CN112779760A

CN112779760A - Automatic vertical and horizontal fabric slitting system

Info

Publication number: CN112779760A
Application number: CN202110081328.0A
Authority: CN
Inventors: 刘航东
Original assignee: Suzhou Transparent Electronic Technology Co Ltd
Current assignee: Suzhou Transparent Electronic Technology Co Ltd
Priority date: 2021-01-21
Filing date: 2021-01-21
Publication date: 2021-05-11
Anticipated expiration: 2041-01-21
Also published as: CN112779760B

Abstract

The invention relates to the technical field of fabric processing, and discloses an automatic longitudinal and transverse fabric slitting system, which has the technical scheme that the automatic longitudinal and transverse fabric slitting system comprises a support, wherein a feeding mechanism is arranged on the support and used for conveying fabric, a cutting mechanism and a clamping mechanism are also arranged on the support, the fabric is conveyed through the feeding mechanism and is conveyed into a vertical cutting assembly, the fabric is cut through the vertical cutting assembly and is cut into strips, the fabric is clamped through the clamping mechanism and is cut through a transverse cutting mechanism to be cut into rectangular shapes, the cut fabric is moved into a conveying part through a guide assembly, a grabbing part grabs the fabric on the conveying part, manual transfer of a fabric cutting instrument is not needed, the working efficiency is improved, and the cutting part in the transverse cutting assembly is transversely arranged to shorten the moving distance of each cutting part, the cutting efficiency is also improved.

Description

Automatic vertical and horizontal fabric slitting system

Technical Field

The invention relates to the technical field of fabric processing, in particular to an automatic longitudinal and transverse fabric slitting system.

Background

When the fabric is made into textiles such as towels, bath towels and the like, the fabric is processed through a plurality of procedures, wherein one procedure is to cut the fabric, the fabric is a whole large-scale auxiliary material before being cut, and the fabric needs to be cut into auxiliary materials with smaller areas so as to be convenient to process or adapt to different use places;

at present, before the cutting of fabrics, carry the surface fabric through the conveying roller, send the surface fabric into a plurality of instruments and cut, finally form the less surface fabric of an area, the workman need send the surface fabric into another cutting instrument from a cutting instrument, lead to work efficiency lower, the surface fabric width that the cutting was come out differs.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an automatic longitudinal and transverse fabric slitting system which is used for improving the product percent of pass and improving the working efficiency.

In order to achieve the purpose, the invention provides the following technical scheme: an automatic longitudinal and transverse fabric slitting system comprises a support, wherein a feeding mechanism is arranged on the support and used for conveying fabrics, a cutting mechanism and a clamping mechanism are further arranged on the support and used for clamping the fabrics, the cutting mechanism comprises a transverse cutting assembly and a vertical cutting assembly, the transverse cutting assembly is positioned below the vertical cutting assembly and used for vertically cutting the fabrics, the transverse cutting assembly is used for transversely cutting the fabrics after vertical cutting, the transverse cutting assembly comprises a plurality of cutting parts, the cutting parts are horizontally arranged side by side, the distance between every two adjacent cutting parts is equal, a guide assembly and a material receiving assembly are further arranged on the support and positioned below the cutting mechanism, the material receiving assembly comprises a conveying part and a grabbing part, and the guide assembly is used for guiding the fabrics after transverse cutting to the conveying part, the conveying part is used for conveying the transversely cut fabric, and the grabbing part is used for grabbing the fabric positioned on the conveying part.

As a further improvement of the invention, the feeding mechanism comprises a plurality of conveying rollers, the conveying rollers are parallel to each other, one of the conveying rollers is provided with a thermal transfer printing mechanism, and the thermal transfer printing mechanism is used for performing thermal transfer printing on the fabric.

