CN114438768A - High-stability cutting device for textile processing and using method thereof - Google Patents

Abstract

The invention discloses a high-stability cutting device for textile processing and a using method thereof, belonging to the technical field of cloth cutting, wherein before cutting textile cloth, most of textile cloth in a roll state is manually pulled by cutting workers to unreel the roll textile cloth, so that the cutting of the textile cloth is inconvenient, the high-stability cutting device comprises a cutting table, wherein a through groove is formed in the surface of the cutting table, a first side plate is fixedly arranged on one surface of the cutting table, and two second side plates are fixedly arranged on one surface of the cutting table, which is close to the first side plate; through the rotation of the first rotating rod of drive, the first rotating rod enables the unwinding roller to rotate, the unwinding roller enables the roll-shaped textile fabric to unwind, meanwhile, the third rotating rod enables the conveying belt to be conveyed through the rotating roller, the conveying belt conveys the textile fabric, the conveyed textile fabric moves towards the direction of the pressure plate, so that the roll-shaped textile fabric is conveniently and automatically unwound and automatically conveyed after unwinding, and the convenience of subsequent cutting of the textile fabric is effectively improved.

Description

High-stability cutting device for textile processing and using method thereof

Technical Field

The invention relates to the technical field of cloth cutting, in particular to a high-stability cutting device for textile processing and a using method thereof.

Background

Weaving cloth: there are two types of fabrics, weft knitted fabrics and warp knitted fabrics, according to the weaving method. Weft-knitted fabrics are usually made of low-stretch polyester yarns or special-shaped polyester yarns, nylon yarns, cotton yarns, wool yarns and the like as raw materials, and are knitted on various weft knitting machines by adopting plain stitch, modified plain stitch, rib plain stitch, double rib plain stitch, jacquard weave, terry stitch and the like. The prior art has the following problems when cutting textile fabrics:

1. in the prior art, before cutting the textile fabric, most of textile fabric in a roll state is pulled manually by a cutting worker, so that the roll textile fabric is unreeled, and the cutting of the textile fabric is inconvenient;

2. after the workman pulls open is tailor to web-like textile material, mostly through the tip of the manual roll-like cloth of pressing, then the manual push broach that promotes decides textile material, because the textile material who is pulled open is in the state of lax, the effect of cutting that consequently leads to textile material is relatively poor, produce deckle edge easily, simultaneously, when the textile material that needs to be cuted is more, make textile material cut efficiency comparatively low, for this reason, we provide a device is tailor with high stability for textile processing and application method is used for solving above-mentioned problem.

Disclosure of Invention

The invention aims to provide a high-stability cutting device for textile processing and a using method thereof, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a device is tailor to high stability for textile processing, includes the tailoring table, logical groove has been seted up on the surface of tailoring table, the one side fixed mounting of tailoring table has first curb plate, the one side fixed mounting that the tailoring table is close to first curb plate has two second curb plates, the surface of tailoring table has still been seted up and has been cut the groove, cut the inslot and be equipped with the guillootine body, the surface of first curb plate is equipped with unwinding mechanism, it is equipped with defeated material mechanism, two to lead to the inslot be equipped with swager structure between the second curb plate, cut the inslot and be equipped with and cut the mechanism.

As a preferable technical scheme of the invention, supporting legs are uniformly distributed and fixedly arranged on one surface of the cutting table, which is far away from the first side plate, and reinforcing rods are fixedly arranged between every two adjacent supporting legs.

As a preferred technical scheme of the invention, the unwinding mechanism comprises a first motor, a first rotating rod is fixedly mounted at a driving output end of the first motor, the first rotating rod penetrates through a first side plate to be rotatably connected with the first side plate, an unwinding roller is fixedly mounted on the outer wall of the first rotating rod, a second rotating rod is rotatably mounted on one side of the first side plate, and a guide roller is fixedly mounted on the outer wall of the second rotating rod.

As a preferred technical solution of the present invention, the outer wall of the first motor is fixedly connected with a first fixing block, and the first fixing block is fixedly connected with one side of the first side plate.

