CN109518448B

CN109518448B - Automatic cutting and bonding machine for non-woven fabric production

Info

Publication number: CN109518448B
Application number: CN201811504673.5A
Authority: CN
Inventors: 郭子贤; 王涛; 朱红星; 厉加军
Original assignee: Jiangsu Shenhe Technology Development Co ltd
Current assignee: Jiangsu Shenhe Technology Development Co ltd
Priority date: 2018-12-10
Filing date: 2018-12-10
Publication date: 2024-03-29
Anticipated expiration: 2038-12-10
Also published as: CN109518448A

Abstract

The invention discloses an automatic cutting and bonding machine based on weft-free cloth production, which comprises a cutting and bonding mechanism and a winding mechanism, wherein the cutting and bonding mechanism comprises an unreeling mechanism, a fixed-length pulling-on piece mechanism, a cutting mechanism and a bonding mechanism which are arranged on a bracket, and the winding mechanism comprises a fixed-length winding structure which is arranged on the bracket. The automatic cutting and bonding machine for the production of the non-woven cloth is reasonable in structure and convenient to operate, solves the problem that a large amount of labor is consumed for manufacturing the transverse sheet coiled material in the production process of the non-woven cloth, effectively reduces labor cost, improves economic benefit, solves the problems of uneven length and inconsistent manual bonding of manual cutting, and improves the overall quality of products.

Description

Automatic cutting and bonding machine for non-woven fabric production

Technical Field

The invention belongs to the technical field of non-woven fabric production equipment, and particularly relates to an automatic cutting and bonding machine for non-woven fabric production.

Background

The high-performance fiber UD laid fabric is made up by using high-performance fiber as base material, such as ultra-high molecular weight polyethylene fiber and aramid fibre, uniformly spreading yarn by advanced high-tech equipment, impregnating, coating with high-strength elastomer resin, binding with film and orthogonal composite lamination. The product has the excellent performances of soft hand feeling, small density, abrasion resistance, impact resistance, strong cutting resistance and toughness, and the like, is widely applied to soft bulletproof clothes, light bulletproof helmets, light bulletproof armor plates, stab-resistant and cutting-resistant clothing liners and special public explosion-proof facilities, and is the bulletproof material with highest intensity and lightest specific gravity in the current world.

The traditional non-woven fabric orthogonal compounding is to perform hot-press compounding on the one-way sheets cut into sheets by manual orthogonal folding, and the mode has low efficiency and is difficult to produce on a large scale. The current general technology is to cut unidirectional sheets and then bond the unidirectional sheets into transverse sheet coiled materials and then compound the transverse sheet coiled materials with the unidirectional sheets on line, and the technology is suitable for large-scale production. However, when the transverse sheet coiled material is manufactured in China, the coiled unidirectional sheet is cut into the sheet with a fixed length in a manual mode, and then the sheet is manually adhered to form the coiled sheet, so that a great amount of labor and time are consumed in manufacturing the transverse sheet coiled material, the production cost is increased, the consistency of the sheet is difficult to ensure due to manual cutting and adhesion, and the quality of products is reduced.

Disclosure of Invention

The invention aims to: the invention aims at overcoming the defects in the prior art, and provides an automatic cutting and bonding machine for producing non-woven cloth, which is used for realizing automatic cutting and bonding of non-woven cloth unidirectional sheets.

