CN112323475A

CN112323475A - Working method of automatic cutting and trimming device for cloth processing

Info

Publication number: CN112323475A
Application number: CN202011277501.6A
Authority: CN
Inventors: 李秀华; 洪思宜
Original assignee: Individual
Current assignee: Foshan Nanhai Ouyi Clothing Co ltd
Priority date: 2020-11-16
Filing date: 2020-11-16
Publication date: 2021-02-05
Anticipated expiration: 2040-11-16
Also published as: CN112323475B

Abstract

The invention relates to the technical field of cloth processing, in particular to a working method of an automatic cutting and trimming device for cloth processing, which comprises a base and a processing table, and also comprises a controller, a pressing mechanism, a cutting mechanism and a collecting mechanism, wherein the pressing mechanism comprises a first pressing component and a second pressing component, the cutting mechanism comprises a cutter, a lifting component and an anti-deviation component, the collecting mechanism is arranged on the processing table and is used for collecting the cut cloth and dust generated during cutting, the collecting mechanism comprises a cleaning brush and a screening component, and the first pressing component, the second pressing component, the lifting component and the anti-deviation component are electrically connected with the controller. The cloth can be prevented from shaking during cutting, and the cutting efficiency can be improved.

Description

Working method of automatic cutting and trimming device for cloth processing

Technical Field

The invention relates to the technical field of cloth processing, in particular to a working method of an automatic cutting and trimming device for cloth processing.

Background

In textile industry processing, for better preparation product, the cloth need cut edge and cut off usually, make the cloth become more neat pleasing to the eye, general processing factory, only can carry out the processing of cloth through the mode of artifical cutting off, this kind of mode not only wastes time and energy, the quality of product still can not guarantee uniformly, often can appear cutting off the error or destroy the cloth, also can pass through machine tooling a bit, but these machines adopt usually to saw cut or die-cut mode, lead to the cloth to produce the sawtooth edge easily, or lead to cloth corner to take off the line wire drawing etc. still can not guarantee product quality, consequently, need just can guarantee quality and efficiency simultaneously with automatic cutting off the mode, in addition, the general environment in cloth processing workshop is very poor, cloth bits, silk thread and dust etc. are all gone all, influence operating personnel's health very easily.

Chinese patent application No.: CN 201910928510.8; the publication date is as follows: 2019.12.31 discloses a trimming and cutting device for textile industry cloth, which comprises a bottom body, wherein a workbench is fixedly arranged on the upper side of the bottom body, an auxiliary body is fixedly arranged on the rear side of the bottom body, a top plate is fixedly arranged on the front side of the auxiliary body, the top plate is positioned on the upper side of the workbench, two bilaterally symmetrical support plates are fixedly arranged on the lower side of the top plate, a clamping mechanism which can be used for clamping the position of the cloth without cutting is arranged on the upper side of the workbench, a sliding cavity with an upward opening is arranged in the workbench, a first sliding block is arranged in the sliding cavity in a sliding mode, and a hinge block is fixedly arranged on the upper side of the first sliding block.

Chinese patent application No.: CN 201910830571.0; the publication date is as follows: 2019.11.05 discloses a seamless underwear cloth cutting system, which comprises a frame, a cutting table, a driving mechanism, an adjusting support, a screw rod, a cutting mechanism and a cloth pressing roller, wherein the cutting table is fixed at the inner side of the frame; the driving mechanism is connected to the adjusting support and is in sliding fit with the two ends of the rack; the adjusting support is connected to the frame; the driving mechanism is in transmission connection with the cutting mechanism; the cutting mechanism is positioned above the cutting table and is in sliding fit with the adjusting support; the cutting mechanism is matched on the screw rod through threads; two ends of the screw rod are fixedly connected to two ends of the adjusting support respectively; the cloth pressing roller is connected to the frame; the lower end of the cloth pressing roller is matched on the cutting table in a rolling manner. The invention provides a seamless underwear cloth cutting system which can solve the problem of poor cutting precision caused by displacement of cloth in the cutting process in the prior art.

The above two inventive structures have the following disadvantages:

1. utilize scissors formula structure to carry out the cutting edge to the cloth, the scissors is connecting rod structure, and does not have the design and adjusts the structure, and the sword is walked partially easily to lead to tailorring inequality, extravagant even.

2. Only the cloth scraps generated by cutting are discharged together with dust without screening the cloth scraps and the dust, and the cut cloth scraps have secondary utilization value.

3. Two splint volumes are less, and it is the point type contact with the cloth actually, and the effect of pressing to the cloth remains to promote, when cutting out the during operation, receives the power of dragging of cutting out easily and the condition that appears rocking or even droing, therefore is unfavorable for cutting out going on smoothly of work.

According to the defects of the prior art, the automatic cutting and trimming device and method for processing are needed to be designed, wherein the cutting is uniform, the waste is avoided, meanwhile, cloth scraps and dust generated in the cutting can be effectively screened and respectively collected, the fixing effect is better, and the cloth can be prevented from shaking in the cutting process.

Disclosure of Invention

The invention aims to provide an automatic cutting and trimming device and method for cloth processing.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides an automatic cutting and trimming device for cloth processing, which comprises a base, a processing table, a controller, a pressing mechanism, a cutting mechanism and a collecting mechanism, wherein the controller is fixedly arranged at the top of the processing table, the pressing mechanism is arranged at the top of the processing table and is used for fixing cloth, the pressing mechanism comprises a first pressing component and a second pressing component, the first pressing component is arranged at one end of the top of the processing table, the second pressing component is arranged at the other end of the top of the processing table, the cutting mechanism is arranged at the top of the base and is used for trimming the cloth, the cutting mechanism comprises a cutter, a lifting component and an anti-deviation component, the lifting component is arranged at the top of the base, the anti-deviation component is fixedly arranged on the lifting component, the cutter is fixedly arranged on the anti-deviation component through bolts, the collecting mechanism is arranged on the processing table and is used for collecting the cloth after cutting and dust generated during cutting, the collecting mechanism comprises a cleaning brush and a screening assembly, the cleaning brush is fixedly arranged on the lifting assembly, the screening assembly is arranged on the outer wall of one end of the processing table in the length direction, and the first pressing assembly, the second pressing assembly, the lifting assembly and the deviation preventing assembly are electrically connected with the controller.