As a preferred technical scheme of the invention, the material conveying mechanism comprises two third rotating rods, two ends of each third rotating rod are rotatably connected with the inner wall of the through groove, rotating rollers are fixedly mounted on the outer walls of the two third rotating rods, a material conveying belt is in transmission connection between the two rotating rollers, rubber blocks are uniformly and fixedly distributed on the surface of the material conveying belt, first transmission wheels are fixedly mounted at one ends of the two third rotating rods, a first transmission belt is in transmission connection between the two first transmission wheels, second transmission wheels are fixedly mounted at one ends of the first rotating rod and one third rotating rod, and a second transmission belt is in transmission connection between the two second transmission wheels.

As a preferable technical scheme of the invention, the material pressing mechanism comprises two material pressing plates, two first guide grooves are respectively arranged on the opposite sides of two second side plates, the inner walls of the first guide grooves are connected with first guide blocks in a sliding manner, one side of each first guide block is fixedly connected with the material pressing plates, connecting rods are respectively and fixedly arranged on the other sides of two adjacent first guide blocks, a connecting seat is fixedly arranged between the two connecting rods, a connecting groove is arranged on one side of the connecting seat, a second motor is fixedly arranged on one side of one second side plate, a first transmission rod is fixedly arranged at the driving output end of the second motor, one end of the first transmission rod, far away from the second motor, is rotatably connected with one side of one second side plate, a sector gear is fixedly arranged on the outer wall of the first transmission rod, and a second transmission rod is arranged on one side of one second side plate, close to the first transmission rod, one end fixed mounting of second transfer line has first gear, sector gear and first gear engagement are connected, the one end fixed mounting that first gear was kept away from to the second transfer line has the rolling disc, the one side fixed mounting that the second transfer line was kept away from to the rolling disc has the connecting rod, the inner wall swing joint of the one end of rolling disc and spread groove is kept away from to the connecting rod.

As a preferred technical scheme of the invention, anti-slip pads are fixedly mounted on one surfaces of the two pressure plates, a second fixed block is fixedly connected to the outer wall of the second motor, and the second fixed block is fixedly connected with one side of a second side plate.

As a preferable technical scheme of the invention, one side of one second side plate close to the first transmission rod is fixedly provided with an L-shaped fixed rod, one end of the L-shaped fixed rod far away from the second side plate is fixedly provided with a rotating sleeve, and the second transmission rod is rotatably connected with the rotating sleeve.

As a preferable technical scheme of the invention, the cutting mechanism comprises a reciprocating screw, wherein both ends of the reciprocating screw are fixedly provided with third transmission rods, one side of the cutting table, which is far away from the second side plate, is provided with a blind groove, one end of each of the two third transmission rods is rotatably connected with the inner wall of the blind groove, the inner wall of the blind groove is provided with a second guide groove, the inner wall of the second guide groove is slidably connected with a second guide block, one side of the second guide block is fixedly provided with a moving seat, one side of the moving seat is fixedly connected with the cutting machine body, one side of the moving seat, which is far away from the cutting machine body, is fixedly provided with a moving rod, one end of the moving rod, which is far away from the moving seat, is rotatably provided with a moving block, the moving block is movably contacted with a thread groove of the reciprocating screw, and one end of one of the third transmission rod is fixedly provided with a second gear.

A use method of a high-stability cutting device for textile processing comprises the following steps:

step one, conveying textile fabric

The first rotating rod is driven to rotate, the unwinding roller is driven to rotate by the first rotating rod, the web-shaped textile fabric is unwound by the unwinding roller, meanwhile, the third rotating rod enables the material conveying belt to convey the textile fabric through the rotating roller, the conveyed textile fabric moves towards the direction of the pressure plate, so that automatic unwinding of the web-shaped textile fabric and automatic conveying after unwinding are conveniently realized, and convenience in subsequent cutting of the textile fabric is effectively improved;

step two, pressing the textile fabric

The connecting seat is driven to move upwards, the first guide block is driven to slide upwards by the connecting seat through the connecting rod, the pressure plate and the non-slip mat are driven to move upwards by the first guide block, when the sector gear is separated from the first gear, the pressure plate automatically descends due to self gravity, and textile cloth is compressed through the non-slip mat, so that the compression of the textile cloth is conveniently realized, and the cutting effect of the subsequent textile cloth is effectively improved;

step three, cutting the textile fabric

Through the rotation of the reciprocating screw rod of drive, the reciprocating screw rod makes the removal seat horizontal migration through movable block and carriage release lever, removes the seat and makes guillootine body horizontal migration, and the cutting wheel of this end of body of guillootine rotates and cuts off textile fabric along the inner wall horizontal migration of cutting groove to convenient realization compress tightly cutting of back textile fabric, and then effectual improvement cut textile fabric's convenience, and the effectual efficiency that improves and cut textile fabric.

