CN117163739A - Multifunctional cutting and winding device based on EVA foaming sheet - Google Patents

Abstract

The invention provides a multifunctional cutting and winding device based on EVA (ethylene-vinyl acetate) foaming sheets, and relates to the technical field of EVA foaming sheet production, comprising an operation installation part; the operation installation part is provided with a conveying driving device; the conveying driving device is fixedly connected with a linkage recovery device; the operation installation part is provided with a cutting driving device; three cutting support pieces are connected to the cutting driving device in a sliding manner; the three cutting support pieces are respectively sheathed with a multidirectional adjusting device in a sliding way; the three cutting support pieces are respectively provided with a pressing anti-warping device; the trimming waste can be recycled in an auxiliary and efficient way, the cutting edge is more neat, the cutting is safer, and the cooling and dust removing effects are better; the problem of at present based on EVA foaming sheet's multi-functional cutting coiling mechanism for a long time use extremely easily cause overheated baking sheet, the sheet cutting can't stably press down simultaneously, extremely easily produces "sawtooth limit" is solved.

Description

Multifunctional cutting and winding device based on EVA foaming sheet

Technical Field

The invention relates to the technical field of EVA (ethylene-vinyl acetate) foaming sheet production, in particular to a multifunctional cutting and winding device based on an EVA foaming sheet.

Background

EVA is copolymerized with acetic acid, and wherein EVA foaming sheet has extensive application in scenes such as shoemaking, and the EVA foaming sheet need cut and the deburring work when dispatching from the factory simultaneously, then a good multifunctional cutting coiling mechanism based on EVA foaming sheet is especially important this moment.

However, regarding the multifunctional cutting and winding device based on EVA foaming sheet at present, the function is single, waste recycling effect is poor, the unified processing is inconvenient, cutting and trimming efficiency is low, the operation is not flexible enough, the sheet suitability is poor, the cutting is not flexible and changeable enough, the cooling of an auxiliary blade cannot be realized, the overheated sheet is extremely easy to be caused after long-time use, toxic gas and cutting particles are extremely easy to be generated, the blade cleaning is not direct enough, meanwhile, the cutting effect is influenced, and the saw-tooth edge is extremely easy to be generated.

Disclosure of Invention

In view of the above, the invention provides a multifunctional cutting and winding device based on EVA foaming sheets, which is provided with a pressing and warping prevention device, so that the cutting effect can be effectively improved, meanwhile, the structure is simple, the situation of saw-tooth edges can be effectively avoided, the overall use stability is better, and meanwhile, the cutting process effect of the EVA foaming sheets can be effectively improved by matching with the cleaning and cooling part.

The invention provides a multifunctional cutting and winding device based on EVA foaming sheets, which particularly comprises an operation installation part; the operation installation part is provided with a conveying driving device; the conveying driving device is fixedly connected with a linkage recovery device; the operation installation part is provided with a cutting driving device; three cutting support pieces are connected to the cutting driving device in a sliding manner; the three cutting support pieces are respectively sheathed with a multidirectional adjusting device in a sliding way; the three cutting support pieces are respectively provided with a pressing anti-warping device; the operation installation part is provided with a water pumping device; the three cutting support pieces are respectively and fixedly connected with a cleaning cooling part; the operation mounting portion includes: the device comprises an installation support plate, a rotary jacking roller, a protective installation cover and a winding roller, wherein the installation support plate is rotationally connected with two rotary jacking rollers; the wind-up roll is rotatably connected to the mounting support plate through a shaft; the protective mounting cover is fixedly connected to the mounting support plate; the multi-directional adjusting device includes: the device comprises a sliding adjusting block, an angle limiting screw rod and a distance adjusting screw rod, wherein the sliding adjusting block is connected to a protective mounting cover in a sliding manner; the sliding adjusting block is connected with an angle limiting screw rod in a threaded manner; the sliding adjusting block is connected with a distance adjusting screw rod in a threaded manner; the distance adjusting screw rod is rotatably connected to the protective mounting cover through a bracket.

Optionally, the water pumping device comprises: the extrusion type pump head is fixedly connected to the side face of the protective mounting cover through a bracket; the front side of the extrusion pump head is attached to the extrusion bulge disc; the upper pipe of the extrusion pump head is connected with a water tank; the water tank is fixedly connected to the side face of the protective mounting cover.

Optionally, the conveying driving device includes: the device comprises two floating roller frames, driven squeeze rollers, driving squeeze rollers, a conveying driving motor, a control spring shaft, a floating frame, a control screw rod, a recovery stabilizing shaft and recovery roller frames, wherein the two floating roller frames are respectively and slidably connected with an installation supporting plate; the driven squeeze roller is rotationally connected to the floating roller frame at the front side; the shaft end of the driven extrusion roller is provided with two belt wheels; the driving squeeze roller is rotationally connected to the floating roller frame at the rear side; the shaft end of the driving extrusion roller is provided with a belt wheel; the belt wheel at the shaft end of the driving extrusion roller is connected with the belt wheel at the shaft end of the driven extrusion roller through belt transmission; the shaft end of the driving extrusion roller is fixedly connected with an output shaft of a conveying driving motor, and the conveying driving motor is arranged on the side surface of the floating roller frame; the four control spring shafts are respectively connected to two sides of the two floating roller frames in a sliding manner; springs are respectively sleeved on the four control spring shafts; the bottoms of the four control spring shafts are fixedly connected with floating frames, and the floating frames are connected with control screw rods in a threaded manner; the control screw rod is rotatably connected to the bottom of the mounting support plate; the two recovery stabilizing shafts are respectively connected to the front floating roller frame in a sliding manner; springs are respectively sleeved on the two recovery stabilizing shafts; the bottoms of the two recovery stabilizing shafts are fixedly connected with a recovery roller frame, and the recovery roller frame is rotationally connected with rollers.

