CN111778706A - Cutting bed cloth is led with integral type and is sent device of tailorring - Google Patents

Abstract

The invention discloses an integrated guide-feeding cutting device for fabric of a cutting bed, which comprises a cutting table, a feeding structure, a cutting structure and a pressing structure, wherein the feeding structure is arranged at one end of the cutting table, the pressing structure is arranged at the other end of the cutting table, a horizontal sliding rod is horizontally welded on the front side end face and the rear side end face of the cutting table, a stretching cylinder is horizontally welded on one side of the front side end face and the rear side end face of the cutting table, the cutting structure is arranged right above the cutting table, and the cutting table and the cutting structure are connected in a sliding fit manner. The cloth pressing and stretching device can conveniently press, stretch, level and stack multiple layers of cloth, so that poor cutting precision caused by cloth wrinkles during cutting is avoided, meanwhile, the cloth with punched patterns can be pressed, the cloth is prevented from being possibly clamped between punching and cutting knives, the next punching is influenced, and the working efficiency is improved.

Description

Cutting bed cloth is led with integral type and is sent device of tailorring

Technical Field

The invention relates to the technical field of cloth cutting, in particular to an integrated guide feeding cutting device for cutting bed cloth.

Background

Cutting bed mainly includes tailoring table, blade holder, knife rest, operating panel and vacuum getter device, and current to tailoring, often need cut the cloth, cuts into the cloth strip of appointed size through cutting the processing cloth, realizes the processing of clothing.

When the existing cutting bed cuts cloth, the cloth needs to be overlapped layer by layer to facilitate the overall cutting of the cloth, in the overlapping process of the cloth, in order to prevent the cloth from shrinking, one end of the cloth needs to be fixed, the existing fixing mode generally adopts an object with certain weight to be pressed firmly, the stability of the mode is not high, but the cloth still can shrink to a certain degree in the pressing process to cause the end surface of the cloth to be irregular, the arrangement is troublesome, certain resource waste is caused, in addition, the existing cutting bed working mode is that an operator puts a plurality of cloth on a working table surface of the cutting bed in order, then a cutting die moves towards the cloth to perform the cutting under the driving of a hydraulic device, because the cutting die is composed of a plurality of cutting knives, when the cutting of the cutting die is finished and lifted, because the cutting pattern is separated from a main body, partial punched cloth can be clamped between the cutting knives, thereby affecting the next blanking.

Consequently need a cutting bed cloth to lead with integral type and send device of tailorring, can conveniently press and hold tensile flattening superimposed multilayer cloth to cloth fold leads to the precision of tailorring not good when avoiding tailorring, can press the cloth of holding the blanking pattern simultaneously, avoids the cloth can probably block between the punching and cutting sword, thereby influences blanking next time, improves work efficiency.

Disclosure of Invention

The invention aims to provide an integrated guide and cutting device for fabric of a cutting bed, and aims to solve the problems that the cutting precision is poor due to fabric wrinkles when the fabric is cut by the existing cutting bed, and the fabric can be clamped between punching cutters, so that the cutting efficiency is reduced due to the influence of the next punching.

The invention is realized by the following steps:

the utility model provides a device of tailorring is led to send with integral type to cutting bed cloth, includes tailoring table, feed structure, tailors the structure and presses and hold the structure, and tailoring table's one end is provided with feed structure, and tailoring table's the other end is provided with presses and holds the structure, and the horizontal sliding rod that welds on tailoring table's the front and back side end face, and tailoring table's front and back side end face one side horizontal welding has tensile cylinder, is provided with directly over tailoring table and tailors the structure, and tailoring table and tailors structure sliding fit and be connected.

Further, the material loading structure comprises a material loading frame, a frame box and a coil material structure, the material loading frame is symmetrically and horizontally welded on one end face of the cutting table, the frame box is welded on the top face of the material loading frame in a symmetrical and horizontal mode, one side of the cutting table is far away from the top face of the material loading frame, a plurality of connecting rods are welded in the horizontal mode inside the frame box, and the height of one side of the frame box, which faces the cutting table, is sequentially and uniformly reduced and the coil material structure is vertically installed.

And then the last work or material rest symmetry level welding through material loading structure is on a tailoring table terminal surface, and the vertical symmetrical level welding in one side of keeping away from the tailoring table has the frame case on the top surface of last work or material rest, the inside horizontal welding of frame case has a plurality of connecting rod, and evenly reduce high vertical a plurality of coil stock structure of installing in proper order towards one side of tailoring table directly over the frame case to make things convenient for the multilayer cloth to evenly place according to the stack order and evenly reducing high vertical a plurality of coil stock structure of installing in proper order, the convenience of being convenient for the later stage to put more.

Further, the coil stock structure includes extension board and coil stock pole, the bottom horizontal welding of extension board have with connecting rod sliding fit even a section of thick bamboo, and the extension board front end face bottom is connected on the inner wall of frame case through level welded pressure spring, the top level of extension board runs through and installs the bearing, and the inner circle level of bearing runs through and installs spacing sleeve, coil stock pole level sets up between the extension board that vertical symmetry set up, and the both ends horizontal welding of coil stock pole has the spacing groove post with spacing grafting of spacing sleeve.