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

1. the first rotating rod is driven to rotate, the unwinding roller is driven to rotate by the first rotating rod, the web-shaped textile fabric is unwound by the unwinding roller, meanwhile, the third rotating rod enables the material conveying belt to convey the textile fabric through the rotating roller, the conveyed textile fabric moves towards the direction of the pressure plate, so that automatic unwinding of the web-shaped textile fabric and automatic conveying after unwinding are conveniently realized, and convenience in subsequent cutting of the textile fabric is effectively improved;

2. the connecting seat is driven to move upwards, the connecting seat enables the first guide block to slide upwards through the connecting rod, the first guide block enables the pressure plate and the non-slip mat to move upwards, when the sector gear is separated from the first gear, the pressure plate automatically descends due to self gravity, and textile cloth is pressed tightly through the non-slip mat, so that the pressing of the textile cloth is conveniently realized, and the cutting effect of the subsequent textile cloth is effectively improved;

3. through the rotation of the reciprocating screw rod of drive, the reciprocating screw rod makes the removal seat horizontal migration through movable block and carriage release lever, removes the seat and makes guillootine body horizontal migration, and the cutting wheel of this end of body of guillootine rotates and cuts off textile fabric along the inner wall horizontal migration of cutting groove to convenient realization compress tightly cutting of back textile fabric, and then effectual improvement cut textile fabric's convenience, and the effectual efficiency that improves and cut textile fabric.

Drawings

FIG. 1 is a schematic structural view of the present invention,

figure 2 is a schematic view of another structure of the present invention,

figure 3 is a schematic view of a cutting table according to the invention,

FIG. 4 is an enlarged view of the portion A of FIG. 3 according to the present invention,

FIG. 5 is an enlarged view of the portion B of FIG. 3 according to the present invention,

FIG. 6 is an enlarged view of the portion C of FIG. 3 according to the present invention,

FIG. 7 is an enlarged view of the portion D of FIG. 3 according to the present invention,

FIG. 8 is a schematic view of the connection between the pressing mechanism and the cutting mechanism of the present invention,

FIG. 9 is an enlarged view of section E of FIG. 8 according to the present invention,

figure 10 is a schematic view of the connection of the moving block and the reciprocating screw of the present invention,

FIG. 11 is a schematic view of the link rod separated from the first guide block according to the present invention.

In the figure: 1. a cutting table; 11. a through groove; 12. a first side plate; 13. a second side plate; 14. cutting a groove; 15. supporting legs; 16. a reinforcing bar; 17. a guillotine body; 2. an unwinding mechanism; 21. a first motor; 22. a first fixed block; 23. a first rotating lever; 24. unwinding rollers; 25. a second rotating lever; 26. a guide stick; 3. a material conveying mechanism; 31. a third rotating rod; 32. a rotating roller; 33. a material conveying belt; 34. a rubber block; 35. a first drive pulley; 36. a first drive belt; 37. a second transmission wheel; 38. a second belt; 4. a material pressing mechanism; 41. a material pressing plate; 42. a non-slip mat; 43. a first guide groove; 44. a first guide block; 45. a connecting rod; 46. a connecting seat; 47. connecting grooves; 48. a second motor; 481. a second fixed block; 49. a first drive lever; 5. a sector gear; 51. a second transmission rod; 52. an L-shaped fixing rod; 53. rotating the sleeve; 54. a first gear; 55. rotating the disc; 56. a connecting rod; 6. a cutting mechanism; 61. a reciprocating screw; 62. a third transmission rod; 63. a hidden groove; 64. a second guide groove; 65. a second guide block; 66. a movable seat; 67. a travel bar; 68. a moving block; 69. a second gear.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b): as shown in fig. 1-11, the invention provides a high-stability cutting device for textile processing, which comprises a cutting table 1, wherein a through groove 11 is formed on the surface of the cutting table 1, a first side plate 12 is fixedly installed on one surface of the cutting table 1, two second side plates 13 are fixedly installed on one surface of the cutting table 1 close to the first side plate 12, a cutting groove 14 is further formed on the surface of the cutting table 1, a cutting machine body 17 is arranged in the cutting groove 14, a cutting wheel at the end part of the cutting machine body 17 can horizontally move along the inner wall of the cutting groove 14 to cut off textile cloth, an unwinding mechanism 2 is arranged on the surface of the first side plate 12, the unwinding mechanism 2 can conveniently realize unwinding of rolled textile cloth, a material conveying mechanism 3 is arranged in the through groove 11, the material conveying mechanism 3 can convey the unwound textile cloth, a material pressing mechanism 4 is arranged between the two second side plates 13, the material pressing mechanism 4 can press the unwound textile cloth, be equipped with in the cutting groove 14 and cut mechanism 6, the realization that cuts mechanism 6 can be convenient cuts of the textile fabric after compressing tightly.