Further, first compress tightly the subassembly and include major axis cylinder, first clamp plate and commentaries on classics board, the fixed mounting panel that is equipped with in top of processing platform, the rectangle breach has been seted up at the top of mounting panel, the articulated nest block that is provided with in inside of rectangle breach, the major axis cylinder is inserted and is established the inside of nest block, the bull stick is articulated to be set up on the outer wall of mounting panel, and the output of major axis cylinder is articulated with changeing the board, first clamp plate is fixed to be established in the one end of changeing the board and keeping away from the mounting panel to the fixed protection pad that is equipped with in bottom of first clamp plate, the protection pad is made by soft silica gel material, the major axis cylinder.

Furthermore, the lifting component comprises a lifting plate, a stepping motor, a first rotating rod and two second rotating rods, a supporting plate is fixedly arranged at the top of the base, the stepping motor is fixedly arranged on the outer wall of the supporting plate, the first rotating rod is fixedly arranged on the output end of the stepping motor, two shaft seats are symmetrically arranged at the top of the base, the first rotating rod is spliced with the two shaft seats, two first bevel gears are symmetrically arranged on the outer wall of the first rotating rod, the two second rotating rods are symmetrically arranged on the supporting plate, each second rotating rod is rotatably connected with the supporting plate, a second bevel gear is sleeved at the bottom of each second rotating rod, each first bevel gear is meshed with one second bevel gear, each first bevel gear is smaller than one second bevel gear, two vertical plates are symmetrically arranged at two ends of the top of the base, and a top plate is fixedly arranged between the two vertical plates, the top of every second bull stick all is articulated with the roof, lifter plate threaded connection is between two second bull sticks, step motor is connected with the controller electricity.

Further, the second compresses tightly the subassembly and includes propelling movement cylinder, second clamp plate and two guide bars, the propelling movement cylinder is vertical setting on the top outer wall of roof to the output of propelling movement cylinder is vertical down, the second clamp plate is fixed to be established on the output of propelling movement cylinder, and two guide bars are the symmetry and set up at the top of processing platform, and every guide bar all pegs graft with the second clamp plate to all overlap on the outer wall of every guide bar and be equipped with buffer spring, and the bottom one end of second clamp plate and the top one end of processing platform are contradicted with a buffer spring's both ends respectively, and the top of every guide bar is all fixed and is equipped with the anticreep post, the propelling movement cylinder is connected with the controller electricity.

Further, the fixed first slip table that is equipped with in bottom of lifter plate, prevent inclined to one side subassembly and include laser ranging sensor, second slip table and installation piece, the second slip table slides and sets up on first slip table, the installation piece slides and establishes the bottom at the second slip table to first slip table and second slip table mutually perpendicular have seted up the mounting groove on the inner wall of installation piece, the cutter is pegged graft in the inside of mounting groove, and the cutter is close to one of mounting groove and serves the joint and be provided with nestedly on the outer wall, laser ranging sensor is fixed to be established on nested outer wall to laser ranging sensor's output is towards the second riser, laser ranging sensor is connected with the controller electricity.

Further, the screening subassembly is including collecting box and filtration basket, it slides and sets up on the outer wall of processing platform to collect the box, filtration basket grafting sets up the inside of collecting the box, it only supplies the filtration hole that the dust passes through to be equipped with a plurality of on the filtration basket, still is equipped with the glass observation window on the outer wall of collection box and digs the groove, and the processing platform is close to the top one end of second clamp plate and offers the groove of dodging that can supply the cutter to tailor, dodge the groove and be close to the one end side of collecting the box and seted up the blanking mouth, be equipped with the pay-off slide with the blanking mouth intercommunication on the inner wall of processing platform, pay-off slide and collection box intercommunication.

Further, be the symmetry on the mounting panel is close to the one end outer wall of changeing the board and be equipped with four first connecting blocks, all fixedly between per two first connecting blocks being equipped with the dead lever, it is provided with four second connecting blocks to be the symmetry on the outer wall of commentaries on classics board, all fixedly between per two second connecting blocks being equipped with the movable rod, all overlaps between every dead lever and a movable rod to be equipped with the extension spring.

Furthermore, a connecting rod is arranged on the first sliding table in a sliding mode, an elastic rod is fixedly arranged at the bottom of the connecting rod, and the cleaning brush is fixedly arranged at the bottom of the elastic rod.

Further, the one end that the processing platform is close to the clearance brush is the symmetry and is provided with two slide rails, and the inside of every slide rail all slides and is provided with the slider, fixedly connected with protection casing between two sliders, the one end that the protection casing is close to and dodges the groove is equipped with the opening to the fixed handle that pushes away that is equipped with on the outer wall of protection casing.

A method of an automatic cutting and trimming device for cloth processing comprises the following steps:

s1: fixing the cloth:

the cloth is put on the processing table, one end of the cloth is arranged at the oblique lower part of the first pressing plate, then the long shaft cylinder is started through the controller, so that the output end of the long shaft cylinder extends out, the rotating plate on the output end of the long shaft cylinder is driven to rotate towards one end close to the processing table by taking the mounting plate as the circle center, the rotating plate is fixedly connected with the first pressing plate, the first pressing plate is driven to rotate towards one end close to the processing table until the first pressing plate presses one end of the cloth tightly, the protective pad made of soft silica gel can prevent the cloth from being crushed and has a protective effect, compared with the prior art, the point contact pressing structure is changed into the plate contact pressing structure, the cloth can be better pressed, the cloth is prevented from shaking or falling off during cutting, the cutting efficiency is improved, when the first pressing plate presses one end of the cloth, the two tension springs extend to play a buffering effect, guarantee not crushing the texture of cloth when compressing tightly, play the guard action, and when tailorring the end, two extension springs reset to drive first clamp plate and reset, so that compress tightly the cloth next time

When the one end of cloth was compressed tightly at first clamp plate, smoothes the cloth through the manual work, then starts the propelling movement cylinder through the controller, therefore drives its output and stretches out to the one end that is close to the processing platform to drive the second clamp plate and stretch out to the one end that is close to the processing platform, compress tightly the other end of cloth, and then thoroughly fix the cloth, so that tailor the side cut, two buffer spring play the cushioning effect, prevent that the second clamp plate from pushing down too fast and crushing the cloth texture.