Optionally, the cutting support comprises: the cutting rotary frame is rotationally connected with the butt-joint sliding ring, and four protruding sliding blocks are arranged on the inner side of the butt-joint sliding ring; the butting sliding rings are connected to four sliding grooves on the cutting driving shaft in a sliding manner; the butt joint sliding ring is sleeved with a belt wheel; the sliding mounting groove is formed in the cutting rotating frame; the cutting belt wheel is connected to the cutting rotating frame through a shaft in a rotating way; the cutting belt wheel is connected with a belt wheel on the butt-joint sliding ring through belt transmission; the shaft end of the cutting belt wheel is fixedly connected with a cutting blade.

Optionally, the linkage recovery device includes: the waste material linkage driving roller, the linkage operation belt wheel and the recovery box are connected to the front floating roller frame in a rotating mode through a bracket; the side surface of the linkage waste driving roller is fixedly connected with a linkage operation belt wheel, and the linkage operation belt wheel is connected with a belt wheel on the inner side of the driven extrusion roller through belt transmission; the recovery box is fixedly connected to the floating roller frame at the front side through a bracket; the recovery box is connected with a sealing door through a hinge; the side of the recovery box is provided with a feeding through groove.

Optionally, the pressing anti-tilting device includes: the device comprises a pressing plate frame, elastic attaching shafts and a side pressing plate frame, wherein the pressing plate frame is connected with the two elastic attaching shafts in a sliding manner, and springs are respectively sleeved on the two elastic attaching shafts; the two elastic attaching shafts are respectively and fixedly connected to the cutting rotating frame; the side pressing plate frame is fixedly connected with the pressing plate frame; the cutting blade is positioned between the side pressing plate frame and the pressing plate frame.

Optionally, the operation mounting part further includes: the winding motor is arranged on the mounting support plate; and the end of the winding roller shaft is fixedly connected with an output shaft of the winding motor.

Optionally, the multi-directional adjusting device further comprises: the floating installation shaft bracket is rotationally connected to the angle limiting screw rod; the floating installation shaft frame is fixedly connected with a sliding limiting shaft, and the sliding limiting shaft is in sliding fit connection with the inside of the sliding installation groove.

Optionally, the cutting driving device includes: the cutting driving shaft, the cutting driving motor and the extrusion convex disc are rotationally connected to the protective mounting cover; four sliding grooves are formed in the cutting driving shaft; the shaft end of the cutting driving shaft is fixedly connected with an output shaft of the cutting driving motor; the cutting driving motor is fixedly connected to the protective mounting cover; the end part of the cutting driving shaft is fixedly connected with an extrusion bulge disc.

Optionally, the cleaning cooling part includes: the cleaning installation frame is fixedly connected to the cutting rotating frame through bolts; two sliding propelling shafts are connected to the cleaning mounting frame in a sliding manner, and springs are sleeved on the two sliding propelling shafts respectively; the two sliding propulsion shafts are fixedly connected with a water collecting box; the water collecting box is of a hollow structure, and a water absorbing cotton block is fixedly connected to the water collecting box; the connecting surface of the water collecting box and the water absorbing cotton block is provided with water leakage meshes; the water-absorbing cotton block is attached to the cutting blade; the cleaning installation frame is fixedly connected with a cleaning brush, and the cleaning brush is attached to the cutting blade; the water collecting box is connected with the extrusion type pump head.

Advantageous effects

According to the cutting device disclosed by the embodiment of the invention, the functions are more comprehensive, the efficient recovery of trimming waste materials can be assisted, meanwhile, the structural linkage is strong, the use is more flexible, the practicability can be effectively improved, the cutting edges are more neat, the cutting is safer, and the cooling and dust removing effects are better.

In addition, through setting up linkage recovery unit, can effectually improve overall structure's practicality, can realize collecting the waste material that the deburring produced, can realize stable extrusion roll transport simultaneously, retrieve more stably, can effectually reduce the cost of labor, unified processing after can assisting the realization that the staff is quick is retrieved, the clean and tidy of processing environment has been guaranteed, overall structure is simpler to use, the linkage can realize the operation, the operation is more stable, through setting up and carrying drive arrangement, can assist and carry stability, simultaneously can realize adjusting different extrusion transport effect according to different sheets, use more nimble, the operation is simpler, can drive the drive squeeze roller and rotate and operate under the drive of carrying driving motor, drive driven squeeze roller simultaneously and rotate, realize carrying work, can be simultaneously through the linkage waste material drive roller rotation of belt linkage setting, the cooperation control spring shaft, the roller extrusion of retrieving on the roller frame, can be with the leftover bits extrusion transport that the deburring produced to retrieve the case, the follow-up unified processing of being convenient for more, the winding practicality is stronger, the operation is more stable, the structure is simple, the cost is lower, the whole is more practical through the drive of cutting roll, the structure is more perfect, the winding is realized, the winding is more practical, and can be realized under the complete cutting of the overall structure.