And then have a section of thick bamboo even with connecting rod sliding fit through the horizontal welding of the bottom of extension board, and the extension board front end face bottom is connected on the inner wall of frame case through horizontal welded pressure spring, thereby it is fairly close to press the extension board of holding relative setting, be convenient for adapt to the coil stock pole of different length, then utilize coil stock pole level to set up between the extension board that vertical symmetry set up, and the both ends horizontal welding of coil stock pole has the spacing groove post with the spacing grafting of spacing sleeve, be convenient for spacing installation coil stock pole, be convenient for disassemble the change.

Further, the symmetrical horizontal welding of one side that is close to the tailoring platform on the top surface of going up the work or material rest has the revolving rack, and the revolving rack evenly reduces high vertical a plurality of installing in proper order towards one side of tailoring platform, and the level is provided with the guide roller between the revolving rack, and the guide roller both ends pivot passes through the bearing and rotates and install at the revolving rack top.

And then evenly reduce high vertical a plurality of installing in proper order through the revolving rack towards one side of tailoring platform, the level is provided with the guide roller between the revolving rack, and the guide roller both ends pivot passes through the bearing and rotates and install at the revolving rack top to downward cloth in proper order, the tailoring platform of the cloth laminating of being convenient for reduces the clearance.

Further, tailor the structure including removing the frame, crane and cutting structure, remove the vertical symmetry of frame and set up two, and remove the bottom slidable mounting of frame on the horizontal slide bar on the side end face around tailoring table, on removing the top surface of frame vertically be fixed with the crane, and remove a side end face of frame and tailor bench stretch cylinder output and be connected, the level is provided with cutting structure between the crane, and the both ends and the crane sliding fit of cutting structure are connected, and vertical welding has the pressure to hold the cylinder on the top surface of crane.

And then vertically on the top surface through removing the frame be fixed with the crane, and remove a side end face of frame and tailor the bench stretch cylinder output and be connected, the level is provided with the cutting structure between the crane, and the both ends of cutting structure are connected with crane sliding fit, and vertical welding has the pressure to hold the cylinder on the top surface of crane, makes things convenient for the later stage to drive the cutting structure according to tailorring needs and carries out the horizontal migration change and tailor the position.

Further, the cutting structure includes lifter plate, chute board and slider, and the vertical symmetry horizontal sliding of lifter plate installs on the crane, and the horizontal welding has the chute board between the lifter plate, and the spout has been seted up to vertical running through on the chute board, and slidable mounting has the slider in the spout on the chute board, and the top surface of chute board is improved level and is fixed with the answer cylinder, and the one end of answering the cylinder is fixed at the top of slider, and the bottom horizontal welding of slider has the blade holder.

And then have seted up the spout through vertical running through on the spout board, and slidable mounting has the slider in the spout on the spout board, and the top surface of spout board is improved level and is fixed with the answer cylinder, and the one end of answering the cylinder is fixed at the top of slider, and the bottom horizontal welding of slider has the blade holder, and the later stage of being convenient for is tailor and need transversely change the position of tailorring under the answer cylinder drives.

Furthermore, the lifting plates at the two ends of the sliding groove plate are connected with the output end of the pressing cylinder on the lifting frame, guide cylinders are symmetrically arranged on the end faces of the two sides of the sliding groove plate, the guide cylinders vertically slide to penetrate through the pressing frame provided with the U-shaped structure, a telescopic rod is vertically fixed on the bottom surface of the horizontal plane on the upper portion of the pressing frame, and the bottom end of the telescopic rod is welded on the top surface of the sliding groove plate.

And then the lifter plates through the both ends of the sliding chute plate are connected with the output end of the pressing cylinder on the lifting frame, the guide cylinders are symmetrically arranged on the end surfaces of the two sides of the sliding chute plate, the guide cylinders vertically slide to penetrate through the pressing frame provided with the U-shaped structure, the telescopic rod is vertically fixed on the horizontal plane bottom surface of the upper part of the pressing frame, and the bottom end of the telescopic rod is welded on the top surface of the sliding chute plate, thereby overcoming the problem that the existing cutting die cutting bed is in a working mode that an operator neatly stacks a plurality of cloth materials on the working table surface of the cutting bed, then the cutting die moves towards the cloth under the driving of a hydraulic device to perform blanking, because the cutting die is composed of a plurality of blanking knives, when the blanking of the cutting die is completed and lifted, because the blanking patterns are separated from the main body, the cloth materials which are partially blanked can be possibly.

Further, the movable frame is close to one end horizontal welding of material loading structure and has the jack board, and the level is provided with the inserted sheet board directly over the jack board, and the vertical welding in the both ends of the bottom surface of the inserted sheet board has the inserted bar, and the inserted bar slides vertically and runs through the jack board, and the inserted bar top cover is equipped with the pull-down spring, and both ends weld respectively on the top surface of the bottom surface of the inserted sheet board and jack board about the pull-down spring.