S2: cutting and trimming the cloth:

after the cloth is thoroughly fixed, start step motor through the controller, therefore it is rotatory to drive first bull stick, again because two first bevel gears all rotate with first bull stick, thereby it is rotatory to drive two first bevel gears, again because two second bull sticks are the rotation design, every second bevel gear all designs with a second bull stick, every first bevel gear all is connected with a second bevel gear meshing, thereby it is rotatory to drive two second bull sticks, again because the both ends and two second bull stick threaded connection of lifter plate, and then drive the lifter plate and descend, thereby it descends to drive the cutter, until inside its embedding cloth, after cutter embedding cloth is inside, start first slip table through the controller, thereby it is vertical to drive the second slip table, drive the cutter vertical sliding on the second slip table promptly, tailor the cloth.

S3: and (3) cutting off the deviation prevention treatment of the trimming line:

in the process of cutting and trimming the cloth, the cutter is easily deviated by external factors such as the texture of the cloth, the pressing position of the second pressing plate is positioned beside the avoidance groove, when the second pressing plate presses the cloth, the second pressing plate can be used as a guideline, as long as the distance between the laser ranging sensor on the cutter and the second pressing plate is constant, the cutting line is not deviated, at the moment, the laser ranging sensor is started through the controller, the distance standard value from the cutter to the second pressing plate is preset in the controller, when the distance between the laser ranging sensor and the second pressing plate is detected to be inconsistent with the preset value, the cutter is deviated, the cutting line is changed, at the moment, the second sliding table is started through the controller, so that the cutter on the mounting block is driven to transversely slide, the laser ranging sensor detects the distance between the cutter and the second pressing plate in real time, and when the distance between the cutter and the second pressing plate is detected to be consistent with the preset value, show promptly that the cutter circuit resumes normally, at this moment, through controller outage second slip table, stop the slip of cutter, compare in prior art, can cut out the processing at actual cloth, can cut out the side cut route in the discovery and walk the time partially, in time effectively adjust the position of tailorring of cutter, resume normally in order to guarantee to cut out the route, and then guarantee the sectional regularity and the integrity of cloth, guarantee to cut out evenly, avoid extravagant, not only promoted the processingquality and the finished product quality of cloth, further promoted the practicality of this device. S4: screening treatment of cloth scraps and dust:

when the cutter cuts the cloth, the first sliding table drives the connecting rod to longitudinally slide, so that scraps and dust generated during cloth cutting are pushed to one end close to the collecting box through the cleaning brush, the elastic rod provides a buffering function for the cleaning brush to meet the cleaning requirements of the cloth with different thicknesses, when the scraps and dust generated during cloth cutting are pushed into the collecting box from the blanking port through the feeding slideway, the plurality of filtering holes only allow the dust to pass through, therefore can screen piece and dust and separate, and the piece is stored to the inside of straining the basket, and the piece has the value of reutilization, and the dust then falls into the bottom of collecting the box, and the two of avoiding of at utmost mixes together, has also made things convenient for subsequent processing, and the glass observation window is used for observing the storage condition, and when filling with, the accessible is scratched the groove and will be collected the box and take out, carries out its inside clearance.

The invention has the beneficial effects that:

1. according to the invention, the point contact pressing structure is changed into the plate contact pressing structure by designing the first pressing component and the second pressing component, and compared with the prior art, the cloth can be better pressed and fixed, so that the cloth is prevented from shaking or falling off during cutting, and the cutting and trimming efficiency is further improved.

2. According to the cloth cutting device, the cutter and the deviation preventing assembly are designed, the cutter is more tidy in the cut cloth section compared with a scissor type structure, fewer cloth scraps are generated, the deviation preventing assembly comprises the laser ranging sensor, the second sliding table and the mounting block, whether the cutting route is inclined or not is detected in real time through the laser ranging sensor in the cutting process, compared with the prior art, the cutting position of the cutter can be timely and effectively adjusted when the deviation of the cutting and trimming route is found in the actual cloth cutting process, the cutting route is enabled to be recovered to be normal, the regularity and integrity of the cloth section are further guaranteed, the uniform cutting is guaranteed, waste is avoided, the processing quality and the finished product quality of cloth are improved, and the practicability of the cloth cutting device is further improved.

3. According to the invention, through designing the cleaning brush and the screening assembly, the screening assembly comprises the collecting box and the filtering basket, when the cutter cuts, the cleaning brush can push cloth scraps and dust generated in cutting to the interior of the collecting box, the plurality of filtering holes are designed to be only used for allowing the dust to pass through, so that the scraps and the dust can be screened and separated, the scraps are stored in the filtering basket, the secondary utilization of the cloth scraps is facilitated, the dust falls into the bottom of the collecting box, the glass observation window is used for observing the storage condition, when the collecting box is full, the collecting box can be drawn out through the digging groove to clean the interior of the collecting box, and the cleaning brush and the screening assembly are convenient and effective.

4. According to the invention, the protective cover is designed and is in sliding connection with the processing table through the sliding rail, when the cloth is cut, the cutting space is covered by the protective cover, so that dust generated during cutting can be prevented from spreading around, after the cutting is finished, the protective cover is pulled to one end far away from the cutter through the pushing handle, and then the cut redundant cloth is taken out, so that the cloth cutting machine is convenient and fast.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings in the embodiments of the present invention are briefly described below.