As a further improvement of the present invention, the clamping mechanism includes an upper clamping assembly and a lower clamping assembly, the upper clamping assembly is located between the transverse cutting assembly and the vertical cutting assembly, the lower clamping assembly is located below the transverse cutting assembly, the upper clamping assembly includes a first power portion, a positioning roller and a clamping roller, the positioning roller and the clamping roller are disposed opposite to each other and are both disposed parallel to the conveying roller, the first power portion is configured to drive the clamping roller to approach or separate from the upper positioning roller, the lower clamping assembly includes a second power portion, a positioning plate and a clamping block, the positioning plate is fixedly connected to the bracket, the clamping block is disposed parallel to the conveying roller, and the second power portion is configured to drive the clamping block to approach or separate from the positioning plate.

As a further improvement of the present invention, the distance from the pinch block to the guide plate is equal to the distance from the pinch roller to the positioning roller, and a line connecting the pinch roller and the pinch block is parallel to a vertical plane.

As a further improvement of the present invention, the guiding assembly includes a rotating portion and a guiding plate, the guiding plate is provided with a fixing portion, the fixing portion is hinged to the positioning plate, and the rotating portion is used for driving the guiding plate to rotate.

As a further improvement of the invention, the conveying part comprises a frame, two conveying rollers are hinged on the frame, the two conveying rollers are parallel to each other and are positioned at the same height, a conveying belt is connected between the two conveying rollers in a transmission manner, a pressing roller is rotatably connected on the frame, and the pressing roller is positioned above the conveying rollers and is arranged opposite to the conveying rollers close to the guide plate.

As a further improvement of the present invention, the gripping portion includes a power end and a gripper end, the power end includes a first moving portion for driving the gripper end to reciprocate along the conveying direction of the conveyor belt, and a second moving portion for driving the gripper end to reciprocate in the vertical direction.

As a further improvement of the present invention, the first moving portion includes slide rails disposed on two sides of the conveying direction of the conveying belt, a cross bar is slidably connected to the two slide rails, the second moving portion is disposed on the cross bar, conveying bars are rotatably connected to two ends of the conveying direction of the conveying belt, two sets of transmission assemblies are disposed between the two conveying bars, each transmission assembly includes two conveying belt wheels, the conveying belt wheels correspond to and are fixedly connected to the conveying bars one by one, a synchronous conveying belt is connected between the two conveying belt wheels in a transmission manner, the synchronous conveying belt is fixedly connected to the cross bar, the second moving portion includes an air cylinder, an output end of the air cylinder faces downward, an output end of the air cylinder is fixedly connected to a connecting frame, and the clamping claw end is disposed on the connecting frame.

As a further improvement of the invention, the clamping jaw end comprises a plurality of electric clamping jaws, fixed rods are fixedly connected to two opposite sides of the connecting frame, the fixed rods are parallel to the cross rod, and the electric clamping jaws are fixedly connected to the fixed rods.

As a further improvement of the invention, a support frame is arranged below the frame, a conveying part is arranged on the support frame, the conveying part is used for conveying the fabric, the conveying direction of the conveying part is perpendicular to the conveying direction of the conveying part, the conveying part comprises a frame body, a sliding part is arranged between the frame body and the support frame, and the sliding part is used for driving the frame body to move along the vertical direction.

The invention has the beneficial effects that: in the invention, the transverse cutting component and the vertical cutting component are arranged, the feeding mechanism is used for conveying the fabric, the fabric is fed into the vertical cutting component, the fabric is cut by the vertical cutting component to be cut into strips, and meanwhile, the clamping mechanism is used for clamping the fabric, then the fabric is cut into a rectangular shape by the transverse cutting mechanism, the cut fabric is moved into the conveying part by the guide component, the gripping part grips the fabric on the conveying part and moves to another step of automatic process without manually transferring a cutting instrument to the fabric, thereby improving the working efficiency, and the cutting part in the crosscut subassembly transversely sets up, has reduced the distance that every cutting part removed, has also improved cutting efficiency, also makes the surface fabric after being cut can get into conveying part through the direction subassembly, realizes automaticly.