And then through moving the one end horizontal welding that the frame is close to the feed structure there is the jack board, and the level is provided with the doctor-blade directly over the jack board, and the vertical welding in doctor-blade bottom surface both ends has the inserted bar, the vertical slip of inserted bar runs through the jack board, and the inserted bar top cover is equipped with drop-down spring, and both ends weld respectively on the top surface of doctor-blade bottom surface and jack board about the drop-down spring, through following the structure of tailorring at the bench horizontal migration, the cloth is spread to the doctor-blade level under the effect of drop-down spring, thereby guarantee the planarization of later stage cloth.

Furthermore, the pressing structure comprises a lower pressing plate and an upper pressing plate, the lower pressing plate is horizontally welded on the side end face of the cutting table, the upper pressing plate is horizontally arranged right above the lower pressing plate, positioning hole plates are welded on the front side end face and the rear side end face of the lower pressing plate, and screw hole plates are horizontally welded in the middle of the side end face of the lower pressing plate far away from the cutting table.

And then through pressing the horizontal welding of holding structure lower pressing plate on the side end face of tailoring table, and the level is provided with the top board directly over the lower pressing plate, the welding of the front and back side end face of lower pressing plate has the locating hole board, and the horizontal welding of the side end face middle part that the tailoring table was kept away from to the lower pressing plate has the spiral shell board, be convenient for lower pressing plate and top board press and hold the cloth, thereby effectively avoided the stack in-process of cloth, for preventing that the cloth from appearing the shrink phenomenon, the one end of cloth need be fixed, current fixed mode generally all adopts the object that has certain weight to press firmly, the not high problem of stability of this kind of mode.

Furthermore, positioning rods are vertically welded on the front side end face and the rear side end face of the upper pressing plate, the positioning rods are vertically and slidably mounted in a positioning hole plate of the lower pressing plate, a bearing seat is fixed in the middle of the side end face, far away from the cutting table, of the upper pressing plate, an adjusting screw is vertically and rotatably mounted in the bearing seat, and the adjusting screw is mounted in the screw hole plate in a threaded mode.

And then the side end face middle part of keeping away from the tailoring table through the top board is fixed with the bearing frame, and vertical rotation installs adjusting screw in the bearing frame, and adjusting screw thread installs in the screw hole board to it is more stable firm to guarantee that later stage pressure holds the cloth.

Compared with the prior art, the invention has the beneficial effects that: the invention

(1) The feeding frame of the feeding structure is symmetrically and horizontally welded on one end face of the cutting table, a frame box is vertically and symmetrically welded on one side of the top face of the feeding frame, which is far away from the cutting table, a plurality of connecting rods are horizontally welded inside the frame box, a plurality of coil structures are vertically and sequentially and uniformly reduced in height and are vertically installed right above the frame box towards one side of the cutting table, so that multilayer cloth can be conveniently and uniformly placed in a stacking sequence, a plurality of coil structures are vertically and sequentially and uniformly reduced in height and are vertically installed, later-stage placement is more convenient, an inserting hole plate is horizontally welded at one end, close to the feeding structure, of the moving frame, a scraping plate is horizontally arranged right above the inserting hole plate, inserting rods are vertically welded at two ends of the bottom face of the scraping plate, the inserting rods vertically slide to penetrate through the inserting hole plate, pull-down springs are sleeved at the tops of the inserting rods, and the upper, through following and tailor structure at tailoring bench horizontal migration, the cloth is spread out to the scraper plate level under the effect of pulldown spring to guarantee the planarization of later stage cloth, overcome the cloth and still can produce certain shrink, lead to the terminal surface of cloth untidy, the arrangement is comparatively troublesome, causes certain wasting of resources's problem.

(2) The utility model discloses a cloth of tailorring, the structure is held to pressure lower clamp plate horizontal welding is on the side end face of tailorring, and the level is provided with the top board directly over the bottom board, the front and back side end face welding of bottom board has the locating hole board, and the bottom board keeps away from the side end face middle part horizontal welding of tailorring the platform has the spiral shell board, the cloth is held to the bottom board and the top board pressure of being convenient for, thereby effectively avoided the stack in-process of cloth, for preventing the cloth shrink phenomenon from appearing, the one end of cloth need be fixed, the object that has certain weight is generally all adopted to current fixed mode is pressed firmly.

(3) The lifter plates at the two ends of the sliding groove plate are connected with the output end of the pressing cylinder on the lifting frame, guide cylinders are symmetrically arranged on the end faces of the two sides of the sliding groove plate, the guide cylinders vertically slide to penetrate through the pressing frame provided with the U-shaped structure, a telescopic rod is vertically fixed on the horizontal plane bottom surface of the upper portion of the pressing frame, the bottom end of the telescopic rod is welded on the top surface of the sliding groove plate, and therefore the problem that when the existing cutting die cutting bed works, operating personnel tidily stack a plurality of cloth materials on the working table surface of the cutting bed, then the cutting die moves towards the cloth under the driving of a hydraulic device to perform blanking is solved.