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

FIG. 2 is a schematic plan view of the present invention;

FIG. 3 is an enlarged view taken at A in FIG. 2;

FIG. 4 is a schematic perspective view of the processing table, the cutting mechanism and the collecting mechanism of the present invention;

FIG. 5 is an enlarged view of FIG. 4 at B;

FIG. 6 is an enlarged view at C in FIG. 4;

FIG. 7 is a schematic perspective view of the processing table, the lifting assembly, the deviation preventing assembly and the pressing mechanism of the present invention;

FIG. 8 is an enlarged view of FIG. 7 at D;

FIG. 9 is a cross-sectional view of a collection cassette of the present invention;

FIG. 10 is an exploded perspective view of the flexible rod of the present invention;

in the figure: the cutting machine comprises a base 1, a first bevel gear 10, a second bevel gear 100, a top plate 11, a processing table 2, a blanking port 20, a feeding slideway 200, a protective cover 21, a push handle 210, a controller 3, a pressing mechanism 4, a first pressing component 40, a long-axis cylinder 400, a first pressing plate 401, a rotating plate 402, a sleeve block 403, a protective pad 404, a fixed rod 405, a movable rod 406, a tension spring 407, a second pressing component 41, a pushing cylinder 410, a second pressing plate 411, a guide rod 412, a buffer spring 413, a cutting mechanism 5, a cutter 50, a nesting 500, a lifting component 51, a lifting plate 510, a stepping motor 511, a first rotating rod 512, a second rotating rod 410, a first sliding table 514, a connecting rod 515, an elastic rod 516, an anti-deviation component 52, a laser distance measuring sensor 520, a second sliding table 521, a mounting block 522, a collecting mechanism 6, a cleaning brush 60, a screening component 61, a collecting box 610, a filtering basket 611 and a glass observation.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some components of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product.

Referring to fig. 1 to 10, the automatic cutting and trimming device for processing cloth includes a base 1 and a processing table 2, and further includes a controller 3, a pressing mechanism 4, a cutting mechanism 5 and a collecting mechanism 6, the controller 3 is fixedly disposed at the top of the processing table 2, the pressing mechanism 4 is disposed at the top of the processing table 2 for fixing the cloth, the pressing mechanism 4 includes a first pressing component 40 and a second pressing component 41, the first pressing component 40 is disposed at one end of the top of the processing table 2, the second pressing component 41 is disposed at the other end of the top of the processing table 2, the cutting mechanism 5 is disposed at the top of the base 1 for trimming the cloth, the cutting mechanism 5 includes a cutter 50, a lifting component 51 and an anti-deviation component 52, the lifting component 51 is disposed at the top of the base 1, the anti-deviation component 52 is fixedly disposed on the lifting component 51, the cutter 50 is fixedly disposed on the anti-deviation component 52 through a bolt, the collecting mechanism 6 is arranged on the processing table 2 and used for collecting the cloth after cutting and dust generated during cutting, the collecting mechanism 6 comprises a cleaning brush 60 and a screening assembly 61, the cleaning brush 60 is fixedly arranged on the lifting assembly 51, the screening assembly 61 is arranged on the outer wall of one end of the processing table 2 in the length direction, and the first pressing assembly 40, the second pressing assembly 41, the lifting assembly 51, the deviation preventing assembly 52 and the controller 3 are all electrically connected.

The first pressing assembly 40 comprises a long shaft cylinder 400, a first pressing plate 401 and a rotating plate 402, a mounting plate is fixedly arranged at the top of the processing table 2, a rectangular notch is formed in the top of the mounting plate, a sleeve block 403 is hinged inside the rectangular notch, the long shaft cylinder 400 is inserted inside the sleeve block 403, a rotating rod is hinged to the outer wall of the mounting plate, the output end of the long shaft cylinder 400 is hinged to the rotating plate 402, the first pressing plate 401 is fixedly arranged at one end, far away from the mounting plate, of the rotating plate 402, a protective pad 404 is fixedly arranged at the bottom of the first pressing plate 401, the protective pad 404 is made of soft silica gel, the long shaft cylinder 400 is electrically connected with the controller 3, when the cloth is cut and trimmed, the cloth is firstly placed on the processing table 2, one end of the cloth is arranged at the oblique lower side of the first pressing plate 401, and then the long shaft cylinder 400 is started by the controller 3, thereby make its output stretch out, therefore it uses the mounting panel to rotate to the one end that is close to processing platform 2 as the centre of a circle to drive commentaries on classics board 402 on its output, because commentaries on classics board 402 and first clamp plate 401 fixed connection, therefore it is rotatory to the one end that is close to processing platform 2 to drive first clamp plate 401, compress tightly the one end of cloth until first clamp plate 401, the protection pad 404 that the soft silica gel material was made, can prevent the crushing to the cloth texture, play the guard action, compare in prior art, it compresses tightly the structure to change into board-like contact compact structure with point type contact compact structure, can be better compress tightly the cloth, thereby prevent that it from rocking or droing when tailorring, be favorable to promoting and tailor efficiency.

The lifting component 51 comprises a lifting plate 510, a stepping motor 511, a first rotating rod 512 and two second rotating rods 513, the top of the base 1 is fixedly provided with a supporting plate, the stepping motor 511 is fixedly arranged on the outer wall of the supporting plate, the first rotating rod 512 is fixedly arranged on the output end of the stepping motor 511, the top of the base 1 is symmetrically provided with two shaft seats, the first rotating rod 512 is inserted with the two shaft seats, the outer wall of the first rotating rod 512 is symmetrically provided with two first bevel gears 10, the two second rotating rods 513 are symmetrically arranged on the supporting plate, each second rotating rod 513 is rotatably connected with the supporting plate, the bottom of each second rotating rod 513 is sleeved with a second bevel gear 100, each first bevel gear 10 is meshed with one second bevel gear 100, each first bevel gear 10 is smaller than one second bevel gear 100, two second vertical plates are symmetrically arranged at two ends of the top of the base 1, a top plate 11 is fixedly arranged between the two vertical plates, the top of each second rotating rod 513 is hinged with the top plate 11, the lifting plate 510 is in threaded connection between the two second rotating rods 513, the stepping motor 511 is electrically connected with the controller 3, when the cloth is completely fixed, the controller 3 starts the stepping motor 511 to drive the first rotating rods 512 to rotate, the two first bevel gears 10 are in rotation with the first rotating rods 512 to drive the two first bevel gears 10 to rotate, the two second rotating rods 513 are in rotation design, each second bevel gear 100 is in design with one second rotating rod 513, each first bevel gear 10 is in meshing connection with one second bevel gear 100 to drive the two second rotating rods 513 to rotate, and the two ends of the lifting plate 510 are in threaded connection with the two second rotating rods 513 to drive the lifting plate 510 to descend to drive the cutter 50 to descend, until it is embedded inside the cloth.