Further, the one side evenly distributed fixed mounting that first curb plate 12 was kept away from to tailoring table 1 has supporting leg 15, and supporting leg 15 can improve tailoring table 1's stability, and equal fixed mounting has stiffener 16 between two adjacent supporting legs 15, and stiffener 16 can improve supporting leg 15's stability.

Further, the unwinding mechanism 2 includes a first motor 21, a first rotating rod 23 is fixedly mounted at a driving output end of the first motor 21, by opening the first motor 21, a driving shaft of the first motor 21 can enable the first rotating rod 23 to rotate, the first rotating rod 23 penetrates through the first side plate 12 and is connected with the first side plate 12 in a rotating mode, an unwinding roller 24 is fixedly mounted on an outer wall of the first rotating rod 23, the first rotating rod 23 can enable the unwinding roller 24 to rotate, a rolled textile fabric to be cut can be sleeved on the surface of the unwinding roller 24, the unwinding roller 24 unwinds the rolled textile fabric, a second rotating rod 25 is rotatably mounted on one side of the first side plate 12, a guide roller 26 is fixedly mounted on an outer wall of the second rotating rod 25, and the guide roller 26 can guide the textile fabric in an unwinding process.

Further, the outer wall of the first motor 21 is fixedly connected with a first fixing block 22, the first fixing block 22 is fixedly connected with one side of the first side plate 12, and the first fixing block 22 can support the first motor 21.

Further, the material conveying mechanism 3 includes two third rotating levers 31, two ends of the third rotating levers 31 are rotatably connected with the inner wall of the through groove 11, rotating rollers 32 are fixedly installed on the outer walls of the two third rotating levers 31, a material conveying belt 33 is connected between the two rotating rollers 32 in a transmission manner, the third rotating levers 31 can enable the material conveying belt 33 to transmit through the rotating rollers 32, the material conveying belt 33 can transmit the unreeled textile fabric, rubber blocks 34 are uniformly distributed and fixedly installed on the surface of the material conveying belt 33, the rubber blocks 34 can limit the textile fabric on the upper surface of the material conveying belt 33 to avoid the position deviation of the textile fabric in the conveying process, first driving wheels 35 are fixedly installed at one ends of the two third rotating levers 31, first driving belts 36 are connected between the two first driving wheels 35 in a transmission manner, one third rotating lever 31 can enable the other third rotating lever 31 to synchronously rotate in the same direction through the two first driving wheels 35 and the first driving belts 36, one end of each of the first rotating rod 23 and the third rotating rod 31 is fixedly provided with a second driving wheel 37, a second driving belt 38 is connected between the two second driving wheels 37 in a driving manner, and the first rotating rod 23 can rotate one third rotating rod 31 through the two second driving wheels 37 and the second driving belt 38.