Drawings

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

FIG. 2 is a schematic perspective view of the present invention toward the clamping mechanism;

FIG. 3 is a schematic perspective view of the present invention toward the guide;

FIG. 4 is an enlarged schematic view at A of FIG. 1 of the present invention;

FIG. 5 is an enlarged schematic view of the invention at B of FIG. 1;

fig. 6 is an enlarged schematic view at C of fig. 3 of the present invention.

Reference numerals: 1. a support; 2. a feeding mechanism; 21. a conveying roller; 3. a cutting mechanism; 31. a cross-cutting assembly; 32. vertically cutting the component; 4. a clamping mechanism; 41. an upper clamping assembly; 411. a first power section; 412. a positioning roller; 413. a pinch roller; 42. a lower clamping assembly; 421. a second power section; 422. positioning a plate; 423. a clamping block; 5. a guide assembly; 52. a guide plate; 6. a material receiving assembly; 61. a conveying section; 611. a frame; 612. a conveying roller; 613. a conveyor belt; 614. pressing rollers; 62. a grasping section; 621. a power end; 622. a jaw end; 63. a first moving part; 64. a second moving part; 641. a cylinder; 642. a connecting frame; 643. fixing the rod; 7. a transfer rod; 8. a transmission assembly; 9. a support frame; 91. a conveying section; 92. a sliding part.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "bottom" and "top," "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