In addition, through setting up and pressing the anti-warping device, can effectually improve cutting process quality, can effectually avoid the unstable condition of sheet, the mode of cutting directly can lead to the cutting cross-section of sheet to appear jagged irregular, the untidy condition, increase the defective rate, adopt simultaneously to set up the adaptation sheet thickness that presses the anti-warping device can be free, the whole practicality is stronger, can keep the stability of sheet cutting through the effect of elasticity laminating epaxial spring, adopt cutting blade to lie in the side to press the grillage and press between the grillage simultaneously, can further guarantee to avoid appearing the condition of sawtooth limit, the pump water installation of setting can realize a linkage pump in the in-process of cutting is driven, the linkage nature is stronger, the clearance cooling portion of cooperation setting can effectually play the dust removal, remove flavor and effect of cooling, one's a plurality of purposes, meanwhile, the water pumping device adopting single pumping has lower manufacturing cost and smaller water consumption, the whole structure does not need manual operation, the multifunctional cutting process effect of EVA foaming sheets can be effectively improved, the EVA foaming sheets are effectively prevented from being baked due to the fact that the temperature of the cutting blades is increased after long-time use, peculiar smell is effectively prevented from being generated, the effects of dust removal and impurity removal are achieved in an auxiliary mode, the production and processing safety is improved, the problem that the cutting effect is affected due to the fact that EVA materials are adhered to the surface of the overheated cutting blades can be effectively avoided, the extrusion type pump head arranged by extruding a protruding disc is driven to pump when a cutting driving shaft rotates, water is absorbed into a water collecting box from a water tank again, the cyclic attachment cooling and dust removal are realized, meanwhile, a cleaning brush can assist in brushing the cleaning cutting blades, the whole structure is more flexible to use, the cutting quality is higher.

In addition, through setting up multidirectional adjusting device, the cutting support piece that the cooperation set up, can realize multidirectional nimble regulation, can realize transversely remove and adjust the cutting position, simultaneously the cutting position is adjusted more accurately, simultaneously can also realize rotating lift cutting support piece, can freely control whether three cutting support piece carries out the cutting work, the steam generator is stronger in practicality, it is more nimble convenient to use, can effectually improve the suitability of sheet cutting, simultaneously can assist to reduce the operation degree of difficulty, through setting up cutting drive arrangement, can drive three group cutting support piece operations simultaneously and cut the work, under cutting drive motor's drive, drive simultaneously and dock the sliding ring and rotate this moment, and then drive cutting blade through the belt and rotate and cut the work, simultaneously can drive the cutting turret and rotate, at this moment, can adjust cutting blade's cutting depth, adjust more accurately and flexibly, simultaneously can adjust the lead screw through the rotation distance, the realization is cut width, and is stronger in overall structure practicality, and is simple and stable, can realize simultaneously driving through adopting cutting drive arrangement, the structure linkage nature is stronger.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

fig. 1 shows a schematic view of the whole of a cutting device according to an embodiment of the invention;

FIG. 2 shows a partial cross-sectional view of the internal structure of a cutting device according to an embodiment of the present invention;

fig. 3 shows a schematic view of the bottom of a cutting device according to an embodiment of the invention;

FIG. 4 illustrates a partial enlarged view of region B of FIG. 2 in accordance with an embodiment of the present invention;

FIG. 5 shows a cross-sectional view of the interior of a cutting device according to an embodiment of the invention;

FIG. 6 shows a schematic diagram of a run-mount according to an embodiment of the invention;

FIG. 7 shows a schematic view of the bottom of a run-mount according to an embodiment of the invention;

FIG. 8 shows an enlarged view of region C of FIG. 6, in accordance with an embodiment of the present invention;

FIG. 9 shows an enlarged view of region D of FIG. 2, in accordance with an embodiment of the present invention;

fig. 10 shows a schematic view of a cutting drive according to an embodiment of the invention;

FIG. 11 shows a schematic view of a cutting support and a multidirectional adjustment device according to an embodiment of the present invention;

fig. 12 shows a schematic view of a press anti-cocking device according to an embodiment of the invention;

FIG. 13 shows a schematic view of a water pumping device according to an embodiment of the invention;

fig. 14 shows an enlarged view of region E of fig. 11 according to an embodiment of the present invention.

