating of rolling telescopic tube 232 when rolling up on rolling telescopic tube 232, reaches the effect of perfect rolling, has also avoided grey cloth to cause the fold skew at the rolling in-process.

Preferably, the lifting device 5 comprises a lifting motor 51, two lifting frames 52, two lifting shafts 53, two lifting rods 54, two lifting rods 55, a lifting panel 56 and two lifting columns 59, the lifting motor 51 is arranged on the workbench 1, the two lifting frames 52 are symmetrically arranged on the workbench 1 and are positioned at the side end of the lifting motor 51, the lifting shafts 53 are arranged at the output end of the lifting motor 51 and penetrate through the two lifting frames 52, the two lifting rods 54 are arranged, the two lifting rods 54 are symmetrically sleeved on the lifting shafts 53, the two lifting rods 55 are arranged, the two lifting rods 55 are correspondingly connected to the lifting rods 54 and are rotatably connected with the lifting rods 54, one ends of the two lifting rods 55 are respectively connected to the lower end of the lifting panel 56, the lifting columns 59 are provided with a plurality of lifting columns 59 which are correspondingly arranged on the workbench 1, 56 covers of lifting panel establish a plurality of on the lifting column 59 and with lifting column 59 sliding fit, through lifting motor 51 operation drive lifting shaft 53 on the lifting motor 51 output rotate on crane 52, lifting shaft 53 rotates and drives lifter 54 and rotate, lifter 54 pivoted lift stock 55 rotates, lift stock 55 rotates and drives lifting panel 56 and carry out the up-and-down motion on lifting column 59, can drive arrangement 6 and tensioning flattening device 7 through the elevating gear 5 that sets up and carry out the up-and-down motion.

Preferably, two driving grooves 57 are formed in the lifting panel 56, a driving groove 58 is further formed in the lifting panel 56, a fixing groove is further formed in the lifting panel 56, and the driving device 6 can move through the driving grooves 57 and the driving groove 58.

Preferably, drive arrangement 6 includes driving motor 61, drive screw 62 and actuating lever 63, driving motor 61 sets up in the fixed slot, drive screw 62 sets up on driving motor 61's output, drive screw 62 is located drive recess 58 and rotates with drive recess 58 and be connected, drive lever 63 is equipped with two, two the setting that drive lever 63 all corresponds just rotates with drive recess 57 in drive groove 57 and is connected, be equipped with two threads on drive screw 62, two threads are opposite settings, and drive screw 62 on the output of drive motor 61 is driven in drive recess 58 through the operation of driving motor 61, and the operation of drive arrangement 6 through setting can drive tensioning flattening device 7 and move.