The second pressing component 41 comprises a pushing cylinder 410, a second pressing plate 411 and two guide rods 412, the pushing cylinder 410 is vertically arranged on the outer wall of the top plate 11, the output end of the pushing cylinder 410 faces downwards vertically, the second pressing plate 411 is fixedly arranged at the output end of the pushing cylinder 410, the two guide rods 412 are symmetrically arranged at the top of the processing table 2, each guide rod 412 is inserted into the second pressing plate 411, a buffer spring 413 is sleeved on the outer wall of each guide rod 412, one end of the bottom of the second pressing plate 411 and one end of the top of the processing table 2 are respectively abutted against two ends of a buffer spring 413, the top of each guide rod 412 is fixedly provided with an anti-falling column, the pushing cylinder 410 is electrically connected with the controller 3, when the first pressing plate 401 presses one end of the cloth, the cloth is flattened manually, then the pushing cylinder 410 is started through the controller 3, therefore drive its output to stretch out to the one end that is close to processing platform 2 to drive second clamp plate 411 to stretch out to the one end that is close to processing platform 2, compress tightly the other end of cloth, and then thoroughly fix the cloth, so that cut out the side cut, two buffer spring 413 play the cushioning effect, prevent that second clamp plate 411 from pushing down too fast and crushing the cloth texture.

The bottom of the lifting plate 510 is fixedly provided with a first sliding table 514, the anti-deviation assembly 52 comprises a laser distance measuring sensor 520, a second sliding table 521 and an installation block 522, the second sliding table 521 is slidably arranged on the first sliding table 514, the installation block 522 is slidably arranged at the bottom of the second sliding table 521, the first sliding table 514 is perpendicular to the second sliding table 521, the inner wall of the installation block 522 is provided with a mounting groove, the cutter 50 is inserted into the mounting groove, the outer wall of one end, close to the mounting groove, of the cutter 50 is provided with a nesting 500 in a clamping manner, the laser distance measuring sensor 520 is fixedly arranged on the outer wall of the nesting 500, the output end of the laser distance measuring sensor 520 faces the second vertical plate, the laser distance measuring sensor 520 is electrically connected with the controller 3, after the cutter 50 is embedded into the cloth, the first sliding table 514 is started through the controller 3, so as to drive the second sliding, namely, the cutter 50 on the second sliding table 521 is driven to longitudinally slide to cut the cloth, and in the process of cutting and trimming the cloth, the cutter 50 is easily deviated by external factors such as the texture of the cloth, and the pressing position of the second pressing plate 411 is located beside the avoiding groove, so that when the second pressing plate 411 presses the cloth, the second pressing plate 411 can be used as a collimation line, as long as the distance between the laser ranging sensor 520 on the cutter 50 and the second pressing plate 411 is constant, that is, the cutting line is not deviated, at this time, the laser ranging sensor 520 is started through the controller 3, the distance standard value from the cutter 50 to the second pressing plate 411 is preset in the controller 3, when the distance between the laser ranging sensor 520 and the second pressing plate 411 is detected to be inconsistent with the preset value, that is, that the cutter 50 is deviated, the cutting line is changed, at this time, the second sliding table 521 is started through the controller 3, so as to drive the cutter 50 on the mounting block 522 to transversely slide, laser rangefinder sensor 520 real-time detection cutter 50 and second clamp plate 411's distance, when the distance that detects cutter 50 and second clamp plate 411 is unanimous with the default, it resumes normally to show cutter 50 circuit promptly, at this moment, through 3 outage second slip table 521 of controller, stop cutter 50's slip, compare in prior art, can cut out the processing at actual cloth, can cut out the side cut route in the discovery and walk partially, in time effectively adjust cutter 50 cut out the position, resume normally with the assurance route of cutting out, and then guarantee cloth sectional regularity and integrity, guarantee to cut out evenly, avoid extravagant, not only promote the processingquality and the finished product quality of cloth, further promoted the practicality of this device.

The screening assembly 61 comprises a collecting box 610 and a filtering basket 611, the collecting box 610 is slidably arranged on the outer wall of the processing table 2, the filtering basket 611 is inserted into the collecting box 610, a plurality of filtering holes only allowing dust to pass through are formed in the filtering basket 611, a glass observation window 612 and a groove digging portion are further formed in the outer wall of the collecting box 610, an avoiding groove allowing the cutter 50 to cut is formed in one end, close to the top of the second pressing plate 411, of the processing table 2, a blanking port 20 is formed in one end, close to the collecting box 610, of the avoiding groove, a feeding slide way 200 communicated with the blanking port 20 is formed in the inner wall of the processing table 2, the feeding slide way 200 is communicated with the collecting box 610, and after debris and dust generated during cloth cutting are pushed into the collecting box 610 through the feeding slide way 20, the plurality of filtering holes only allow dust to pass through, so that the debris and dust can be screened and separated, and the piece is stored to the inside of filtering basket 611, and the piece has the value of reutilization, and the dust then falls into the bottom of collecting box 610, and glass observation window 612 is used for observing the storage condition, when filling up, can pull out collecting box 610 through digging the groove, carries out its inside clearance.