List of reference numerals

1. An operation installation part; 101. mounting a supporting plate; 1011. rotating the top pressing roller; 1012. a protective mounting cover; 102. a wind-up roll; 103. a winding motor; 2. a conveying driving device; 201. a floating roller frame; 202. a driven squeeze roll; 203. driving the squeeze roller; 2031. a conveying driving motor; 204. a control spring shaft; 205. a floating frame; 206. a control screw rod; 207. recovering the stable shaft; 208. recovering a roller frame; 3. a linkage recovery device; 301. a linkage waste driving roller; 302. a linkage operation belt wheel; 303. a recovery box; 4. a cutting drive; 401. cutting the driving shaft; 402. a cutting drive motor; 403. extruding the convex disc; 5. cutting the support; 501. cutting a rotating frame; 5011. a butt-joint sliding ring; 5012. a sliding mounting groove; 502. cutting a belt wheel; 503. a cutting blade; 6. a multi-directional adjusting device; 601. a sliding adjusting block; 602. an angle limiting screw rod; 603. a distance adjusting screw rod; 604. a floating installation shaft bracket; 605. sliding a limiting shaft; 7. pressing the anti-warping device; 701. pressing the plate frame; 702. an elastic fitting shaft; 703. side pressing plate frame; 8. a water pumping device; 801. an extrusion pump head; 802. a water tank; 9. cleaning the cooling part; 901. cleaning the mounting frame; 902. sliding the propulsion shaft; 903. a water collecting box; 904. a water-absorbing cotton block; 905. and (5) cleaning the brush.

Detailed Description

In order to make the objects, aspects and advantages of the technical solution of the present invention more clear, the technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present invention. Unless otherwise indicated, terms used herein have the meaning common in the art. Like reference numerals in the drawings denote like parts.

Examples: please refer to fig. 1 to 14:

the invention provides a multifunctional cutting and winding device based on EVA foaming sheets, which comprises an operation installation part 1; the operation installation part 1 is provided with a conveying driving device 2; the conveying driving device 2 is fixedly connected with a linkage recovery device 3; the operation installation part 1 is provided with a cutting driving device 4; three cutting support pieces 5 are connected to the cutting driving device 4 in a sliding manner; the three cutting support pieces 5 are respectively sheathed with a multidirectional adjusting device 6 in a sliding way; the three cutting support pieces 5 are respectively provided with a pressing anti-tilting device 7; the operation installation part 1 is provided with a water pumping device 8; the three cutting support pieces 5 are respectively fixedly connected with a cleaning cooling part 9; the operation installation part 1 includes: the device comprises an installation support plate 101, a rotary top pressure roller 1011, a protective installation cover 1012 and a winding roller 102, wherein the installation support plate 101 is rotationally connected with two rotary top pressure rollers 1011; the wind-up roller 102 is rotatably connected to the mounting support plate 101 through a shaft; the protective mounting cover 1012 is fixedly attached to the mounting support plate 101; the multidirectional adjusting means 6 includes: the sliding adjusting block 601, the angle limiting screw rod 602 and the distance adjusting screw rod 603 are connected to the protective mounting cover 1012 in a sliding manner; an angle limiting screw rod 602 is connected to the sliding adjusting block 601 in a threaded manner; a distance adjusting screw rod 603 is connected with the sliding adjusting block 601 in a threaded manner; the distance adjusting screw 603 is rotatably connected to the protective mounting cover 1012 through a bracket.

Further, according to an embodiment of the present invention, as shown in fig. 5 to 9, the operation mounting section 1 further includes: a winding motor 103, the winding motor 103 being mounted on the mounting support plate 101; the shaft end of the winding roller 102 is fixedly connected with the output shaft of the winding motor 103; the conveyance driving device 2 includes: the device comprises two floating roller frames 201, driven squeeze rollers 202, driving squeeze rollers 203, a conveying drive motor 2031, a control spring shaft 204, a floating frame 205, a control screw rod 206, a recovery stabilizing shaft 207 and a recovery roller frame 208, wherein the two floating roller frames 201 are respectively connected with an installation support plate 101 in a sliding manner; the driven squeeze roller 202 is rotatably connected to the floating roller frame 201 on the front side; the shaft end of the driven squeeze roller 202 is provided with two belt wheels; the driving squeeze roller 203 is rotatably connected to the floating roller frame 201 at the rear side; the shaft end of the driving squeeze roller 203 is provided with a belt wheel; the belt wheel at the shaft end of the driving extrusion roller 203 is connected with the belt wheel at the shaft end of the driven extrusion roller 202 through belt transmission; the shaft end of the driving squeeze roller 203 is fixedly connected with the output shaft of the conveying drive motor 2031, and the conveying drive motor 2031 is arranged on the side surface of the floating roller frame 201; four control spring shafts 204 are arranged, and the four control spring shafts 204 are respectively connected to two sides of the two floating roller frames 201 in a sliding manner; springs are respectively sleeved on the four control spring shafts 204; the bottoms of the four control spring shafts 204 are fixedly connected with a floating frame 205, and the floating frame 205 is connected with a control screw rod 206 through threads; the control screw rod 206 is rotatably connected to the bottom of the mounting support plate 101; the two recovery stabilizing shafts 207 are arranged, and the two recovery stabilizing shafts 207 are respectively connected to the front floating roller frame 201 in a sliding manner; springs are respectively sleeved on the two recovery stabilizing shafts 207; the bottoms of the two recovery stabilizing shafts 207 are fixedly connected with a recovery roller frame 208, and the recovery roller frame 208 is rotationally connected with rollers; the linkage recovery device 3 includes: a linked scrap driving roller 301, a linked operation pulley 302 and a recovery box 303, wherein the linked scrap driving roller 301 is rotatably connected to the front floating roller frame 201 through a bracket; the side surface of the linkage waste driving roller 301 is fixedly connected with a linkage operation belt wheel 302, and the linkage operation belt wheel 302 is connected with a belt wheel on the inner side of the driven extrusion roller 202 through belt transmission; the recovery box 303 is fixedly connected to the front floating roller frame 201 through a bracket; the recovery box 303 is connected with a sealing door through a hinge; the feeding through groove has been seted up to recycling box 303 side, through setting up linkage recovery unit 3, can effectually improve overall structure's practicality, can realize collecting the waste material that the deburring produced, can realize stable extrusion roll transport simultaneously, retrieve more stably, can effectually reduce the cost of labor, unified processing after the realization that can assist the staff is quick is retrieved, guaranteed the clean and tidy of processing environment, overall structure is simpler to use, the operation can be realized in the linkage, the operation is more stable, through setting up transport drive arrangement 2, can assist improvement transport stability, can realize adjusting different extrusion transport effect according to different sheets simultaneously, use more nimble, the operation is simpler, can drive the rotation of drive squeeze roller 203 and operation under the drive of transport driving motor 2031, drive driven squeeze roller 202 simultaneously and rotate, realize carrying the work, can be through the rotation of the linkage waste material drive roller 301 that the belt linkage set up, cooperation control spring shaft 204, under the extrusion of spring, the roller extrusion waste material drive roller 301 on the drive roller 208, can carry the leftover material extrusion transport to box 303 that the deburring produced, the operation is more stable, the follow-up processing is convenient for, the structure is more complete, the winding structure is more practical, the winding is lower, the overall structure is more stable, the winding is realized, the overall structure is more is cut, and is more practical and is more stable, and has a practical and is cut down.