Further, the material pressing mechanism 4 includes two material pressing plates 41, the material pressing plates 41 can press the unreeled textile fabric, a balancing weight is disposed in the material pressing plates 41, the textile fabric is pressed by the self gravity, which is a limiting technology, and details are not described herein, two first guide grooves 43 are disposed on opposite sides of the two second side plates 13, a first guide block 44 is slidably connected to an inner wall of the first guide groove 43, the first guide block 44 can slide along the vertical direction of the inner wall of the first guide groove 43, one side of the first guide block 44 is fixedly connected to the material pressing plates 41, the first guide block 44 can enable the material pressing plates 41 to move in the vertical direction, a connecting rod 45 is fixedly mounted on the other side of each of the two adjacent first guide blocks 44, a connecting seat 46 is fixedly mounted between the two connecting rods 45, the first guide block 44 can enable the connecting seat 46 to move in the vertical direction through the connecting rod 45, meanwhile, the connecting seat 46 can enable the first guide block 44 to slide vertically through the connecting rod 45, one side of the connecting seat 46 is provided with a connecting groove 47, one side of a second side plate 13 is fixedly provided with a second motor 48, a driving output end of the second motor 48 is fixedly provided with a first transmission rod 49, a driving shaft of the second motor 48 can enable the first transmission rod 49 to rotate by starting the second motor 48, one end of the first transmission rod 49 far away from the second motor 48 is rotatably connected with one side of the second side plate 13, the outer wall of the first transmission rod 49 is fixedly provided with a sector gear 5, the first transmission rod 49 can enable the sector gear 5 to rotate, one side of the second side plate 13 close to the first transmission rod 49 is provided with a second transmission rod 51, one end of the second transmission rod 51 is fixedly provided with a first gear 54, the first gear 54 can enable the second transmission rod 51 to rotate, and the sector gear 5 is meshed with the first gear 54, sector gear 5 can drive first gear 54 intermittent type nature and rotate, the one end fixed mounting that first gear 54 was kept away from to second transfer line 51 has a rolling disc 55, second transfer line 51 can make rolling disc 55 rotate, the one side fixed mounting that second transfer line 51 was kept away from to rolling disc 55 has connecting rod 56, connecting rod 56 can use the axle center of rolling disc 55 as the centre of a circle to rotate, the one end that connecting rod 56 kept away from rolling disc 55 and the inner wall movable contact of spread groove 47, connecting rod 56 can make the vertical direction of connecting seat 46 remove through spread groove 47.

Further, the equal fixed mounting in one side of two pressure flitches 41 has slipmat 42, and slipmat 42 can effectual improvement by the textile fabric's that compresses tightly stability, the outer wall fixedly connected with second fixed block 481 of second motor 48, one side fixed connection of second fixed block 481 and a second curb plate 13, second fixed block 481 can support fixed second motor 48.

Further, an L-shaped fixing rod 52 is fixedly installed on one side of the second side plate 13 close to the first transmission rod 49, a rotating sleeve 53 is fixedly installed on one end of the L-shaped fixing rod 52 far away from the second side plate 13, the second transmission rod 51 is rotatably connected with the rotating sleeve 53, and the rotating sleeve 53 can support the second transmission rod 51.

Further, the cutting mechanism 6 includes a reciprocating screw 61, both ends of the reciprocating screw 61 are fixedly provided with third transmission rods 62, the third transmission rods 62 can enable the reciprocating screw 61 to rotate, one side of the cutting table 1 far away from the second side plate 13 is provided with a hidden groove 63, one ends of the two third transmission rods 62 are rotatably connected with the inner wall of the hidden groove 63, the inner wall of the hidden groove 63 is provided with a second guide groove 64, the inner wall of the second guide groove 64 is slidably connected with a second guide block 65, the second guide block 65 can slide along the horizontal direction of the inner wall of the second guide groove 64, one side of the second guide block 65 is fixedly provided with a moving seat 66, the second guide block 65 can enable the moving seat 66 to move in the horizontal direction, one side of the moving seat 66 is fixedly connected with the cutting machine body 17, the moving seat 66 can enable the cutting machine body 17 to move in the horizontal direction, one side of the moving seat 66 far away from the cutting machine body 17 is fixedly provided with a moving rod 67, the movable base 66 can be horizontally moved in a reciprocating mode through the movable rod 67, the movable block 68 is rotatably installed at one end, far away from the movable base 66, of the movable rod 67, the movable block 68 is movably contacted with the thread groove of the reciprocating screw 61, the reciprocating screw 61 can enable the movable base 66 to move in the reciprocating horizontal direction through the movable block 68 and the movable rod 67, the second gear 69 is fixedly installed at one end of the third transmission rod 62, and when the sector gear 5 is meshed with the second gear 69, the third transmission rod 62 can be driven to rotate.