The mounting panel is close to and is equipped with four first connecting blocks on the one end outer wall of commentaries on classics board 402, all fixes being equipped with dead lever 405 between per two first connecting blocks, it is provided with four second connecting blocks to be the symmetry on the outer wall of commentaries on classics board 402, all fix being equipped with movable rod 406 between per two second connecting blocks, all overlap between every dead lever 405 and a movable rod 406 and be equipped with extension spring 407, when first clamp plate 401 compresses tightly the one end of cloth, two extension springs 407 extend, play the cushioning effect, guarantee not crushing the texture of cloth when compressing tightly, play the guard action, and after tailorring, two extension springs 407 reset, thereby drive first clamp plate 401 and reset, so that next time to compressing tightly of cloth.

Sliding on first slip table 514 and being provided with connecting rod 515, the fixed elastic rod 516 that is equipped with in bottom of connecting rod 515, the fixed bottom of establishing at elastic rod 516 of cleaning brush 60, when cutter 50 cuts the cloth, first slip table 514 drives connecting rod 515 longitudinal sliding to piece and the dust that produces when will cutting the cloth through cleaning brush 60 are to the one end propelling movement that is close to collection box 610, and elastic rod 516 provides buffer function for cleaning brush 60, in order to satisfy the clearance requirement of the cloth of different thickness.

Processing platform 2 is close to the one end of clearance brush 60 and is the symmetry and is provided with two slide rails, and the inside of every slide rail all slides and is provided with the slider, fixedly connected with protection casing 21 between two sliders, the one end that protection casing 21 is close to and dodges the groove is equipped with the opening to the fixed push handle 210 that is equipped with on the outer wall of protection casing 21, is cut the back at unnecessary cloth, through pushing away the 210 pull out protection casing 21 to the one end of keeping away from cutter 50, thereby take away the cloth of cutting off through the manual work, protection casing 21 can shelter from the dust that produces when cutting off simultaneously, plays dustproof effect.

s1: fixing the cloth:

the cloth is put on the processing table 2, one end of the cloth is arranged at the oblique lower part of the first press plate 401, then the long shaft cylinder 400 is started through the controller 3, so that the output end of the long shaft cylinder extends out, the rotating plate 402 on the output end of the long shaft cylinder is driven to rotate towards one end close to the processing table 2 by taking the mounting plate as the circle center, the rotating plate 402 is fixedly connected with the first press plate 401, the first press plate 401 is driven to rotate towards one end close to the processing table 2 until the first press plate 401 presses one end of the cloth tightly, the protective pad 404 made of soft silica gel can prevent the cloth from being crushed and play a protective role, compared with the prior art, the point contact pressing structure is changed into a plate contact pressing structure, the cloth can be better pressed, the cloth is prevented from shaking or falling off during cutting, the cutting efficiency is improved, when the first press plate 401 presses one end of the cloth, two extension springs 407 extend, play the cushioning effect, guarantee not crushing the texture of cloth when compressing tightly, play the guard action, and when tailorring the end, two extension springs 407 reset to drive first clamp plate 401 and reset, so that compress tightly the cloth next time

When the one end of cloth is compressed tightly at first clamp plate 401, smooth the cloth through the manual work, then start propelling movement cylinder 410 through controller 3, therefore drive its output to the one end that is close to processing platform 2 and stretch out, thereby drive second clamp plate 411 to the one end that is close to processing platform 2 and stretch out, compress tightly the other end of cloth, and then thoroughly fix the cloth, so that tailor the side cut, two buffer spring 413 play the cushioning effect, prevent that second clamp plate 411 from pushing down too fast and crushing the cloth texture.

S2: cutting and trimming the cloth:

after the cloth is completely fixed, the controller 3 starts the stepping motor 511, so as to drive the first rotating rod 512 to rotate, and because the two first bevel gears 10 and the first rotating rod 512 rotate, thereby driving the two first bevel gears 10 to rotate, and because the two second rotating rods 513 are designed to rotate, each second bevel gear 100 is designed to be connected with one second rotating rod 513, each first bevel gear 10 is connected with one second bevel gear 100 in a meshing manner, thereby driving the two second rotating rods 513 to rotate, and because the two ends of the lifting plate 510 are in threaded connection with the two second rotating rods 513, thereby driving the lifting plate 510 to descend, thereby driving the cutter 50 to descend until the cutter is embedded into the cloth, after the cutter 50 is embedded into the fabric, the controller 3 starts the first sliding table 514 to drive the second sliding table 521 to longitudinally slide, that is, drive the cutter 50 on the second sliding table 521 to longitudinally slide, so as to cut the fabric.

in the process of cutting and trimming the fabric, the cutter 50 is prone to deviation caused by external factors such as fabric texture, and because the pressing position of the second pressing plate 411 is located beside the avoiding groove, when the second pressing plate 411 presses the fabric, the second pressing plate 411 can be used as a guideline, as long as the distance between the laser distance measuring sensor 520 on the cutter 50 and the second pressing plate 411 is constant, that is, the cutting line is not deviated, at this time, the laser distance measuring sensor 520 is started through the controller 3, the distance standard value from the cutter 50 to the second pressing plate 411 is preset in the controller 3, when the distance between the laser distance measuring sensor 520 and the second pressing plate 411 is detected to be inconsistent with the preset value, that is, the cutter 50 is deviated, the cutting route is changed, at this time, the second sliding table 521 is started through the controller 3, so that the cutter 50 on the mounting block 522 is driven to slide transversely, the laser distance measuring sensor 520 detects the distance between the cutter 50 and the second pressing plate 411 in real, when the distance that detects cutter 50 and second clamp plate 411 is unanimous with the default, it resumes normally to show cutter 50 circuit promptly, at this moment, through 3 outage second slip table 521 of controller, stop 50 slides of cutter, compare in prior art, can cut out the processing at actual cloth, can cut out the side cut route in the discovery and walk when inclined to one side, in time effectively adjust 50 the position of cutting out of cutter, resume normally in order to guarantee to cut out the route, and then guarantee cloth sectional regularity and completeness, guarantee to cut out evenly, avoid extravagant, not only promote the processingquality and the finished product quality of cloth, further promoted this device's practicality. S4: screening treatment of cloth scraps and dust:

when the cutter 50 cuts the cloth, the first sliding table 514 drives the connecting rod 515 to slide longitudinally, so that the scraps and dust generated during cutting the cloth are pushed to one end close to the collecting box 610 by the cleaning brush 60, the elastic rod 516 provides a buffering function for the cleaning brush 60 to meet the cleaning requirements of the cloth with different thicknesses, after the scraps and dust generated during cutting the cloth are pushed into the collecting box 610 from the blanking port 20 through the feeding slideway 200, the plurality of filtering holes only allow the dust to pass through, so that the scraps and dust can be screened and separated, the scraps are stored in the filtering basket 611, the scraps have a secondary utilization value, the dust falls into the bottom of the collecting box 610, the mixing of the scraps and the dust is avoided to the greatest extent, the subsequent processing is facilitated, the glass observation window 612 is used for observing the storage condition, when the cloth is full, the collecting box 610 can be drawn out through the digging groove, the inside of the container is cleaned.

The working principle of the invention is as follows: when the cloth is cut and trimmed, firstly, the cloth is put on the processing table 2, one end of the cloth is arranged at the oblique lower part of the first pressing plate 401, then the long shaft cylinder 400 is started through the controller 3, so that the output end of the long shaft cylinder extends out, the rotating plate 402 at the output end of the long shaft cylinder is driven to rotate towards one end close to the processing table 2 by taking the mounting plate as the circle center, the rotating plate 402 is fixedly connected with the first pressing plate 401, so that the first pressing plate 401 is driven to rotate towards one end close to the processing table 2 until the first pressing plate 401 presses one end of the cloth tightly, the protective pad 404 made of soft silica gel can prevent the texture of the cloth from being crushed and play a protective role, compared with the prior art, the point contact pressing structure is changed into the plate contact pressing structure, the cloth can be better pressed tightly, so that the cloth is prevented from shaking or falling off during cutting, and the cutting efficiency is improved, when first clamp plate 401 compresses tightly the one end of cloth, two extension springs 407 extend, play the cushioning effect, guarantee not crushing the texture of cloth when compressing tightly, play the guard action, and when tailorring the end, two extension springs 407 reset to drive first clamp plate 401 and reset, so that compress tightly the cloth next time

When first clamp plate 401 compresses tightly the one end of cloth, smooths the cloth through the manual work, then starts propelling movement cylinder 410 through controller 3, therefore drive its output to stretching out to the one end that is close to processing platform 2, thereby drive second clamp plate 411 to stretching out to the one end that is close to processing platform 2, compress tightly the other end of cloth, and then thoroughly fix the cloth, so that tailor the side cut, two buffer spring 413 play the cushioning effect, prevent that second clamp plate 411 from pushing down too fast and crushing the cloth texture.

After the cloth is completely fixed, the controller 3 starts the stepping motor 511 to drive the first rotating rod 512 to rotate, the two first bevel gears 10 are both rotated with the first rotating rod 512 to drive the two first bevel gears 10 to rotate, the two second rotating rods 513 are rotatably designed, each second bevel gear 100 is designed with one second rotating rod 513, each first bevel gear 10 is engaged with one second bevel gear 100 to drive the two second rotating rods 513 to rotate, the two ends of the lifting plate 510 are in threaded connection with the two second rotating rods 513 to drive the lifting plate 510 to descend to drive the cutter 50 to descend until the cutter 50 is embedded into the cloth, after the cutter 50 is embedded into the cloth, the controller 3 starts the first sliding table 514 to drive the second sliding table 521 to longitudinally slide, namely, the cutter 50 on the second sliding table 521 is longitudinally slide, and cutting the cloth.

In the process of cutting and trimming the fabric, the cutter 50 is prone to deviation caused by external factors such as fabric texture, and because the pressing position of the second pressing plate 411 is located beside the avoiding groove, when the second pressing plate 411 presses the fabric, the second pressing plate 411 can be used as a guideline, as long as the distance between the laser distance measuring sensor 520 on the cutter 50 and the second pressing plate 411 is constant, that is, the cutting line is not deviated, at this time, the laser distance measuring sensor 520 is started through the controller 3, the distance standard value from the cutter 50 to the second pressing plate 411 is preset in the controller 3, when the distance between the laser distance measuring sensor 520 and the second pressing plate 411 is detected to be inconsistent with the preset value, that is, the cutter 50 is deviated, the cutting route is changed, at this time, the second sliding table 521 is started through the controller 3, so that the cutter 50 on the mounting block 522 is driven to slide transversely, the laser distance measuring sensor 520 detects the distance between the cutter 50 and the second pressing plate 411 in real, when the distance that detects cutter 50 and second clamp plate 411 is unanimous with the default, it resumes normally to show cutter 50 circuit promptly, at this moment, through 3 outage second slip table 521 of controller, stop 50 slides of cutter, compare in prior art, can cut out the processing at actual cloth, can cut out the side cut route in the discovery and walk when inclined to one side, in time effectively adjust 50 the position of cutting out of cutter, resume normally in order to guarantee to cut out the route, and then guarantee cloth sectional regularity and completeness, guarantee to cut out evenly, avoid extravagant, not only promote the processingquality and the finished product quality of cloth, further promoted this device's practicality. When the cutter 50 cuts the cloth, the first sliding table 514 drives the connecting rod 515 to slide longitudinally, so that the scraps and dust generated during cutting the cloth are pushed to one end close to the collecting box 610 by the cleaning brush 60, the elastic rod 516 provides a buffering function for the cleaning brush 60 to meet the cleaning requirements of the cloth with different thicknesses, after the scraps and dust generated during cutting the cloth are pushed into the collecting box 610 from the blanking port 20 through the feeding slideway 200, the plurality of filtering holes only allow the dust to pass through, so that the scraps and dust can be screened and separated, the scraps are stored in the filtering basket 611, the scraps have a secondary utilization value, the dust falls into the bottom of the collecting box 610, the mixing of the scraps and the dust is avoided to the greatest extent, the subsequent processing is facilitated, the glass observation window 612 is used for observing the storage condition, when the cloth is full, the collecting box 610 can be drawn out through the digging groove, the inside of the container is cleaned.