Further, according to an embodiment of the present invention, as shown in fig. 10 and 11, the cutting drive device 4 includes: a cutter drive shaft 401, a cutter drive motor 402, and a pressing boss plate 403, the cutter drive shaft 401 being rotatably connected to a protective mounting cover 1012; four sliding grooves are formed in the cutting driving shaft 401; the shaft end of the cutting driving shaft 401 is fixedly connected with the output shaft of the cutting driving motor 402; the cutting drive motor 402 is fixedly connected to the guard mounting cover 1012; the end part of the cutting driving shaft 401 is fixedly connected with an extrusion convex disc 403; the cutting support 5 comprises: the cutting rotating frame 501, the butt-joint sliding ring 5011, the sliding mounting groove 5012, the cutting belt wheel 502 and the cutting blade 503 are rotationally connected with the butt-joint sliding ring 5011 on the rotating upper part of the cutting rotating frame 501, and four protruding sliding blocks are arranged on the inner side of the butt-joint sliding ring 5011; the butting sliding ring 5011 is connected on the four sliding grooves on the cutting driving shaft 401 in a sliding way; the butt joint sliding ring 5011 is sleeved with a belt wheel; a slide mounting groove 5012 is provided on the cutting turret 501; the cutting pulley 502 is rotatably connected to the cutting turret 501 by a shaft; the cutting belt wheel 502 is connected with a belt wheel on the butt-joint sliding ring 5011 through belt transmission; the shaft end of the cutting belt wheel 502 is fixedly connected with a cutting blade 503; the multidirectional adjusting apparatus 6 further includes: a floating mounting shaft bracket 604 and a sliding limiting shaft 605, wherein the floating mounting shaft bracket 604 is rotatably connected to the angle limiting screw 602; the utility model discloses a fixed connection is with the spacing axle 605 of slip on the installation pedestal 604 that floats, and the spacing axle 605 of slip is slided the laminating and is connected inside the installation groove 5012 of slip, through setting up multidirectional adjusting device 6, the cutting support piece 5 that the cooperation set up, can realize multidirectional nimble regulation, can realize horizontal removal regulation cutting position, the cutting position is adjusted more accurately simultaneously, simultaneously can also realize rotating lift cutting support piece 5, can freely control whether cutting support piece 5 carries out cutting operation, the practicality is stronger, it is more nimble convenient to use, can effectually improve the suitability of sheet cutting, simultaneously can assist to reduce the operation degree of difficulty, through setting up cutting drive arrangement 4, can drive three group's cutting support piece 5 operations simultaneously and carry out cutting operation, under cutting drive motor 402's drive, drive docking slip ring 5011 rotates simultaneously this moment, and then drive cutting blade 503 through the belt and rotate and carry out cutting operation, simultaneously can drive cutting rotating frame 501 and rotate, at this moment, can adjust cutting depth of cutting blade 503, adjust more accurately and in a flexible way, simultaneously can adjust cutting width through rotating distance adjustment lead screw 603, and the whole structure is stronger, and is practical through setting up cutting drive arrangement, can realize that the cutting structure is more stable simultaneously, and is more stable.