Drawings

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

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

FIG. 2 is a schematic view of an exploded structure of the present invention;

FIG. 3 is a schematic structural diagram of a loading structure in an embodiment of the present invention;

FIG. 4 is a schematic diagram of the structure of a roll-to-roll configuration in an embodiment of the present invention;

FIG. 5 is a schematic diagram of a cutting table according to an embodiment of the present invention;

FIG. 6 is an exploded view of a clipping structure according to an embodiment of the present invention;

FIG. 7 is a schematic diagram of a cutting structure in an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a pressing structure in an embodiment of the present invention.

In the figure: 1. a cutting table; 11. a horizontal sliding bar; 12. stretching the cylinder; 2. a feeding structure; 21. a feeding frame; 22. a frame box; 221. a connecting rod; 23. a material rolling structure; 231. a support plate; 232. connecting the cylinders; 233. a compression spring; 234. a bearing; 235. a limiting sleeve; 236. a coiling rod; 237. a limiting groove column; 24. rotating the frame; 25. a material guide roller; 3. cutting the structure; 31. a movable frame; 32. a lifting frame; 33. a pressure holding cylinder; 34. cutting the structure; 341. a lifting plate; 342. a chute plate; 343. a slider; 344. a tool apron; 345. a recovery cylinder; 346. a guide cylinder; 347. pressing a frame; 348. a telescopic rod; 35. a jack plate; 36. scraping the plate; 361. inserting a rod; 362. a pull-down spring; 4. a pressing structure; 41. a lower pressing plate; 411. positioning the orifice plate; 412. a screw hole plate; 42. an upper pressure plate; 421. positioning a rod; 422. a bearing seat; 43. adjusting the screw rod.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7 and fig. 8, an integrated guiding and feeding cutting device for fabric of cutting bed comprises a cutting table 1, a feeding structure 2, a cutting structure 3 and a pressing structure 4, wherein the feeding structure 2 is arranged at one end of the cutting table 1, the pressing structure 4 is arranged at the other end of the cutting table 1, horizontal sliding rods 11 are horizontally welded on the front and rear end faces of the cutting table 1, a stretching cylinder 12 is horizontally welded on one side of the front and rear end faces of the cutting table 1, the cutting structure 3 is arranged right above the cutting table 1, and the cutting table 1 and the cutting structure 3 are connected in a sliding fit manner.

When the integrated guiding and cutting device for the fabric of the cutting bed is used for guiding, conveying and cutting the fabric, a feeding structure 2 is arranged at one end of a cutting table 1, a pressing and holding structure 4 is arranged at the other end of the cutting table 1, a horizontal sliding rod 11 is horizontally welded on the front side end face and the rear side end face of the cutting table 1, a stretching cylinder 12 is horizontally welded on one side of the front side end face and the rear side end face of the cutting table 1, a cutting structure 3 is arranged right above the cutting table 1, the cutting table 1 is connected with the cutting structure 3 in a sliding fit manner, the fabric is stretched on the cutting table 1 through the feeding structure 2 and then passes through the cutting structure 3 and is pressed on the cutting table 1 by the pressing and holding structure 4, so that the fabric is cut, the fabric is symmetrically and horizontally welded on one end face of the cutting table 1 through a feeding frame 21 of the feeding structure 2, and a horizontal frame box 22 is vertically and symmetrically welded, a plurality of connecting rods 221 are horizontally welded in the frame box 22, a plurality of coil structures 23 are vertically and sequentially and uniformly reduced in height and are vertically installed right above the frame box 22 towards one side of the cutting table 1, so that multilayer cloth can be conveniently and uniformly placed on the coil structures 23 sequentially and uniformly reduced in height according to a stacking sequence, later-stage placement is more convenient, an inserting plate 35 is horizontally welded at one end of a moving frame 31 close to a feeding structure 2, a scraping plate 36 is horizontally arranged right above the inserting plate 35, inserting rods 361 are vertically welded at two ends of the bottom surface of the scraping plate 36, the inserting rods 361 vertically slide to penetrate through the inserting plate 35, pull-down springs 362 are sleeved at the tops of the inserting rods 361, the upper ends and the lower ends of the pull-down springs 362 are respectively welded on the bottom surface of the scraping plate 36 and the top surface of the inserting plate 35, the scraping plate 36 horizontally moves on the cutting table 1 through following of the cutting structure 3, and the scraping plate 36 horizontally spreads the cloth, therefore, the smoothness of the cloth at the later stage is ensured, the problem that the cloth still can shrink to a certain extent to cause the end surfaces of the cloth to be irregular, the arrangement is troublesome and cause certain resource waste is solved, meanwhile, the lower pressing plate 41 of the pressing and holding structure 4 is horizontally welded on the side end surface of the cutting table 1, the upper pressing plate 42 is horizontally arranged right above the lower pressing plate 41, the positioning hole plates 411 are welded on the front side end surface and the rear side end surface of the lower pressing plate 41, the screw hole plate 412 is horizontally welded in the middle of the side end surface of the lower pressing plate 41 far away from the cutting table 1, so that the cloth is conveniently pressed and held by the lower pressing plate 41 and the upper pressing plate 42, and therefore, in the overlapping process of the cloth, in order to prevent the cloth from shrinking phenomenon, one end of the cloth needs to be fixed, the existing fixing mode generally adopts an object with a certain weight to be firmly pressed, and the problem of low stability of the mode is solved, all the symmetrical guide cylinders 346 of installing on the terminal surface of both sides of spout board 342, and guide cylinder 346 is vertical to slide and to run through the pressure frame 347 of installing the U-shaped structure, it is vertical to be fixed with telescopic link 348 on the horizontal plane bottom surface of upper portion of pressure frame 347, and the bottom welding of telescopic link 348 is on the top surface of spout board 342, thereby overcome current cutting die cutting machine working method be the operation personnel with many cloth neatly pile up on the table surface of cutting machine, then the cutting die is to the cloth motion under hydraulic means's drive in order to punch, because the cutting die comprises many blanking knives, when the blanking of cutting die is accomplished and is risen, because the blanking pattern has separated with the main part, make partial blanking cloth can probably block between the blanking knife, thereby influence the problem of blanking next time.