After unnecessary cloth is cut off, pull out protection casing 21 to the one end of keeping away from cutter 50 through pushing away handle 210 to take away the cloth of cutting off through the manual work, protection casing 21 can shelter from the dust that produces when cutting simultaneously, plays dustproof effect.

Claims

1. A method of an automatic cutting and trimming device for cloth processing comprises the following steps:

s1: fixing the cloth:

the cloth is put on a processing table (2), one end of the cloth is arranged at the oblique lower part of a first pressing plate (401), then a long shaft cylinder (400) is started through a controller (3), so that the output end of the long shaft cylinder extends out, a rotating plate (402) on the output end of the long shaft cylinder is driven to rotate towards one end close to the processing table (2) by taking a mounting plate as a circle center, the rotating plate (402) is fixedly connected with the first pressing plate (401), so that the first pressing plate (401) is driven to rotate towards one end close to the processing table (2) until the first pressing plate (401) presses one end of the cloth tightly, a protective pad (404) made of soft silica gel can prevent the cloth from being crushed and play a protective role, compared with the prior art, a point contact pressing structure is changed into a plate contact pressing structure, the cloth can be better pressed, and the cloth is prevented from shaking or falling off during cutting, be favorable to promoting to tailor efficiency, when first clamp plate (401) compressed tightly the one end of cloth, two extension springs (407) extend, play the cushioning effect, guarantee not crushing the texture of cloth when compressing tightly, play the guard action, and when tailorring the end, two extension springs (407) reset to drive first clamp plate (401) and reset, so that compress tightly the cloth next time.

2. The method of operation of claim 1, wherein: the method also comprises the following steps: further, when first clamp plate (401) compresses tightly the one end of cloth, smooth the cloth through the manual work, then start propelling movement cylinder (410) through controller (3), therefore drive its output and stretch out to the one end that is close to processing platform (2), thereby drive second clamp plate (411) and stretch out to the one end that is close to processing platform (2), compress tightly the other end of cloth, and then thoroughly fix the cloth, so that cut out the side cut, two buffer spring (413) play the cushioning effect, prevent that second clamp plate (411) from pushing down too fast and crushing the cloth texture.

3. The operating method according to claim 1 or 2, characterized in that: further comprising the steps of:

s2: cutting and trimming the cloth:

after the cloth is completely fixed, the controller (3) starts the stepping motor (511), so that the first rotating rod (512) is driven to rotate, the two first bevel gears (10) are both rotated with the first rotating rod (512), so that the two first bevel gears (10) are driven to rotate, the two second rotating rods (513) are rotatably designed, each second bevel gear (100) is designed with one second rotating rod (513), each first bevel gear (10) is meshed and connected with one second bevel gear (100), so that the two second rotating rods (513) are driven to rotate, the two ends of the lifting plate (510) are in threaded connection with the two second rotating rods (513), so that the lifting plate (510) is driven to descend, so that the cutter (50) is driven to descend until the cutter is embedded into the cloth, after the cutter (50) is embedded into the cloth, the controller (3) starts the first sliding table (514), thereby driving the second sliding table (521) to longitudinally slide, namely driving the cutter (50) on the second sliding table (521) to longitudinally slide, and cutting the cloth.

4. The method of operation of claim 3, wherein: further comprising the steps of:

in the process of cutting and trimming the cloth, the cutter (50) is easy to deviate due to external factors such as the texture of the cloth, and the pressing position of the second pressing plate (411) is positioned at the side of the avoidance groove, so when the cutter presses the cloth, the second pressing plate (411) can be used as a guideline, as long as the distance between the laser ranging sensor (520) on the cutter (50) and the second pressing plate (411) is constant, namely the cutting line does not deviate, at the moment, the laser ranging sensor (520) is started through the controller (3), the distance standard value from the cutter (50) to the second pressing plate (411) is preset in the controller (3), when the distance between the laser ranging sensor (520) and the second pressing plate (411) is detected to be inconsistent with the preset value, namely the cutter (50) deviates, the cutting line is changed, at the moment, the second sliding table (521) is started through the controller (3), thereby cutter (50) lateral sliding on drive installation piece (522), laser rangefinder sensor (520) real-time detection cutter (50) and second clamp plate (411)'s distance, when detecting that the distance of cutter (50) and second clamp plate (411) is unanimous with the default, indicate cutter (50) circuit to resume normal promptly, at this moment, through controller (3) outage second slip table (521), stop the slip of cutter (50), compare in prior art, can cut out the processing at the actual cloth, can cut out when cutting edge route is wandering away partially in the discovery, in time effectively adjust the position of cutting of cutter (50), resume normally in order to guarantee to cut out the route, and then guarantee the sectional regularity and the integrity of cloth, guarantee to cut out evenly.

5. The method of operation of claim 4, wherein: further comprising the steps of: s4: screening treatment of cloth scraps and dust:

when the cutter (50) cuts the cloth, the first sliding table (514) drives the connecting rod (515) to longitudinally slide, so that scraps and dust generated during cloth cutting are pushed to one end close to the collecting box (610) through the cleaning brush (60), the elastic rod (516) provides a buffer function for the cleaning brush (60) to meet the cleaning requirements of the cloth with different thicknesses, after the scraps and dust generated during cloth cutting are pushed into the collecting box (610) from the blanking port (20) through the feeding slideway (200), the plurality of filter holes can screen and separate the scraps and the dust only by allowing the dust to pass through, the scraps are stored in the filtering basket (611), the scraps have a secondary utilization value, the dust falls into the bottom of the collecting box (610), the mixing of the scraps and the dust is avoided to the greatest extent, the subsequent treatment is facilitated, the glass observation window (612) is used for observing the storage condition, when full, the collecting box (610) can be drawn out through the digging groove to clean the inside of the collecting box.