Further, according to an embodiment of the present invention, as shown in fig. 12 to 14, the pressing warp preventing device 7 includes: the device comprises a pressing plate frame 701, elastic attaching shafts 702 and side pressing plate frames 703, wherein the pressing plate frame 701 is connected with two elastic attaching shafts 702 in a sliding manner, and springs are respectively sleeved on the two elastic attaching shafts 702; the two elastic attaching shafts 702 are fixedly connected to the cutting turret 501 respectively; the side pressing plate frame 703 is fixedly connected to the pressing plate frame 701; the cutting blade 503 is located between the side pressing plate frame 703 and the pressing plate frame 701; the water pumping device 8 includes: the extrusion type pump head 801 and the water tank 802, the extrusion type pump head 801 is fixedly connected to the side face of the protective mounting cover 1012 through a bracket; the front side of the extrusion pump head 801 is attached to the extrusion boss 403; the upper pipe of the extrusion pump head 801 is connected with a water tank 802; the water tank 802 is fixedly connected to the side of the protective mounting cover 1012; the cleaning cooling part 9 includes: the cleaning installation frame 901, the sliding propulsion shaft 902, the water collecting box 903, the water absorbing cotton block 904 and the cleaning brush 905, wherein the cleaning installation frame 901 is fixedly connected to the cutting rotating frame 501 through bolts; two sliding propulsion shafts 902 are connected to the cleaning installation frame 901 in a sliding manner, and springs are sleeved on the two sliding propulsion shafts 902 respectively; the two sliding propulsion shafts 902 are fixedly connected with water collection boxes 903; the water collecting box 903 is hollow, and a water absorbing cotton block 904 is fixedly connected to the water collecting box 903; the joint surface of the water collecting box 903 and the water absorbing cotton block 904 is provided with water leakage meshes; the absorbent cotton block 904 is attached to the cutting blade 503; a cleaning brush 905 is fixedly connected to the cleaning mounting frame 901, and the cleaning brush 905 is attached to the cutting blade 503; the water collecting box 903 is connected with the extrusion type pump head 801 by a pipe, the pressing anti-tilting device 7 is arranged, the cutting quality can be effectively improved, the situation that the cutting section of the sheet is irregular and irregular due to the way of cutting directly under the unstable condition of the sheet can be effectively avoided, the defective rate is increased, meanwhile, the thickness of the sheet can be freely adapted by arranging the pressing anti-tilting device 7, the whole practicability is stronger, the stability of cutting the sheet can be kept by the action of the spring on the elastic attaching shaft 702, meanwhile, the cutting blade 503 is arranged between the side pressing plate frame 703 and the side pressing plate frame 701, the situation of saw-tooth edge can be further avoided, the arranged water pumping device 8 can realize linkage pumping in the cutting driving process, the linkage is stronger, the cleaning and cooling part 9 arranged in a matched manner can effectively remove dust, the effects of deodorizing and cooling are achieved in one step, the water pumping device 8 which is pumped by a single pump is adopted, the manufacturing cost is lower, the water consumption is smaller, the whole structure does not need manual operation, the multifunctional cutting process effect of EVA foaming sheets can be effectively improved, the problem that the EVA foaming sheets are baked due to the temperature rise of the cutting blades 503 caused by long-time use is effectively avoided, the peculiar smell is effectively avoided, the effects of dedusting and impurity removal are realized in an auxiliary way, the production and processing safety is improved, the problem that the cutting effect is affected due to the adhesion of EVA materials on the overheated surface of the cutting blades 503 can be effectively avoided, the extrusion type pump head 801 which is arranged by extruding the extrusion protruding disc 403 is driven when the cutting driving shaft 401 rotates is realized, the water is pumped into the water collecting box 903 from the water tank 802, the water absorbing cotton block 904 is absorbed again, the cyclic attachment cooling and dedusting are realized, meanwhile, the cleaning brush 905 can assist the brush to clean the cutting blade 503, the whole structure is more flexible to use, and the cutting quality is higher.

Specific use and action of the embodiment: in the invention, firstly, a sheet is placed on the mounting support plate 101, whether edge trimming work is performed or not can be freely selected, the driving extrusion roller 203 can be driven to rotate and run by the driving of the conveying driving motor 2031, meanwhile, the driven extrusion roller 202 is driven to rotate simultaneously, conveying work is realized, meanwhile, the linkage waste driving roller 301 which is arranged in linkage through a belt can rotate, the spring shaft 204 is matched with control, under the extrusion of a spring, the roller on the recovery roller frame 208 is driven to extrude the linkage waste driving roller 301, the leftover materials generated by trimming can be extruded and conveyed to the recovery box 303, meanwhile, the cutting driving shaft 401 can be driven to rotate by the cutting driving motor 402, meanwhile, the butt joint sliding ring 5011 is driven to rotate simultaneously, the cutting blade 503 is driven to rotate by the belt to perform cutting work, meanwhile, the lead screw 602 can be limited by the rotation angle, the floating installation shaft bracket 604 and the sliding limiting shaft 605 are driven to rise and fall, and slide in the sliding installation groove 5012 to drive the cutting rotating frame 501 to rotate, at the moment, the cutting depth of the cutting blade 503 can be adjusted, the adjustment is more accurate and flexible, meanwhile, the transverse position of the sliding adjusting block 601, namely the cutting width, can be adjusted through the rotating distance adjusting screw 603, the elastic attaching sheet material of the pressing plate bracket 701 is driven by the action of the spring on the elastic attaching shaft 702, the stability of cutting the sheet material is kept, when the cutting driving shaft 401 rotates, the extrusion pump head 801 which is arranged by extruding the extrusion protruding disc 403 is driven, the water is pumped into the water tank 802 from the water collecting box 903, the water is absorbed into the water absorbing cotton block 904 again, at the moment, the cutting blade 503 can realize the cyclic attaching cooling and dust removal in the rotating cutting process, and the cleaning brush 905 can assist the brushing and cleaning of the cutting blade 503, the neatness of the cutting blade 503 is maintained, after the cutting is completed, whether the cut sheet is wound or not can be freely selected, and when the cut sheet is wound, the winding roller 102 can be driven to wind the cut sheet by the driving of the winding motor 103.