The technical scheme is as follows: in order to achieve the above purpose, the invention provides an automatic cutting and bonding machine for producing weft-free cloth, which comprises a cutting and bonding mechanism and a winding mechanism, wherein the cutting and bonding mechanism comprises an unreeling mechanism, a fixed-length pulling-on piece mechanism, a cutting mechanism and a bonding mechanism which are arranged on a bracket, and the winding mechanism comprises a fixed-length winding structure which is arranged on the bracket; the unreeling structure comprises a standby unidirectional sheet placing rack, a guide roller I and a guide roller II, wherein a placing shaft is arranged on the standby unidirectional sheet placing rack, and the placing shaft, the guide roller I and the guide roller II are placed in parallel; the fixed-length pulling-on piece mechanism comprises a ball screw, an optical axis guide rail, a sliding cross rod and a pulling-on piece manipulator, wherein the ball screw and the optical axis guide rail are arranged in parallel and perpendicular to a placing shaft; the cutting mechanism comprises an automatic cutting knife, a lifting plate, a front pressing plate, a rear pressing plate and a cutting track, wherein the cutting track is parallel to the guide roller II and is positioned below the ball screw and the optical axis guide rail; the bonding structure comprises a bonding upper pressing plate and a bonding hot plate, the bonding structure is arranged on one side of the end part of the guide roller II and is perpendicular to the guide roller II, the bonding hot plate is a strip-shaped electric heating plate, the bonding upper pressing plate is positioned above the bonding hot plate, and an air cylinder drives the bonding hot plate to move up and down; the winding mechanism is arranged outside the bonding structure, the fixed-length winding structure comprises a transverse sheet guide roller, a press roller, a fixed-length servo motor, a winding shaft and a winding motor, the transverse sheet guide roller, the fixed-length roller and the winding shaft are sequentially arranged in parallel, the transverse sheet guide roller is nearest to the bonding hot plate, the press roller is arranged above the fixed-length roller in parallel and can be driven by a cylinder to move up and down, the fixed-length roller is driven by the fixed-length servo motor to rotate, and the winding shaft is driven by the winding motor to rotate.

As an improvement of the scheme, the placing shaft is provided with a magnetic powder brake, so that a damping effect is achieved.

As an improvement of the scheme, the cutting cylinder is a rodless cylinder.

As an improvement of the scheme, a silica gel strip is arranged at the lower end of the bonding upper pressing plate, the width of the bonding hot plate is 1-3cm, and Teflon high-temperature cloth is attached to the surface of the bonding hot plate.

As an improvement of the scheme, a guide plate is arranged between the bonding hot plate and the transverse sheet guide roller, and the guide plate is parallel to the transverse sheet guide roller.

The beneficial effects are that: the automatic cutting and bonding machine for the production of the non-woven cloth is reasonable in structure and convenient to operate, solves the problem that a large amount of labor is consumed for manufacturing the transverse sheet coiled material in the production process of the non-woven cloth, effectively reduces labor cost, improves economic benefit, solves the problems of uneven length of manual cutting and inconsistent manual bonding, and improves the overall quality of products.

Drawings

FIG. 1 is a schematic structural diagram of an automatic cutting and bonding machine for producing weft-free cloth;

FIG. 2 is a schematic view of the cutting and bonding mechanism;

FIG. 3 is a schematic structural view of the winding mechanism;

FIG. 4 is a schematic diagram of the working principle of the automatic cutting and bonding machine;

list of reference numerals: 100. a cutting and bonding mechanism; 200. a winding mechanism; 1. a unidirectional sheet placing rack is used for standby; 2. a guide roller I; 3. a guide roller II; 4. a lifting plate; 5. a front platen; 6. a rear pressing plate; 7. automatic cutting knife; 8. cutting the rail; 9. bonding an upper pressing plate; 10. bonding a hot plate; 11. a pull tab manipulator; 12. a sliding cross bar; 13. a ball screw; 14. placing a shaft; 15. a guide plate; 16. a lateral sheet guide roller; 17. a press roller; 18. a fixed length roller; 19. a fixed-length servo motor; 20. a winding motor; 21. a winding shaft; 30. unwinding a reel for standby unidirectional sheets; 31. cutting the unidirectional sheet at fixed length; 32. a transverse sheet to be bonded; 33. and a transverse sheet take-up reel.

Detailed Description

The present invention is further illustrated in the following drawings and detailed description, which are to be understood as being merely illustrative of the invention and not limiting the scope of the invention. It should be noted that the words "front", "rear", "left", "right", "upper" and "lower" used in the following description refer to directions in the drawings, and the words "inner" and "outer" refer to directions toward or away from, respectively, the geometric center of a particular component.