A use method of a high-stability cutting device for textile processing comprises the following steps:

step one, conveying textile fabric

By driving the first rotating rod 23 to rotate, the first rotating rod 23 rotates the unwinding roller 24, the unwinding roller 24 unwinds the rolled textile fabric, meanwhile, the third rotating rod 31 transmits the material conveying belt 33 through the rotating roller 32, the material conveying belt 33 transmits the textile fabric, and the transmitted textile fabric moves towards the direction of the pressure plate 41, so that the automatic unwinding of the rolled textile fabric and the automatic transmission after the unwinding are conveniently realized, and the convenience of subsequent cutting of the textile fabric is effectively improved;

step two, pressing the textile fabric

By driving the connecting seat 46 to move upwards, the connecting seat 46 enables the first guide block 44 to slide upwards through the connecting rod 45, the first guide block 44 enables the pressure plate 41 and the non-slip mat 42 to move upwards, when the sector gear 5 is separated from the first gear 54, the pressure plate 41 automatically descends due to self gravity, and textile cloth is pressed tightly through the non-slip mat 42, so that the pressing of the textile cloth is conveniently realized, and the cutting effect of the subsequent textile cloth is effectively improved;

step three, cutting the textile fabric

Through the rotation of the reciprocating screw rod 61 of drive, the reciprocating screw rod 61 makes the horizontal migration of removal seat 66 through movable block 68 and carriage release lever 67, remove seat 66 and make guillootine body 17 horizontal migration, the cutting wheel of guillootine body 17 tip rotates and cuts off the textile fabric along the inner wall horizontal migration of cutting groove 14 to convenient realization compress tightly the cutting of the textile fabric after, and then effectual improvement cuts the convenience of textile fabric, and the effectual efficiency that cuts the textile fabric that has improved.

The working principle is as follows: when the roll-shaped textile fabric needs to be cut, a worker firstly sleeves the roll-shaped textile fabric to be cut on the surface of the unwinding roller 24, pulls the end part of the roll-shaped textile fabric, enables the textile fabric to bypass the guide roller 26, and places the end part of the roll-shaped textile fabric on the upper surface of the material conveying belt 33;

subsequently, the first motor 21 is turned on, the first rotating rod 23 is rotated by the driving shaft of the first motor 21, the unwinding roller 24 is rotated by the first rotating rod 23, the unwinding roller 24 is rotated while unwinding the web-like textile material, meanwhile, the first rotating rod 23 rotates a corresponding third rotating rod 31 through two second driving wheels 37 and a second driving belt 38, one third rotating rod 31 synchronously rotates the other third rotating rod 31 in the same direction through two first driving wheels 35 and a first driving belt 36, at this time, the two third rotating rods 31 transmit the material conveying belt 33 through two rotating rollers 32, the material conveying belt 33 transmits the textile fabric on the upper surface thereof, the transmitted textile fabric moves towards the two pressure plates 41, therefore, automatic unreeling of the rolled textile cloth and automatic transmission after unreeling are conveniently realized, and convenience in subsequent cutting of the textile cloth is effectively improved;

meanwhile, the second motor 48 and the cutting machine body 17 are started, the driving shaft of the second motor 48 rotates the first transmission rod 49, the first transmission rod 49 rotates the sector gear 5, the sector gear 5 drives the first gear 54 to rotate, the first gear 54 drives the second transmission rod 51 to rotate, the second transmission rod 51 drives the rotating disc 55 to rotate, the connecting rod 56 rotates by taking the axis of the rotating disc 55 as the center of a circle while the rotating disc 55 rotates, the connecting rod 56 enables the connecting seat 46 to vertically move upwards through the connecting groove 47, the connecting seat 46 enables the corresponding first guide block 44 to vertically slide upwards along the inner wall of the corresponding first guide groove 43 through the connecting rod 45, at this time, the four first guide blocks 44 enable the two pressing plates 41 and the two anti-skid pads 42 to vertically move upwards, when the sector gear 5 is separated from the first gear 54, the two pressing plates 41 automatically descend due to self gravity and drive the first gear 54 to reversely rotate and reset, the lower surfaces of the two anti-slip pads 42 are in close contact with the upper surface of the textile fabric and tightly press the textile fabric, and at the moment, the sector gear 5 is meshed with the second gear 69, so that the textile fabric is conveniently pressed, and the subsequent cutting effect of the textile fabric is effectively improved;