Referring to fig. 3, the feeding structure 2 includes a feeding frame 21, a frame box 22 and a rolling structure 23, the feeding frame 21 is symmetrically and horizontally welded on an end surface of the cutting table 1, the frame box 22 is vertically and symmetrically and horizontally welded on one side of the top surface of the feeding frame 21 far away from the cutting table 1, a plurality of connecting rods 221 are horizontally welded inside the frame box 22, and the height of the rolling structure 23 is sequentially and uniformly reduced towards one side of the cutting table 1 directly above the frame box 22 and vertically installed.

And then the welding of the 21 symmetry levels of material loading frame through feed structure 2 on 1 terminal surface of tailoring table, and the vertical symmetrical level welding in one side that keeps away from tailoring table 1 on the top surface of material loading frame 21 has frame case 22, the inside horizontal welding of frame case 22 has a plurality of connecting rod 221, and frame case 22 evenly reduces high vertical a plurality of coil stock structure 23 of installing in proper order towards one side of tailoring table 1 directly over, thereby make things convenient for the multilayer cloth to evenly place according to the stack order and evenly reducing in proper order and evenly installing a plurality of coil stock structure 23, the later stage of being convenient for is put more convenience.

Referring to fig. 4, the material rolling structure 23 includes a support plate 231 and a material rolling rod 236, a connecting tube 232 in sliding fit with the connecting rod 221 is horizontally welded at the bottom end of the support plate 231, the bottom of the front end surface of the support plate 231 is connected to the inner wall of the frame box 22 through a compression spring 233 which is horizontally welded, a bearing 234 is horizontally installed at the top end of the support plate 231 in a penetrating manner, a limiting sleeve 235 is horizontally installed at the inner ring of the bearing 234 in a penetrating manner, the material rolling rod 236 is horizontally arranged between the support plates 231 which are vertically and symmetrically arranged, and limiting groove columns 237 which are connected with the limiting sleeve 235 in a limiting and inserting manner are horizontally welded at.

And then have a section of thick bamboo 232 with connecting rod 221 sliding fit through the bottom horizontal welding of extension board 231, and the terminal surface bottom passes through horizontal welded pressure spring 233 to be connected on the inner wall of frame case 22 before extension board 231, thereby it is fairly close to press the extension board 231 of holding relative setting, be convenient for adapt to the coil stock pole 236 of different length, then utilize coil stock pole 236 level setting between the extension board 231 that vertical symmetry set up, and the both ends horizontal welding of coil stock pole 236 has the spacing groove post 237 with the spacing grafting of spacing sleeve 235, be convenient for spacing installation coil stock pole 236, be convenient for disassemble and change.

Referring to fig. 3, a plurality of rotating frames 24 are symmetrically and horizontally welded on one side of the top surface of the feeding frame 21 close to the cutting table 1, the rotating frames 24 are vertically installed at sequentially and uniformly reduced heights on one side of the cutting table 1, a material guiding roller 25 is horizontally arranged between the rotating frames 24, and rotating shafts at two ends of the material guiding roller 25 are rotatably installed on the top of the rotating frames 24 through bearings.

And then evenly reduce high vertical a plurality of in proper order towards one side of tailoring platform 1 through revolving rack 24, the level is provided with guide roller 25 between the revolving rack 24, and guide roller 25 both ends pivot passes through the bearing and rotates and install at revolving rack 24 top to downward cloth in proper order, the cloth laminating tailoring platform 1 of being convenient for reduces the clearance.