An automatic cutting and bonding machine for producing weft-free cloth, as shown in fig. 1, comprises a cutting and bonding mechanism 100 and a winding mechanism 200. The cutting and bonding mechanism 100 includes an unreeling mechanism, a fixed length pulling-on piece mechanism, a cutting mechanism and a bonding mechanism provided on a support, and the reeling mechanism 200 includes a fixed length reeling structure provided on a support.

As shown in fig. 2, the unreeling structure comprises a standby unidirectional sheet holder 1, a guide roller I2 and a guide roller II3, wherein a placing shaft 14 is arranged on the standby unidirectional sheet holder 1, and the placing shaft 14, the guide roller I2 and the guide roller II3 are arranged in parallel; the placement shaft 14 is provided with a magnetic powder brake, which plays a damping role. The fixed-length pulling-on piece mechanism comprises a ball screw 13, an optical axis guide rail, a sliding cross rod 12 and a pulling-on piece manipulator 11, wherein the ball screw 13 and the optical axis guide rail are mutually parallel and perpendicular to a placement shaft 14, and only the ball screw 13 can be seen in the figure due to the view angle. The placing shaft 14, the guide roller I2 and the guide roller II3 are arranged outside one end of the ball screw 13 and one end of the optical axis guide rail, the sliding cross rod 12 is movably connected to the ball screw 13 and the optical axis guide rail, and the pulling-on piece manipulator 11 is connected to the sliding cross rod 12. The pulling-on piece manipulator 11 is a clamping device with a clamping part which can be opened and closed and is started by an air cylinder and used for clamping cloth. The cutting mechanism comprises an automatic cutting knife, a lifting plate 4, a front pressing plate 5, a rear pressing plate 6 and a cutting track 8, wherein the cutting track 8 is parallel to the guide roller II3 and is located below the ball screw 13 and the optical axis guide rail, the automatic cutting knife 7 comprises an electric cutting knife and a cutting cylinder, the electric cutting knife and the cutting cylinder are located in the cutting track 8, the electric cutting knife is driven by the cutting cylinder to slide on the cutting track 8, and the cutting cylinder is a rodless cylinder. The front pressing plate 5 is located between the automatic cutting knife 7 and the guide roller II3, the lifting plate 4 is arranged below the front pressing plate 5, the front pressing plate 5 and the lifting plate 4 can be driven by the air cylinder to move up and down respectively, the automatic cutting knife 7 is arranged between the front pressing plate 5 and the rear pressing plate 6, the rear pressing plate 6 is located above the automatic cutting knife 7, and the air cylinder can drive the lifting plate to move up and down.

As shown in fig. 3, the bonding structure comprises a bonding upper pressing plate 9 and a bonding hot plate 10, the bonding structure is arranged on one side of the end part of the guide roller II3 and is perpendicular to the guide roller II3, the bonding hot plate 10 is a strip-shaped electric heating plate, the bonding upper pressing plate 9 is positioned above the bonding hot plate 10, and the bonding upper pressing plate is driven by an air cylinder to move up and down. The lower end of the bonding upper pressing plate 9 is provided with a silica gel strip, the width of the bonding hot plate 10 is 2cm, and the surface of the bonding hot plate 10 is attached with Teflon high temperature cloth. The winding mechanism 200 is arranged outside the bonding structure, the fixed-length winding structure comprises a transverse sheet guide roller 16, a compression roller 17, a fixed-length roller 18, a fixed-length servo motor 19, a winding shaft 21 and a winding motor 20, the transverse sheet guide roller 16, the fixed-length roller 18 and the winding shaft 21 are sequentially arranged in parallel, the transverse sheet guide roller 16 is closest to the bonding hot plate 10, a guide plate 15 is arranged between the bonding hot plate 10 and the transverse sheet guide roller 16, and the guide plate 15 is parallel to the transverse sheet guide roller 16. The compression roller 17 is arranged above the fixed-length roller 18 in parallel, and can move up and down under the drive of an air cylinder, the fixed-length roller 18 is driven to rotate by a fixed-length servo motor 19, and the winding shaft 21 is driven to rotate by a winding motor 20.