meanwhile, the sector gear 5 drives the second gear 69 to rotate, the second gear 69 enables the corresponding third transmission rod 62 to rotate, the two third transmission rods 62 enable the reciprocating screw 61 to rotate, the reciprocating screw 61 enables the moving seat 66 to move in the horizontal direction through the moving block 68 and the moving rod 67 while rotating, the moving seat 66 enables the cutting machine body 17 to move in the horizontal direction, the cutting wheel at the end part of the cutting machine body 17 rotates and moves in the horizontal direction along the inner wall of the cutting groove 14, meanwhile, the cutting wheel at the end part of the cutting machine body 17 cuts off the compressed textile fabric, and therefore the compressed textile fabric is conveniently cut, the convenience of cutting the textile fabric is effectively improved, and the efficiency of cutting the textile fabric is effectively improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a device is tailor to high stability for textile processing, includes tailoring table (1), its characterized in that: logical groove (11) have been seted up on the surface of tailoring table (1), the one side fixed mounting of tailoring table (1) has first curb plate (12), one side fixed mounting that tailoring table (1) is close to first curb plate (12) has two second curb plates (13), tailoring table (1)'s surface has still been seted up and has been cut groove (14), it is equipped with guillootine body (17) in cutting groove (14), the surface of first curb plate (12) is equipped with unwinding mechanism (2), it is equipped with defeated material mechanism (3), two to lead to be equipped with in groove (11) be equipped with swager structure (4) between second curb plate (13), it cuts mechanism (6) to be equipped with in tailoring groove (14).

2. The high-stability cutting device for textile processing according to claim 1, wherein: one side evenly distributed fixed mounting that first curb plate (12) was kept away from in tailoring platform (1) has supporting leg (15), adjacent two equal fixed mounting has stiffener (16) between supporting leg (15).

3. The high-stability cutting device for textile processing according to claim 1, wherein: unwinding mechanism (2) is including first motor (21), the drive output end fixed mounting of first motor (21) has first dwang (23), first dwang (23) pass first curb plate (12) and rotate the connection, the outer wall fixed mounting of first dwang (23) has unreel roller (24), one side of first curb plate (12) is rotated and is installed second dwang (25), the outer wall fixed mounting of second dwang (25) has guide rod (26).

4. The high-stability cutting device for textile processing according to claim 3, wherein: the outer wall of the first motor (21) is fixedly connected with a first fixing block (22), and the first fixing block (22) is fixedly connected with one side of the first side plate (12).

5. The high-stability cutting device for textile processing according to claim 3, wherein: defeated material mechanism (3) are including two third dwang (31), the both ends of third dwang (31) and the inner wall that leads to groove (11) rotate to be connected, two the equal fixed mounting of outer wall of third dwang (31) has live-rollers (32), two the transmission is connected with defeated material area (33) between live-rollers (32), the surperficial evenly distributed fixed mounting of defeated material area (33) has rubber block (34), two the equal fixed mounting of one end of third dwang (31) has first drive wheel (35), two the transmission is connected with first drive belt (36) between first drive wheel (35), the equal fixed mounting of one end of first dwang (23) and a third dwang (31) has second drive wheel (37), two the transmission is connected with second drive belt (38) between second drive wheel (37).