Finally, it should be noted that the present invention is generally described in terms of a/a pair of components, such as the location of each component and the mating relationship therebetween, however, those skilled in the art will appreciate that such location, mating relationship, etc. are equally applicable to other components/other pairs of components.

The foregoing is merely exemplary embodiments of the present invention and is not intended to limit the scope of the invention, which is defined by the appended claims.

Claims (10)

1. The multifunctional cutting and winding device based on the EVA foaming sheet is characterized by comprising an operation installation part (1); the operation installation part (1) is provided with a conveying driving device (2); the conveying driving device (2) is fixedly connected with a linkage recovery device (3); the operation installation part (1) is provided with a cutting driving device (4); three cutting support pieces (5) are connected to the cutting driving device (4) in a sliding manner; the three cutting support pieces (5) are respectively sleeved with a multidirectional adjusting device (6) in a sliding manner; the three cutting support pieces (5) are respectively provided with a pressing anti-tilting device (7); the operation installation part (1) is provided with a water pumping device (8); the three cutting support pieces (5) are respectively and fixedly connected with a cleaning cooling part (9); the operation mounting section (1) includes: the device comprises an installation support plate (101), a rotary top pressing roller (1011), a protective installation cover (1012) and a winding roller (102), wherein the installation support plate (101) is rotationally connected with two rotary top pressing rollers (1011); the winding roller (102) is rotatably connected to the mounting support plate (101) through a shaft; the protective mounting cover (1012) is fixedly connected to the mounting support plate (101); the multidirectional adjusting device (6) includes: the device comprises a sliding adjusting block (601), an angle limiting screw rod (602) and a distance adjusting screw rod (603), wherein the sliding adjusting block (601) is connected to a protective mounting cover (1012) in a sliding manner; an angle limiting screw rod (602) is connected to the sliding adjusting block (601) in a threaded manner; a distance adjusting screw rod (603) is connected to the sliding adjusting block (601) in a threaded manner; the distance adjusting screw rod (603) is rotatably connected to the protective mounting cover (1012) through a bracket.

2. The EVA foam sheet-based multifunctional cutting and winding device as set forth in claim 1, wherein: the operation mounting portion (1) further includes: the winding motor (103), the winding motor (103) is installed on the installation support plate (101); the shaft end of the winding roller (102) is fixedly connected with an output shaft of a winding motor (103).

3. The EVA foam sheet-based multifunctional cutting and winding device as set forth in claim 1, wherein: the transport driving device (2) includes: the device comprises two floating roll frames (201), driven squeeze rolls (202), driving squeeze rolls (203), a conveying drive motor (2031), a control spring shaft (204), a floating frame (205), a control screw rod (206), a recovery stabilizing shaft (207) and a recovery roll frame (208), wherein the two floating roll frames (201) are respectively connected with an installation support plate (101) in a sliding manner; the driven squeeze roller (202) is rotatably connected to the floating roller frame (201) at the front side; the shaft end of the driven extrusion roller (202) is provided with two belt wheels; the driving squeeze roller (203) is rotatably connected to the floating roller frame (201) at the rear side; the shaft end of the driving extrusion roller (203) is provided with a belt wheel; the belt wheel at the shaft end of the driving extrusion roller (203) is connected with the belt wheel at the shaft end of the driven extrusion roller (202) through belt transmission; the shaft end of the driving extrusion roller (203) is fixedly connected with the output shaft of the conveying driving motor (2031), and the conveying driving motor (2031) is arranged on the side surface of the floating roller frame (201); four control spring shafts (204) are arranged, and the four control spring shafts (204) are respectively and slidably connected to two sides of the two floating roller frames (201); springs are respectively sleeved on the four control spring shafts (204); the bottoms of the four control spring shafts (204) are fixedly connected with a floating frame (205), and the floating frame (205) is connected with a control screw rod (206) in a threaded manner; the control screw rod (206) is rotatably connected to the bottom of the mounting support plate (101); the two recovery stabilizing shafts (207) are arranged, and the two recovery stabilizing shafts (207) are respectively connected to the front floating roller frame (201) in a sliding manner; springs are respectively sleeved on the two recovery stabilizing shafts (207); the bottoms of the two recovery stabilizing shafts (207) are fixedly connected with a recovery roller frame (208), and the recovery roller frame (208) is rotatably connected with rollers.