Referring to fig. 5, 6 and 7, the cutting structure 3 includes two moving frames 31, two lifting frames 32 and two cutting structures 34, the two moving frames 31 are vertically and symmetrically arranged, the bottom ends of the moving frames 31 are slidably mounted on the horizontal sliding rods 11 on the front and rear side end faces of the cutting table 1, the lifting frames 32 are vertically fixed on the top face of the moving frames 31, one side end face of each moving frame 31 is connected with the output end of the stretching cylinder 12 on the cutting table 1, the cutting structures 34 are horizontally arranged between the lifting frames 32, the two ends of each cutting structure 34 are connected with the lifting frames 32 in a sliding fit manner, and the lifting frames 32 are vertically welded with the pressing cylinders 33.

And then vertically on the top surface through removing frame 31 be fixed with crane 32, and remove a side end face of frame 31 and cut out the 12 output ends of the tensile cylinder on the platform 1 and be connected, the level is provided with cutting structure 34 between the crane 32, and the both ends of cutting structure 34 are connected with crane 32 sliding fit, and vertical welding has the pressure to hold cylinder 33 on crane 32's the top surface, makes things convenient for the later stage to drive cutting structure 34 and carry out the horizontal migration and change the position of cutting out according to the needs of cutting out.

Referring to fig. 5, 6 and 7, the cutting structure 34 includes a lifting plate 341, a sliding groove plate 342 and a sliding block 343, the lifting plate 341 is vertically symmetrically and horizontally slidably mounted on the lifting frame 32, the sliding groove plate 342 is horizontally welded between the lifting plates 341, a sliding groove is vertically penetrated through the sliding groove plate 342, the sliding block 343 is slidably mounted in the sliding groove on the sliding groove plate 342, a restoring cylinder 345 is horizontally fixed on the top surface of the sliding groove plate 342, one end of the restoring cylinder 345 is fixed on the top of the sliding block 343, and a cutter seat 344 is horizontally welded at the bottom of the sliding block 343.

And then have seted up the spout through going through vertically on the spout board 342, and slidable mounting has slider 343 in the spout on the spout board 342, and the top surface of spout board 342 is fixed with the cylinder 345 that replies horizontally, and the one end of replying the cylinder 345 is fixed at the top of slider 343, and the bottom horizontal welding of slider 343 has the blade holder 344, and the position of needs transversely changing the cutting under replying the cylinder 345 drive of later stage cutting of being convenient for.

Referring to fig. 5, 6 and 7, the lifting plate 341 at both ends of the chute plate 342 is connected to the output end of the pressing cylinder 33 on the lifting frame 32, the guide cylinders 346 are symmetrically installed on both side end surfaces of the chute plate 342, the guide cylinders 346 vertically slide through the pressing frame 347 installed with a U-shaped structure, the telescopic rod 348 is vertically fixed on the bottom surface of the horizontal plane at the upper part of the pressing frame 347, and the bottom end of the telescopic rod 348 is welded on the top surface of the chute plate 342.

And further connected with the output end of the pressure cylinder 33 on the lifting frame 32 through the lifting plates 341 at the two ends of the sliding groove plate 342, the guide cylinders 346 are symmetrically arranged on the end surfaces at the two sides of the sliding groove plate 342, the guide cylinder 346 is vertically and slidably penetrated and provided with a U-shaped pressing frame 347, a telescopic rod 348 is vertically fixed on the bottom surface of the horizontal plane at the upper part of the pressing frame 347, the bottom end of the telescopic rod 348 is welded on the top surface of the chute plate 342, thereby overcoming the defects that the working mode of the existing cutting die cutting bed is that the working personnel puts a plurality of cloth on the working table surface of the cutting bed in order, then the cutting die moves towards the cloth under the driving of a hydraulic device to perform blanking, since the cutting die is composed of a plurality of blanking knives, when the blanking of the cutting die is finished and the cutting die ascends, because the blanking pattern is separated from the main body, so that the partially punched cloth may be caught between the punching knives, thereby affecting the problem of the next punching.

Referring to fig. 5, 6 and 7, a jack plate 35 is horizontally welded at one end of the moving frame 31 close to the feeding structure 2, a scraping plate 36 is horizontally arranged right above the jack plate 35, inserting rods 361 are vertically welded at two ends of the bottom surface of the scraping plate 36, the inserting rods 361 vertically slide to penetrate through the jack plate 35, a pull-down spring 362 is sleeved at the top of each inserting rod 361, and the upper end and the lower end of each pull-down spring 362 are respectively welded on the bottom surface of the scraping plate 36 and the top surface of the jack plate 35.

And then the one end horizontal welding that is close to feed structure 2 through removal frame 31 has jack board 35, and jack board 35 is provided with the inserted sheet board 36 directly over the level, and the vertical welding in 36 bottom surfaces both ends of inserted sheet board has inserted bar 361, the vertical slip of inserted bar 361 runs through jack board 35, and the cover of inserted bar 361 top is equipped with drop-down spring 362, and both ends weld respectively on the top surface of 36 bottom surfaces of inserted sheet board and jack board 35 about drop-down spring 362, through following structure 3 of tailorring on cutting table 1 horizontal migration, 36 horizontal spreading cloth of inserted sheet board under the effect of drop-down spring 362, thereby guarantee the planarization of later stage cloth.