Referring to fig. 1 to 6, the automatic longitudinal and transverse fabric slitting system of the embodiment includes a support 1, a feeding mechanism 2 is disposed on the support 1, the feeding mechanism 2 is used for conveying fabric, the feeding mechanism 2 includes a plurality of conveying rollers 21, the conveying rollers 21 are parallel to each other, the conveying rollers 21 are in transmission connection through a plurality of synchronous pulley sets, each synchronous pulley set includes a synchronous belt and a synchronous pulley, power is provided by a motor, a heat transfer mechanism is disposed on one of the conveying rollers 21, the heat transfer mechanism is used for performing heat transfer printing on the fabric, marks are made on the fabric through a heat transfer printing technology, so as to identify different fabrics, a cutting mechanism 3 and a clamping mechanism 4 are further disposed on the support 1, the clamping mechanism 4 is used for clamping the fabric, the cutting mechanism 3 includes a transverse cutting component 31 and a vertical cutting component 32, the transverse cutting component 31 is located below the vertical cutting component 32, the vertical cutting component 32 is used for vertically cutting the fabric, the transverse cutting component 31 is used for transversely cutting the vertically cut fabric, the transverse cutting component 31 comprises a plurality of cutting parts, the cutting parts are horizontally arranged side by side, the distance between every two adjacent cutting parts is equal, the cutting parts and the vertical cutting parts respectively comprise an ultrasonic cutting device, the fabric is cut by an ultrasonic cutting technology, a plurality of cutting parts are arranged at the same height position, the moving distance of the cutting parts when the fabric is cut by the cutting parts is shortened, the cutting efficiency is improved, the cut fabric is positioned at the same height position, the fabric can smoothly enter the conveying part 61 through the guide component 5, the subsequent automatic control on the cut fabric is convenient, the working efficiency is improved, 9 vertical cutting parts are arranged, the distance between every two adjacent vertical cutting parts is equal, and the fabric can be cut into 8 strip-shaped fabric with the same shape, the width of the fabric is greater than the distance between the two vertical cutting parts at the head part and the tail part, so that the fabric has excess material after being cut, the width of the fabric after being cut by the vertical cutting parts is ensured to be equal, the support 1 is also provided with a guide component 5 and a material receiving component 6, the guide component 5 is positioned below the cutting mechanism, the material receiving component 6 comprises a conveying part 61 and a grabbing part 62, the guide component 5 is used for guiding the fabric after being transversely cut to the conveying part 61, the conveying part 61 is used for conveying the fabric after being transversely cut, the grabbing part 62 is used for grabbing the fabric positioned on the conveying part 61, the conveying part 61 comprises a frame 611, two conveying rollers 612 are hinged on the frame 611, the two conveying rollers 612 are parallel to each other and positioned at the same height, a conveying belt 613 is in transmission connection between the two conveying rollers 612, the power of the conveying part 61 can be provided by a motor, the pressing roller 614 is located above the conveying roller 612 and is opposite to the conveying roller 612 close to the guide plate 52, when the cut fabric enters the conveying part 61, the fabric firstly passes below the pressing roller 614, namely passes between the pressing roller 614 and the corresponding conveying roller 612, so that the flatness of the fabric is adjusted, the subsequent grabbing of the grabbing part 62 to the fabric is facilitated, and the situation that the fabric cannot be grabbed by the grabbing part 62 due to the fact that the fabric is wrinkled after passing through the guide plate 52 is prevented. The grasping portion 62 includes a power end 621 and a jaw end 622, the power end 621 includes a first moving portion 63 and a second moving portion 64, the first moving portion 63 is configured to drive the jaw end 622 to reciprocate along the conveying direction of the conveying belt 613, and the second moving portion 64 is configured to drive the jaw end 622 to reciprocate in the vertical direction. The first moving part 63 includes slide rails disposed at both sides of the conveying direction of the conveying belt 613, a cross bar is slidably connected to the two slide rails, the second moving part 64 is disposed on the cross bar, the two ends of the conveying direction of the conveying belt 613 are rotatably connected with the conveying rods 7, the conveying rods 7 are rotatably connected to the frame 611, two sets of transmission assemblies 8 are disposed between the two conveying rods 7, the power of the transmission assemblies 8 can be provided by a motor, and are transmitted by a synchronous conveying belt and a conveying belt wheel, so that the movement distance of the cross bar is more accurate, the transmission assemblies 8 include two conveying belt wheels, the conveying belt wheels and the conveying rods 7 are in one-to-one correspondence and fixedly connected, the synchronous conveying belt is connected between the two conveying belt wheels, and is fixedly connected with the cross bar, the second moving part 64 includes a cylinder 641, the output end of the cylinder 641 faces downward, and the output end of the, the clamping jaw end 622 is arranged on the connecting frame 642, the air cylinder 641 can rapidly realize the movement of the connecting frame 642 and reach a set position, the first moving portion 63 and the second moving portion 64 realize the movement of the clamping jaw end 622 in the vertical direction and the transverse direction, the movement of the clamping jaw end 622 in the vertical direction is used for grabbing fabric, the transverse movement is used for taking the fabric out of the conveying belt 613, the fabric can be grabbed without the clamping jaw end, and the fabric is conveyed to the next automatic device to be processed, so that unmanned automatic operation is realized, and the processing efficiency is improved.

Referring to fig. 1 and 4, the clamping mechanism 4 includes an upper clamping assembly 41 and a lower clamping assembly 42, the upper clamping assembly 41 is located between the transverse cutting assembly 31 and the vertical cutting assembly 32, the lower clamping assembly 42 is located below the transverse cutting assembly 31, the upper clamping assembly 41 includes a first power portion 411, a positioning roller 412 and a clamping roller 413, the positioning roller 412 and the conveying roller 21 are in transmission connection and rotate synchronously with the conveying roller 21, the positioning roller 412 and the clamping roller 413 are arranged oppositely and are both arranged in parallel with the conveying roller 21, the first power portion 411 is used for driving the clamping roller 413 to approach or separate from the upper positioning roller 412, the first power portion 411 includes a first servo motor, an output end of the first servo motor is fixedly connected with the clamping roller 413, the movement of the clamping roller 413 is controlled by the first servo motor, the distance between the clamping roller 413 and the positioning roller 412 can be adjusted to adapt to fabrics with different thicknesses, in the process of conveying the fabrics, the positioning roller 412 rotates, the fabric is clamped between the clamping roller 413 and the positioning roller 412 and is conveyed through the rotation of the positioning roller 412, the lower clamping assembly 42 comprises a second power part 421, a positioning plate 422 and a clamping block 423, the positioning plate 422 is fixedly connected to the support 1, the clamping block 423 is arranged in parallel with the conveying roller 21, the second power part 421 is used for driving the clamping block 423 to be close to or far from the positioning plate 422, the second power part 421 comprises a second servo motor, the output end of the second servo motor is fixedly connected with the clamping block 423, the movement of the clamping block 423 is controlled through the second servo motor, the upper clamping assembly 41 is positioned between the transverse cutting assembly 31 and the vertical cutting assembly 32, the lower clamping assembly 42 is positioned below the transverse cutting assembly 31, and the part of the fabric positioned between the upper clamping assembly 41 and the lower clamping assembly 42 is in a natural sagging state by means of gravity, so that the fabric between the upper clamping assembly 41 and the lower clamping assembly 42 can be in a tight state, the cutting of the cutting part of being convenient for, when preventing the cutting of cutting part, the condition of surface fabric length difference or surface fabric fold appears.