6. The high-stability cutting device for textile processing according to claim 1, wherein: the material pressing mechanism (4) comprises two material pressing plates (41), two first guide grooves (43) are formed in the opposite sides of the two second side plates (13), first guide blocks (44) are connected to the inner walls of the first guide grooves (43) in a sliding mode, one side of each first guide block (44) is fixedly connected with the material pressing plates (41), connecting rods (45) are fixedly mounted on the other sides of the two adjacent first guide blocks (44), a connecting seat (46) is fixedly mounted between the two connecting rods (45), a connecting groove (47) is formed in one side of the connecting seat (46), a second motor (48) is fixedly arranged on one side of one second side plate (13), a first transmission rod (49) is fixedly mounted at the driving output end of the second motor (48), one end, far away from the second motor (48), of the first transmission rod (49) is rotatably connected with one side of one second side plate (13), the outer wall fixed mounting of first transfer line (49) has sector gear (5), one side that second curb plate (13) are close to first transfer line (49) is equipped with second transfer line (51), the one end fixed mounting of second transfer line (51) has first gear (54), sector gear (5) and first gear (54) meshing are connected, the one end fixed mounting that first gear (54) were kept away from in second transfer line (51) has rolling disc (55), the one side fixed mounting that second transfer line (51) were kept away from in rolling disc (55) has connecting rod (56), the inner wall swing joint of the one end of rolling disc (55) and spread groove (47) is kept away from in connecting rod (56).

7. The high-stability cutting device for textile processing according to claim 6, wherein: the anti-slip pad (42) is fixedly mounted on one surface of each of the two pressure plates (41), the second fixing block (481) is fixedly connected to the outer wall of the second motor (48), and the second fixing block (481) is fixedly connected with one side of the second side plate (13).

8. The high-stability cutting device for textile processing according to claim 6, wherein: one side fixed mounting that second curb plate (13) is close to first transfer line (49) has L type dead lever (52), the one end fixed mounting that second curb plate (13) were kept away from in L type dead lever (52) has and rotates cover (53), second transfer line (51) and rotation cover (53) rotate and are connected.

9. The high-stability cutting device for textile processing according to claim 1, wherein: the cutting mechanism (6) comprises a reciprocating screw rod (61), third transmission rods (62) are fixedly mounted at two ends of the reciprocating screw rod (61), a hidden groove (63) is formed in one face, away from a second side plate (13), of the cutting table (1), one end of each of the two third transmission rods (62) is connected with the inner wall of the hidden groove (63) in a rotating mode, a second guide groove (64) is formed in the inner wall of the hidden groove (63), a second guide block (65) is connected to the inner wall of the second guide groove (64) in a sliding mode, a moving seat (66) is fixedly mounted on one face of the second guide block (65), one side of the moving seat (66) is fixedly connected with the cutting machine body (17), a moving rod (67) is fixedly mounted on one side, away from the cutting machine body (17), of the moving rod (67) is far away from one end of the moving seat (66) and is rotatably mounted with a moving block (68), the moving block (68) is movably contacted with a thread groove of the reciprocating screw (61), and one end of one third transmission rod (62) is fixedly provided with a second gear (69).

10. The use method of the high-stability cutting device for textile processing is characterized by comprising the following steps of:

step one, conveying textile fabric

The first rotating rod (23) is driven to rotate, the unwinding roller (24) is rotated by the first rotating rod (23), the web-shaped textile fabric is unwound by the unwinding roller (24), meanwhile, the material conveying belt (33) is conveyed by the third rotating rod (31) through the rotating roller (32), the textile fabric is conveyed by the material conveying belt (33), and the conveyed textile fabric moves towards the direction of the pressure plate (41), so that the automatic unwinding of the web-shaped textile fabric and the automatic conveying after the unwinding are conveniently realized, and the convenience of subsequent cutting of the textile fabric is effectively improved;

step two, pressing the textile fabric

The connecting base (46) is driven to move upwards, the connecting base (46) enables the first guide block (44) to slide upwards through the connecting rod (45), the first guide block (44) enables the pressure plate (41) and the non-slip mat (42) to move upwards, when the sector gear (5) is separated from the first gear (54), the pressure plate (41) automatically descends due to self gravity, and textile cloth is pressed through the non-slip mat (42), so that the pressing of the textile cloth is conveniently realized, and the cutting effect of the subsequent textile cloth is effectively improved;

step three, cutting the textile fabric

Rotate through the reciprocal screw rod of drive (61), reciprocal screw rod (61) make through movable block (68) and carriage release lever (67) and remove seat (66) horizontal migration, remove seat (66) and make guillootine body (17) horizontal migration, the cutting wheel of guillootine body (17) tip rotates and cuts off woven fabrics along the inner wall horizontal migration who cuts out groove (14), thereby convenient realization compress tightly cutting of woven fabrics, and then effectual improvement cuts woven fabrics's convenience, and the effectual efficiency that cuts woven fabrics that has improved.

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