As shown in fig. 4, the working principle of the automatic cutting and bonding machine is shown, and for clarity of description, the direction of pulling the unidirectional sheet by the unreeling mechanism and the fixed-length pulling sheet mechanism is defined as the X-axis direction; the direction in which the winding mechanism 200 pulls the unidirectional sheet is the Y-axis direction. In actual operation, the unidirectional sheet coiled material to be cut is placed on the placement frame and sleeved outside the placement shaft 14 to form a standby unidirectional sheet unwinding shaft 30, one end of the placement shaft 14 is connected with a magnetic powder brake, the magnetic powder brake plays a damping role, and the standby unidirectional sheet unwinding shaft 30 is prevented from excessively rotating, so that the unidirectional sheet unwinding is too long. The unidirectional sheet is led out through the space between the front pressing plate 5 and the lifting plate 4 after passing through the guide roller I2 and the guide roller II3, the limiting position on the unidirectional sheet is limited by the downward movement of the front pressing plate 5 during operation, the lifting plate 4 ascends to clamp the unidirectional sheet together with the front pressing plate 5, the unidirectional sheet is clamped by the action of the pulling-sheet manipulator 11 after the pulling-sheet manipulator 11 is driven to the position where the edge of the unidirectional sheet is located through the sliding cross rod 12, the unidirectional sheet is loosened by the upward movement of the front pressing plate 5, the lifting plate 4 descends to the bottom, and the sliding cross rod 12 drives the pulling-sheet manipulator 11 to move backwards to a set length and then stops moving. At this time, the front and rear pressing plates 5 and 6 press down to fix the unidirectional sheet, and the lifting plate 4 rises again to clamp the unidirectional sheet together with the front pressing plate 5. The automatic cutting knife 7 slides in the cutting track 8 to cut the unidirectional sheet, the automatic cutting knife 7 resets after cutting, at this time, the rear pressing plate 6 ascends to release the cut fixed-length cutting unidirectional sheet 31, the pulling-on piece manipulator 11 pulls the fixed-length cutting unidirectional sheet 31 backwards to a specified bonding position, and the pulling-on piece manipulator 11 releases the fixed-length cutting unidirectional sheet 31. At this time, the bonding edge of the fixed-length cut unidirectional sheet 31 is just placed at the center of the bonding hot plate 10, the bonding edge of the fixed-length cut unidirectional sheet 31 coincides with the bonding edge of the transverse sheet 32 to be bonded by 2 to 5 mm, at this time, the bonding upper pressing plate 9 is pressed down to complete the bonding process together with the bonding hot plate 10, the bonding upper pressing plate 9 is lifted after bonding, the bonded transverse sheet is led out between the pressing roller 17 and the fixed-length roller 18 after passing below the guide plate 15 and above the transverse sheet guide roller 16, and the led-out transverse sheet is wound up by the transverse sheet winding shaft 3321. The pressing roller 17 presses down and clamps the transverse sheet with the fixed-length roller 18, the fixed-length roller 18 is driven by the fixed-length servo motor 19, the transverse sheet is wound in a fixed length mode, and the winding distance of the transverse sheet is guaranteed to be fixed every time. With the automatic cutting and bonding machine for non-woven fabric production, a worker only needs to manually move the cut fixed-length cutting unidirectional sheet 31 to be bonded to the position of the transverse sheet 32 when bonding for the first time, and winds the cut fixed-length cutting unidirectional sheet 31 to the transverse sheet winding shaft 3321 for winding after bonding with the cut fixed-length cutting unidirectional sheet 31 for the second time. The subsequent cutting and bonding steps may be automated by the automated cutting bonding machine.

The technical means disclosed by the scheme of the invention is not limited to the technical means disclosed by the embodiment, and also comprises the technical scheme formed by any combination of the technical features.