Referring to fig. 4, the distance from the clamping block 423 to the guide plate 52 is equal to the distance from the clamping roller 413 to the positioning roller 412, and the connecting line between the clamping roller 413 and the clamping block 423 is parallel to the vertical surface, so that the fabric positioned between the clamping block 423 and the clamping roller 413 can be in a vertical state, the part of the fabric can be in a stretched state after being clamped, and is parallel to the vertical surface, the fabric formed after being cut by the cutting part is ensured to be identical in size and shape, and the yield is ensured.

Referring to fig. 5 and 6, the guide assembly 5 includes a rotating portion and a guide plate 52, a fixing portion is disposed on the guide plate 52, the fixing portion is used for being hinged to the positioning plate 422, the rotating portion is used for driving the guide plate 52 to rotate, the rotating portion includes an electric push rod, an output end of the electric push rod is rotatably connected to the guide plate 52, the electric push rod is hinged to the support 1, the rotating portion drives the guide plate 52 to rotate, so as to adjust the position of the guide plate 52 relative to the conveying portion 61, it is ensured that cut fabric can enter the conveying portion 61 through the guide plate 52, one side of the guide plate 52 facing the conveying portion 61 is set to be a plane, and after the fabric is guided by the guide plate 52, the moving direction is consistent with the conveying direction.

Referring to fig. 1 and 5, the clamping jaw end 622 includes a plurality of electric clamping jaws, fixing rods 643 are fixedly connected to two opposite sides of the connecting frame 642, the fixing rods 643 are parallel to the cross bar, the electric clamping jaws are fixedly connected to the fixing rods 643, 4 electric clamping jaws are used as a group, every two electric clamping jaws in each group are opposite to each other, cut fabric conveyed by the conveying belt 613 is rectangular, four electric clamping jaws in each group correspond to four corners of the fabric respectively, and the fabric is grabbed simultaneously, so that the grabbed fabric is still in a flat state, and subsequent automatic processing is facilitated.

Referring to fig. 2 and 3, a support frame 9 is arranged below a frame 611, a conveying portion 91 is arranged on the support frame 9, the conveying portion 91 is used for conveying fabric, the conveying direction of the conveying portion 91 is perpendicular to the conveying direction of the conveying portion 61, the gripping portion 62 can place the fabric on the conveying portion 61 on the conveying portion 91, the fabric is conveyed to a designated position through the conveying portion 91 for subsequent processing, the moving distance of the gripping portion 62 is reduced, and therefore the processing efficiency is improved, the conveying portion 91 comprises a frame body, a sliding portion 92 is arranged between the frame body and the support 1, the sliding portion 92 is used for driving the frame body to move in the vertical direction, the conveying portion 91 comprises two power rollers and a conveying belt, the conveying belt is in transmission connection between the two power rollers, the power rollers are in rotational connection with the frame body, the power rollers are perpendicular to the conveying rollers 612, and the power of the power rollers, the slip does not include a plurality of dwangs, can connect through a plurality of gear drive between the dwang, also can connect through the transmission of other synchronous belt group, power is provided singly by another motor, make transfer portion 91 can go up and down, place a surface fabric after grabbing portion 62 on same position, through the high reduction of transfer portion 91, make and grab portion 62 and can be on same position height, place another surface fabric in the top on last piece of face, under the condition of portion 62 high position is grabbed in not adjusting, the stacking of surface fabric has been realized, the work efficiency is improved, and can set for the quantity that transfer portion 91 carried the surface fabric.