Preferably, the first tensioning flattening assembly 71 and the second tensioning flattening assembly 72 are respectively sleeved on two threads of the driving screw 62 correspondingly, the first tensioning flattening assembly 71 includes two tensioning sleeve columns 711, two matching columns 712, two tensioning frames 713, two tensioning motors 714, a first gear 715, a second gear 716, a first rotating wheel 717 and a second rotating wheel 718, the tensioning sleeve columns 711 are sleeved on the driving screw 62 and are in threaded connection with the driving screw 62, the matching columns 712 are provided with two, the two matching columns 712 are sleeved on the two driving rods 63, the tensioning frames 713 are located at the upper ends of the tensioning sleeve columns 711 and the matching columns 712, the tensioning motors 714 are arranged at the side ends of the tensioning frames 713, the first gear 715 is arranged at the output end of the tensioning motors 714, the second gear 716 is arranged on the tensioning frames 713 and is located above the first gear 715, the second gear 716 is meshed with the first gear 715, the first rotating wheel 717 is connected to the first gear 715, the second rotating wheel 718 is connected to the second gear 716, the first gear 715 at the output end of the tensioning motor 714 is driven to rotate by the operation of the tensioning motor 714, the first gear 715 is driven to rotate by the rotation of the first gear 715, the second gear 716 is driven to rotate by the rotation of the first gear 715 on the tensioning frame 713, the first gear 715 rotates at a position opposite to the position of the second gear 716, the second rotating wheel 718 rotates by the rotation of the second gear 716, so that the first rotating wheel 717 and the second rotating wheel 718 rotate in opposite directions, after the gray fabric is sleeved on the feeding column 33, the lifting device 5 stops operating after the first tension flattening assembly 71 is driven to a state of the feeding winding device 3 by the operation of the lifting device 5, at this time, the head end of the gray fabric sleeved on the feeding column 33 is pulled out to be placed between the first rotating wheel 717 and the second rotating wheel 718 on the first tension flattening assembly 71, after the placement is finished, the first tensioning and flattening assembly 71 and the second tensioning and flattening assembly 72 are driven to symmetrically move inwards by the operation of the driving device 6, so that the first tensioning and flattening assembly 71 and the second tensioning and flattening assembly 72 are in a closest state, when the first tensioning and flattening assembly 71 and the second tensioning and flattening assembly 72 are not in contact with each other, the head end of the grey cloth is conveyed out by the operation of the first tensioning and flattening assembly 71 to form a part, the head end of the grey cloth can be just positioned between the first rotating wheel 717 and the second rotating wheel 718 on the second tensioning and flattening assembly 72, the head end of the grey cloth is clamped by the operation of the second tensioning and flattening assembly 72, the first tensioning and flattening assembly 71 and the second tensioning and flattening assembly 72 are driven to symmetrically move outwards by the operation of the driving device 6, at the moment, the first tensioning and flattening assembly 71 is in a matched operation state, the second flattening assembly 72 is in a stop operation state, and the feeding and winding device 3 is in a matched operation state, after the first tensioning and flattening assembly 71 and the second tensioning and flattening assembly 72 move to the two sides of the equidistant assembly 21, the operation of the driving device 6 is stopped, at this time, the slitting cutter 223 and the winding telescopic cylinder 232 are adjusted to the required spacing for slitting the gray fabric through the operation of the slitting device 2, after the adjustment is completed, the slitting cutter 223 is rotated through the operation of the equidistant slitting assembly 22, the gray fabric between the first tensioning and flattening assembly 71 and the second tensioning and flattening assembly 72 is in a straightening and tensioning state, the lifting device 5 operates to drive the gray fabric between the first tensioning and flattening assembly 71 and the second tensioning and flattening assembly 72 to move towards the position of the slitting cutter 223, so as to slit the gray fabric between the first tensioning and flattening assembly 71 and the second tensioning and flattening assembly 72 at the middle position, at this time, the driving device 6 operates to drive the gray fabric between the first tensioning and flattening assembly 71 and the second tensioning and flattening assembly 72 to move inwards symmetrically, therefore, the gray fabric on one side of the second tensioning and flattening assembly 72 is slit, at the moment, the head end of the gray fabric only remains a part clamped by the second tensioning and flattening assembly 72 and is not slit, at the moment, the head end of the gray fabric is rotated through the operation of the second tensioning and flattening assembly 72, a part of the gray fabric clamped on the second tensioning and flattening assembly 72 is loosened, the gray fabric is rotated, the remaining part of the gray fabric is slit, the head end of the gray fabric is automatically slit, the work efficiency is improved, the injury of personnel is avoided, after the head end of the gray fabric is slit, the first tensioning and flattening assembly 71 and the second tensioning and flattening assembly 72 are driven to move downwards through the operation of the lifting device 5, the first tensioning and flattening assembly 71 and the second tensioning and flattening assembly 72 are lower than the equidistant slitting assembly 22, at the head end of the slit gray fabric is withdrawn through the reverse rotation of the first tensioning and flattening assembly 71, the first tensioning and flattening component 71 and the second tensioning and flattening component 72 can be in a closest state, when the two components are not touched with each other, the second tensioning and flattening component 72 operates to clamp the head end of the slit grey cloth, after the second tensioning and flattening component 72 clamps the head end of the slit grey cloth, the feeding and winding device 3 is always in a matched operation state, the lifting device 5 operates to drive the first tensioning and flattening component 71 and the second tensioning and flattening component 72 to move towards the position of the slitting cutter 223, the grey cloth is slit by the slitting cutter 223, at the moment, in the process of slitting the grey cloth, the first tensioning and flattening component 71 and the second tensioning and flattening component 72 are in a motion state, the head end of the grey cloth is longer and longer, when the head end of the slit grey cloth can be fixed on the telescopic cylinder 232, the head end of the grey cloth is arranged on the telescopic cylinder 232 one by one, at this time, the first tensioning and flattening component 71 and the second tensioning and flattening component 72 continuously operate, the feeding winding device 3, the equidistant cutting component 22 and the blanking winding device 4 all operate synchronously, the gray fabric between the first tensioning and flattening component 71 and the second tensioning and flattening component 72 is in a straightening and tensioning state, so that the cutting and the winding are uniform, the gray fabric is cut completely, and the cut and wound gray fabric is taken down by rotating the blanking pin 44 after the cutting is completed.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.