Referring to fig. 8, the pressing structure 4 includes a lower pressing plate 41 and an upper pressing plate 42, the lower pressing plate 41 is horizontally welded on the side end surface of the cutting table 1, the upper pressing plate 42 is horizontally disposed right above the lower pressing plate 41, the front and rear side end surfaces of the lower pressing plate 41 are welded with a positioning hole plate 411, and the middle part of the side end surface of the lower pressing plate 41 far from the cutting table 1 is horizontally welded with a screw hole plate 412.

Furthermore, a lower pressing plate 41 is horizontally welded on the side end face of the cutting table 1 through a pressing structure 4, an upper pressing plate 42 is horizontally arranged right above the lower pressing plate 41, positioning hole plates 411 are welded on the front side end face and the rear side end face of the lower pressing plate 41, a screw hole plate 412 is horizontally welded in the middle of the side end face of the lower pressing plate 41 far away from the cutting table 1, and therefore the lower pressing plate 41 and the upper pressing plate 42 can press and hold cloth conveniently, the problem that in the cloth overlapping process, in order to prevent the cloth from shrinking phenomenon, one end of the cloth needs to be fixed, the existing fixing mode is generally that an object with certain weight is firmly pressed, and the stability of the mode is not high.

Referring to fig. 8, a positioning rod 421 is vertically welded to the front and rear end faces of the upper platen 42, the positioning rod 421 is vertically and slidably mounted in a positioning hole plate 411 of the lower platen 41, a bearing seat 422 is fixed to the middle of the end face of the upper platen 42 away from the cutting table 1, an adjusting screw 43 is vertically and rotatably mounted in the bearing seat 422, and the adjusting screw 43 is threadedly mounted in the screw hole plate 412.

And then the bearing seat 422 is fixed in the middle of the side end face of the upper pressure plate 42 far away from the cutting table 1, the adjusting screw 43 is vertically installed in the bearing seat 422 in a rotating mode, and the adjusting screw 43 is installed in the screw hole plate 412 in a threaded mode, so that the cloth is more stable and firm in later-stage pressing and holding.

The working principle is as follows: when the integrated guiding, conveying and cutting device for cloth of the cutting bed is used for guiding, conveying and cutting the cloth, a feeding structure 2 is arranged at one end of a cutting table 1, a pressing and holding structure 4 is arranged at the other end of the cutting table 1, a horizontal sliding rod 11 is horizontally welded on the front side end face and the rear side end face of the cutting table 1, a stretching cylinder 12 is horizontally welded on one side of the front side end face and the rear side end face of the cutting table 1, a cutting structure 3 is arranged right above the cutting table 1, the cutting table 1 is connected with the cutting structure 3 in a sliding fit mode, the cloth stretches to the cutting table 1 through the feeding structure 2, then passes through the cutting structure 3, and is pressed on the cutting table 1 by the pressing and holding structure 4, so that.

The device that obtains through above-mentioned design has satisfied one kind and can conveniently press and hold tensile flattening superimposed multilayer cloth basically to cloth fold leads to the precision of tailorring not good when avoiding tailorring, can press the cloth of holding blanking pattern simultaneously, avoid the cloth can probably block between the punching and cutting knife, thereby influence blanking next time, the use of cutting bed cloth of improvement work efficiency is led with the integral type and is sent cutting device, but at present further perfect the purpose of its function, the designer has carried out further improvement to the device.

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

Claims (10)

1. The utility model provides a device of tailorring is led to send with integral type to cutting bed cloth, includes cutting table (1), feed structure (2), cuts out structure (3) and presses and hold structure (4), its characterized in that: the one end of tailoring platform (1) is provided with material loading structure (2), and the other end of tailoring platform (1) is provided with and presses holding structure (4), horizontal slide bar (11) have been welded to the front and back side end face upper level of tailoring platform (1), and one side horizontal welding of front and back side end face of tailoring platform (1) has stretching cylinder (12), be provided with directly over tailoring platform (1) and tailor structure (3), and tailor platform (1) and tailor structure (3) sliding fit and be connected.

2. The integrated guide and feeding cutting device for the fabric of the cutting bed according to claim 1, wherein the feeding structure (2) comprises a feeding frame (21), a frame box (22) and a rolling structure (23), the feeding frame (21) is symmetrically and horizontally welded on one end surface of the cutting table (1), the frame box (22) is vertically and symmetrically welded on one side of the top surface of the feeding frame (21), which is far away from the cutting table (1), the frame box (22) is horizontally welded inside the frame box (22), and the height of the frame box (22) is sequentially and uniformly reduced towards one side of the cutting table (1) and the rolling structure (23) is vertically installed.