The working principle is as follows: the fabric is fed through a conveying roller 21 in a feeding mechanism 2, the fabric is thermally transferred through a thermal transfer printing technology through a thermal transfer printing mechanism on the conveying roller 21, the fabric enters a cutting mechanism 3, an ultrasonic cutting device in a vertical cutting assembly 32 firstly cuts the fabric, the fabric is cut into strips in the moving process of the fabric, the fabric passes through a space between a clamping roller 413 and a positioning roller 412 in the moving process of the fabric, so that the fabric is positioned in the vertical cutting assembly 32 and is in a tight state, then the conveying roller 21 stops rotating, a second servo motor drives a clamping block 423 to move to clamp the fabric, the ultrasonic cutting device in a cutting part cuts the strip fabric, then the clamping block 423 is loosened, the fabric after cutting moves towards one side of a conveying part 61 through a guide plate 52, the flatness of the cut fabric is adjusted through a pressing roller 614, the conveying part 61 conveys the fabric, by the cooperation of the first moving part 63 and the second moving part 64, the electric gripping jaws grip the fabric from the conveying part 61 and send the fabric out of the conveying part 61 to be placed on the conveying part.

The above is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above-mentioned embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims

1. The utility model provides an automatic fabric slitting system moves about freely and quickly, includes support (1), be provided with feeding mechanism (2) on support (1), feeding mechanism (2) are used for carrying the surface fabric, its characterized in that: the fabric cutting device is characterized in that the support (1) is further provided with a cutting mechanism (3) and a clamping mechanism (4), the clamping mechanism (4) is used for clamping fabric, the cutting mechanism (3) comprises a transverse cutting assembly (31) and a vertical cutting assembly (32), the transverse cutting assembly (31) is located below the vertical cutting assembly (32), the vertical cutting assembly (32) is used for vertically cutting the fabric, the transverse cutting assembly (31) is used for transversely cutting the vertically cut fabric, the transverse cutting assembly (31) comprises a plurality of cutting portions, the cutting portions are horizontally arranged side by side, the distance between every two adjacent cutting portions is equal, the support (1) is further provided with a guide assembly (5) and a material receiving assembly (6), the guide assembly (5) is located below the cutting mechanism, and the material receiving assembly (6) comprises a conveying portion (61) and a grabbing portion (62), the guide assembly (5) is used for guiding the transversely cut fabric to the conveying part (61), the conveying part (61) is used for conveying the transversely cut fabric, and the grabbing part (62) is used for grabbing the fabric on the conveying part (61).

2. The automatic slitting system for cross fabric according to claim 1, wherein: feeding mechanism (2) include a plurality of transfer roller (21), a plurality of be parallel to each other between transfer roller (21), one of them be provided with heat transfer printing mechanism on transfer roller (21), heat transfer printing mechanism is used for carrying out the heat-transfer seal to the surface fabric.