Claims

1. The automatic cutting and bonding machine for the production of the weft-free cloth is characterized by comprising a cutting and bonding mechanism (100) and a winding mechanism (200), wherein the cutting and bonding mechanism (100) comprises an unreeling mechanism, a fixed-length pulling-on piece mechanism, a cutting mechanism and a bonding structure which are arranged on a bracket, and the winding mechanism (200) comprises a fixed-length winding structure which is arranged on the bracket; the unreeling structure comprises a standby unidirectional sheet placing frame (1), a guide roller I (2) and a guide roller II (3), wherein a placing shaft (14) is arranged on the standby unidirectional sheet placing frame (1), and the placing shaft (14), the guide roller I (2) and the guide roller II (3) are placed in parallel; the fixed-length pulling-on piece mechanism comprises a ball screw (13), an optical axis guide rail, a sliding cross rod (12) and a pulling-on piece manipulator (11), wherein the ball screw (13) and the optical axis guide rail are mutually parallel and perpendicular to a placing shaft (14), and the placing shaft (14), a guide roller I (2) and a guide roller II (3) are arranged on the ball screw (13)

The sliding cross rod (12) is movably connected to the ball screw (13) and the optical axis guide rail, and the pulling-on piece manipulator (11) is connected to the sliding cross rod (12); the cutting mechanism comprises an automatic cutting knife, a lifting plate (4), a front pressing plate (5), a rear pressing plate (6) and a cutting track (8), wherein the cutting track (8) is parallel to the guide roller II (3) and is positioned below the ball screw (13) and the optical axis guide rail, the automatic cutting knife (7) comprises an electric cutting knife and a cutting cylinder, the electric cutting knife and the cutting cylinder are positioned in the cutting track (8), the electric cutting knife is driven by the cutting cylinder to slide on the cutting track (8), the front pressing plate (5) is positioned between the automatic cutting knife (7) and the guide roller II (3), the lifting plate (4) is arranged below the front pressing plate (5), the lifting plate (4) can be respectively driven by the cylinder to move up and down, the automatic cutting knife (7) is arranged between the front pressing plate (5) and the rear pressing plate (6), and the rear pressing plate (6) is positioned above the automatic cutting knife (7) and can be driven by the cylinder to move up and down; the bonding structure comprises a bonding upper pressing plate (9) and a bonding hot plate (10), the bonding structure is arranged on one side of the end part of the guide roller II (3) and is perpendicular to the guide roller II (3), the bonding hot plate (10) is a strip-shaped electric heating plate, the bonding upper pressing plate (9) is positioned above the bonding hot plate (10), and an air cylinder drives the bonding hot plate to move up and down; winding mechanism (200) set up in the bonding structure outside, fixed length winding structure includes horizontal piece guide roll (16), compression roller (17), fixed length roller (18), fixed length servo motor (19), winding shaft (21) and winding motor (20), horizontal piece guide roll, fixed length roller (18) and winding shaft (21) parallel arrangement each other in proper order, and horizontal piece guide roll (16) are nearest apart from bonding hot plate (10), and compression roller (17) parallel arrangement is in fixed length roller (18) top, and drive by the cylinder and reciprocate, and fixed length roller (18) are driven by fixed length servo motor (19) and are rotated, and winding shaft (21) are driven by winding motor (20) and are rotated.

2. The automatic cutting and bonding machine for non-woven fabric production according to claim 1, wherein: the placing shaft (14) is provided with a magnetic powder brake, and plays a role in damping.

3. The automatic cutting and bonding machine for non-woven fabric production according to claim 2, wherein: the cutting cylinder is a rodless cylinder.

4. The automatic cutting and bonding machine for non-woven fabric production according to claim 3, wherein: the lower end of the bonding upper pressing plate (9) is provided with a silica gel strip, the width of the bonding hot plate (10) is 1-3cm, and the surface of the bonding hot plate (10) is attached with Teflon high-temperature cloth.

5. The automatic cutting and bonding machine for producing weft-free cloth according to claim 4, wherein: a guide plate (15) is arranged between the bonding hot plate (10) and the transverse sheet guide roller (16), and the guide plate (15) is parallel to the transverse sheet guide roller (16).