3. The integrated guiding, conveying and cutting device for the fabric of the cutting bed according to claim 2, wherein the material rolling structure (23) comprises support plates (231) and material rolling rods (236), a connecting cylinder (232) in sliding fit with the connecting rod (221) is horizontally welded at the bottom ends of the support plates (231), the bottoms of the front end faces of the support plates (231) are connected to the inner wall of the frame box (22) through compression springs (233) which are horizontally welded, bearings (234) are horizontally installed at the top ends of the support plates (231) in a penetrating mode, limiting sleeves (235) are horizontally installed on inner rings of the bearings (234) in a penetrating mode, the material rolling rods (236) are horizontally arranged between the support plates (231) which are vertically and symmetrically arranged, and limiting groove columns (237) which are connected with the limiting sleeves (235) in a limiting and inserting mode are horizontally welded at two ends of the material rolling rods (236).

4. The integrated guide and feeding cutting device for the fabric of the cutting bed according to claim 3, wherein a plurality of rotating frames (24) are symmetrically and horizontally welded on one side of the top surface of the feeding frame (21) close to the cutting table (1), the heights of the rotating frames (24) are sequentially and uniformly reduced towards one side of the cutting table (1), the material guide rollers (25) are horizontally arranged between the rotating frames (24), and rotating shafts at two ends of the material guide rollers (25) are rotatably installed at the top of the rotating frames (24) through bearings.

5. The utility model provides a device of tailorring is led to send with integral type of cutting bed cloth, a serial communication port, tailor structure (3) including removing frame (31), crane (32) and cutting structure (34), remove the vertical symmetry of frame (31) and set up two, and remove the bottom slidable mounting of frame (31) on horizontal slide bar (11) on the side end face around tailoring platform (1), vertically be fixed with crane (32) on the top surface of removing frame (31), and a side end face of removing frame (31) is connected with stretching cylinder (12) output on tailoring platform (1), the level is provided with cutting structure (34) between crane (32), and the both ends of cutting structure (34) are connected with crane (32) sliding fit, and vertical welding has pressure to hold cylinder (33) on the top surface of crane (32).

6. The integrated guiding, conveying and cutting device for the fabric of the cutting bed according to claim 5, wherein the cutting structure (34) comprises lifting plates (341), sliding groove plates (342) and sliders (343), the lifting plates (341) are vertically, symmetrically and horizontally slidably mounted on the lifting frames (32), the sliding groove plates (342) are horizontally welded between the lifting plates (341), sliding grooves are vertically formed in the sliding groove plates (342) in a penetrating mode, the sliders (343) are slidably mounted in the sliding grooves in the sliding groove plates (342), the restoring cylinders (345) are horizontally fixed on the top surfaces of the sliding groove plates (342), one ends of the restoring cylinders (345) are fixed on the tops of the sliders (343), and tool holders (344) are horizontally welded at the bottoms of the sliders (343).

7. The integrated guiding, conveying and cutting device for the fabric of the cutting bed according to claim 6, wherein the lifting plates (341) at the two ends of the chute plate (342) are connected with the output end of the pressing and holding cylinder (33) on the lifting frame (32), the guide cylinders (346) are symmetrically installed on the end surfaces of the two sides of the chute plate (342), the guide cylinders (346) vertically slide and penetrate through the pressing frame (347) provided with the U-shaped structure, the telescopic rod (348) is vertically fixed on the bottom surface of the horizontal plane at the upper part of the pressing frame (347), and the bottom end of the telescopic rod (348) is welded on the top surface of the chute plate (342).

8. The integrated guiding, conveying and cutting device for the fabric of the cutting bed according to claim 7, wherein an inserting plate (35) is horizontally welded at one end, close to the feeding structure (2), of the moving frame (31), an inserting plate (36) is horizontally arranged right above the inserting plate (35), inserting rods (361) are vertically welded at two ends of the bottom surface of the scraping plate (36), the inserting rods (361) vertically slide to penetrate through the inserting plate (35), a pull-down spring (362) is sleeved at the top of each inserting rod (361), and the upper end and the lower end of each pull-down spring (362) are respectively welded on the bottom surface of the scraping plate (36) and the top surface of the inserting plate (35).

9. The integrated guide and feed cutting device for the fabric of the cutting bed according to claim 8, wherein the pressing and holding structure (4) comprises a lower pressing plate (41) and an upper pressing plate (42), the lower pressing plate (41) is horizontally welded on the side end surface of the cutting table (1), the upper pressing plate (42) is horizontally arranged right above the lower pressing plate (41), the positioning hole plate (411) is welded on the front side end surface and the rear side end surface of the lower pressing plate (41), and the screw hole plate (412) is horizontally welded in the middle of the side end surface of the lower pressing plate (41) far away from the cutting table (1).

10. The integrated guide and feed cutting device for fabric of cutting bed according to claim 9, wherein the front and rear side end surfaces of the upper press plate (42) are vertically welded with positioning rods (421), the positioning rods (421) are vertically and slidably mounted in the positioning hole plate (411) of the lower press plate (41), a bearing seat (422) is fixed in the middle of the side end surface of the upper press plate (42) far away from the cutting table (1), an adjusting screw (43) is vertically and rotatably mounted in the bearing seat (422), and the adjusting screw (43) is threadedly mounted in the screw hole plate (412).

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