3. The automatic slitting system for cross fabric according to claim 2, wherein: the clamping mechanism (4) comprises an upper clamping assembly (41) and a lower clamping assembly (42), the upper clamping assembly (41) is located between the transverse cutting assembly (31) and the vertical cutting assembly (32), the lower clamping assembly (42) is located below the transverse cutting assembly (31), the upper clamping assembly (41) comprises a first power part (411), a positioning roller (412) and a clamping roller (413), the positioning roller (412) and the clamping roller (413) are oppositely arranged and are both arranged in parallel with the conveying roller (21), the first power part (411) is used for driving the clamping roller (413) to be close to or far away from the upper positioning roller (412), the lower clamping assembly (42) comprises a second power part (421), a positioning plate (422) and a clamping block (423), the positioning plate (422) is fixedly connected to the support (1), and the conveying roller (423) is arranged in parallel with the conveying roller (21), the second power part (421) is used for driving the clamping block (423) to be close to or far away from the positioning plate (422).

4. The automatic slitting system of cross fabric as claimed in claim 3, wherein: the distance from the clamping block (423) to the guide plate (52) is equal to the distance from the clamping roller (413) to the positioning roller (412), and a connecting line between the clamping roller (413) and the clamping block (423) is parallel to a vertical plane.

5. The automatic slitting system of cross fabric as claimed in claim 3, wherein: the guide assembly (5) comprises a rotating part and a guide plate (52), a fixing part is arranged on the guide plate (52), the fixing part is used for being hinged to the positioning plate (422), and the rotating part is used for driving the guide plate (52) to rotate.

6. The automatic slitting system of cross fabric of claim 5, wherein: the conveying part (61) comprises a frame (611), two conveying rollers (612) are hinged to the frame (611), the two conveying rollers (612) are parallel to each other and located at the same position height, a conveying belt (613) is connected between the two conveying rollers (612) in a transmission mode, a pressing roller (614) is connected to the frame (611) in a rotating mode, and the pressing roller (614) is located above the conveying rollers (612) and is arranged opposite to the conveying rollers (612) close to the guide plate (52).

7. The automatic slitting system for cross fabric according to claim 6, wherein: the grabbing portion (62) comprises a power end (621) and a clamping jaw end (622), the power end (621) comprises a first moving portion (63) and a second moving portion (64), the first moving portion (63) is used for driving the clamping jaw end (622) to reciprocate along the conveying direction of the conveying belt (613), and the second moving portion (64) is used for driving the clamping jaw end (622) to reciprocate in the vertical direction.

8. The automatic slitting system for cross fabric according to claim 7, wherein: the first moving part (63) comprises slide rails arranged on two sides of the conveying direction of the conveying belt (613), a cross rod is connected to the two slide rails in a sliding manner, the second moving part (64) is arranged on the cross rod, conveying rods (7) are rotatably connected to two ends of the conveying direction of the conveying belt (613), two groups of transmission assemblies (8) are arranged between the two conveying rods (7), each transmission assembly (8) comprises two conveying belt wheels, the conveying belt wheels are in one-to-one correspondence with the conveying rods (7) and are fixedly connected with the conveying rods, a synchronous conveying belt is connected between the two conveying belt wheels in a transmission manner and is fixedly connected with the cross rod, the second moving part (64) comprises an air cylinder (641), the output end of the air cylinder (641) faces downwards, and a connecting frame (642) is fixedly connected with the output end of the air cylinder (641), the jaw end (622) is disposed on the connecting frame (642).

9. The automatic slitting system for cross fabric according to claim 7, wherein: the clamping jaw end (622) comprises a plurality of electric clamping jaws, fixing rods (643) are fixedly connected to two opposite sides of the connecting frame (642), the fixing rods (643) are parallel to the cross rod, and the electric clamping jaws are fixedly connected to the fixing rods (643).

10. The automatic slitting system for cross fabric according to claim 9, wherein: the fabric conveying device is characterized in that a supporting frame (9) is arranged below the frame (611), a conveying part (91) is arranged on the supporting frame (9), the conveying part (91) is used for conveying fabric, the conveying direction of the conveying part (91) is perpendicular to the conveying direction of the conveying part (61), the conveying part (91) comprises a frame body, a sliding part (92) is arranged between the frame body and the support (1), and the sliding part (92) is used for driving the frame body to move in the vertical direction.