4. A multifunctional cutting and winding device based on EVA foam sheets as claimed in claim 3, characterized in that: the linked recovery device (3) comprises: the waste material recycling device comprises a linkage waste material driving roller (301), a linkage operation belt wheel (302) and a recycling box (303), wherein the linkage waste material driving roller (301) is rotatably connected to a floating roller frame (201) at the front side through a bracket; the side surface of the linkage waste driving roller (301) is fixedly connected with a linkage operation belt wheel (302), and the linkage operation belt wheel (302) is connected with a belt wheel at the inner side of the driven extrusion roller (202) through belt transmission; the recovery box (303) is fixedly connected to the front floating roller frame (201) through a bracket; the recycling box (303) is connected with a sealing door through a hinge; the side of the recovery box (303) is provided with a feeding through groove.

5. The EVA foam sheet-based multifunctional cutting and winding device as set forth in claim 1, wherein: the cutting drive device (4) comprises: a cutting drive shaft (401), a cutting drive motor (402) and a pressing boss disk (403), wherein the cutting drive shaft (401) is rotatably connected to a protective mounting cover (1012); four sliding grooves are formed in the cutting driving shaft (401); the shaft end of the cutting driving shaft (401) is fixedly connected with the output shaft of the cutting driving motor (402); the cutting driving motor (402) is fixedly connected to the protective mounting cover (1012); the end part of the cutting driving shaft (401) is fixedly connected with an extrusion bulge disc (403).

6. The EVA foam sheet-based multifunctional cutting and winding device of claim 5, wherein: the cutting support (5) comprises: the cutting rotating frame (501), a butt-joint sliding ring (5011), a sliding mounting groove (5012), a cutting belt wheel (502) and a cutting blade (503), wherein the butt-joint sliding ring (5011) is rotationally connected to the cutting rotating frame (501), and four protruding sliding blocks are arranged on the inner side of the butt-joint sliding ring (5011); the butting sliding ring (5011) is connected to four sliding grooves on the cutting driving shaft (401) in a sliding way; a belt wheel is sleeved on the butt-joint sliding ring (5011); the sliding mounting groove (5012) is formed in the cutting rotating frame (501); the cutting belt wheel (502) is rotatably connected to the cutting rotating frame (501) through a shaft; the cutting belt wheel (502) is connected with a belt wheel on the butt-joint sliding ring (5011) through belt transmission; the shaft end of the cutting belt wheel (502) is fixedly connected with a cutting blade (503).

7. The EVA foam sheet-based multifunctional cutting and winding device as set forth in claim 1, wherein: the multidirectional adjusting device (6) further comprises: the device comprises a floating installation shaft bracket (604) and a sliding limiting shaft (605), wherein the floating installation shaft bracket (604) is rotatably connected to an angle limiting screw rod (602); the floating installation shaft bracket (604) is fixedly connected with a sliding limiting shaft (605), and the sliding limiting shaft (605) is connected to the sliding installation groove (5012) in a sliding fit mode.

8. The EVA foam sheet-based multifunctional cutting and winding device as defined in claim 6, wherein: the pressing anti-warp device (7) comprises: the device comprises a pressing plate frame (701), elastic attaching shafts (702) and side pressing plate frames (703), wherein the pressing plate frame (701) is connected with the two elastic attaching shafts (702) in a sliding manner, and springs are respectively sleeved on the two elastic attaching shafts (702); the two elastic attaching shafts (702) are respectively and fixedly connected to the cutting rotating frame (501); the side pressing plate frame (703) is fixedly connected to the pressing plate frame (701); the cutting blade (503) is positioned between the side pressing plate frame (703) and the pressing plate frame (701).

9. The EVA foam sheet-based multifunctional cutting and winding device as defined in claim 6, wherein: the water pumping device (8) comprises: the extrusion type pump head (801) and the water tank (802), wherein the extrusion type pump head (801) is fixedly connected to the side face of the protective mounting cover (1012) through a bracket; the front side of the extrusion pump head (801) is attached to the extrusion bulge disc (403); the upper pipe of the extrusion pump head (801) is connected with a water tank (802); the water tank (802) is fixedly connected to the side face of the protective mounting cover (1012).

10. The EVA foam sheet-based multifunctional cutting and winding device as defined in claim 9, wherein: the cleaning and cooling part (9) comprises: the cleaning device comprises a cleaning mounting frame (901), a sliding propulsion shaft (902), a water collecting box (903), a water absorbing cotton block (904) and a cleaning brush (905), wherein the cleaning mounting frame (901) is fixedly connected to a cutting rotating frame (501) through bolts; two sliding propulsion shafts (902) are connected to the cleaning installation frame (901) in a sliding mode, and springs are sleeved on the two sliding propulsion shafts (902) respectively; the two sliding propulsion shafts (902) are fixedly connected with water collection boxes (903); the inside of the water collecting box (903) is of a hollow structure, and a water absorbing cotton block (904) is fixedly connected to the water collecting box (903); the water collecting box (903) and the water absorbing cotton block (904) are provided with water leakage meshes on the connecting surface; the absorbent cotton block (904) is attached to the cutting blade (503); a cleaning brush (905) is fixedly connected to the cleaning mounting frame (901), and the cleaning brush (905) is attached to the cutting blade (503); the water collecting box (903) is connected with the extrusion type pump head (801).