CN111778636A

CN111778636A - Non-woven fabric manufacturing equipment

Info

Publication number: CN111778636A
Application number: CN202010676816.1A
Authority: CN
Inventors: 段小明
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-14
Filing date: 2020-07-14
Publication date: 2020-10-16

Abstract

The invention discloses non-woven fabric manufacturing equipment, which has the technical scheme that: including the frame, still include: a raw material supply mechanism for supplying a fiber raw material; a spunlace nozzle which is arranged above the frame and used for spunlace forming; the first power mechanism is used for dragging the raw material supply mechanism to supply raw materials to move forwards; the hot-press forming mechanism is arranged on the rack; the embossing mechanism is arranged on the machine frame and can adjust the embossing depth; the drawing and wrinkle-removing mechanism is arranged on the rack; two groups of trimming mechanisms; the second power mechanism is used for driving the cloth to advance; when the non-woven fabric manufacturing equipment is used, the non-woven fabric spunlace production is simple and reliable in structure, a series of subsequent production can be realized by the non-woven fabric produced by spunlace, the non-woven fabric spunlace production equipment has the advantage of continuous production, and the production efficiency of the non-woven fabric can be improved.

Description

Non-woven fabric manufacturing equipment

Technical Field

The invention relates to the field of non-woven fabric production, in particular to non-woven fabric manufacturing equipment.

Background

Nonwoven fabrics, also known as nonwovens, are formed from oriented or random fibers that are consolidated mechanically, thermally, or chemically into a web structure. The fiber for producing the non-woven fabric is mainly polypropylene (PP) and Polyester (PET). In addition, there are Polyamide (PA), viscose, acrylic, polyethylene (HDPE), polyvinyl chloride (PVC). A common production method of nonwoven fabrics is spunlace.

The current chinese patent that publication number is CN107869017A discloses a device of continuous production non-woven fabrics, and its structure includes bearing bracket, motor, rack, buffer, transmission axle, calibrator, winder, shell, control box, the shell is "concave" type, divide into about well triplex, for the cuboid about, central authorities are "mouthful" style of calligraphy, and three's butt joint department is through laminating welding fastening connection, transmission axle both sides terminal embedding in surface laminating bearing bracket inboard surface central authorities, the bottom surface is established in shell top surface top, and both do not have the lug connection relation. The invention is provided with a buffer.

The device for continuously producing the non-woven fabric can avoid the effect of breakage of the non-woven fabric; however, the above-mentioned devices for the continuous production of nonwoven fabrics still have some disadvantages, such as: on the one hand, it does not provide a simple and reliable spunlace nonwoven forming device; on the other hand, the device can not realize good forming, embossing, drawing wrinkle removal and side trimming in continuous production, and has low production efficiency.

Disclosure of Invention

In view of the problems mentioned in the background, it is an object of the present invention to provide a nonwoven fabric manufacturing apparatus to solve the problems mentioned in the background.

The technical purpose of the invention is realized by the following technical scheme:

a non-woven fabric manufacturing apparatus, comprising a frame, further comprising:

a raw material supply mechanism for supplying a fiber raw material;

a spunlace nozzle which is arranged above the frame and used for spunlace forming;

the first power mechanism is used for dragging the raw material supply mechanism to supply raw materials to move forwards;

the hot-press forming mechanism is arranged on the rack;

the embossing mechanism is arranged on the machine frame and can adjust the embossing depth;

the drawing and wrinkle-removing mechanism is arranged on the rack;

two groups of trimming mechanisms;

and a second power mechanism for driving the cloth to advance.

By adopting the technical scheme, the non-woven fabric manufacturing equipment can feed fiber raw materials for producing non-woven fabrics by spunlace by virtue of the raw material supply mechanism when in use, can assist the non-woven fabrics to move forward by virtue of the first power mechanism, can disorder and wind long and short fibers in the fiber raw materials by virtue of the spunlace nozzle, can realize the production of the non-woven fabrics by virtue of the hot-pressing forming mechanism, and can carry out embossing and drawing on the produced non-woven fabrics, and then remove wrinkles by virtue of the embossing mechanism and the edge of the edge cutting mechanism; the non-woven fabric spunlace production has the advantages of simple and reliable structure, continuous production and capability of improving the production efficiency of the non-woven fabric, and the non-woven fabric spunlace production can realize a series of subsequent production.

The preferred, raw materials feed mechanism includes first raw materials roller, second raw materials roller, third raw materials roller, back shaft, kidney-shaped groove, lock sleeve, first unwinding roller, second unwinding roller and third unwinding roller, first raw materials roller second raw materials roller with third raw materials roller overlaps respectively and is established the outside of back shaft, the kidney-shaped groove is seted up supply in the frame back shaft card is gone into, lock sleeve threaded connection be in the outside of back shaft, first unwinding roller the second unwinding roller with third unwinding roller rotates respectively and is connected in the frame.

Through adopting above-mentioned technical scheme, utilize first raw materials roller, second raw materials roller, three kinds of raw materials fibre can be supplied with simultaneously to the third raw materials roller, first unwinding roller, second unwinding roller and third unwinding roller can keep the stability after first raw materials roller, second raw materials roller, third raw materials roller expand, and through going into the lock sleeve locking of reuse behind the kidney slot with the back shaft card and can realize the locking to the back shaft, make things convenient for the change of first raw materials roller, second raw materials roller, third raw materials roller.

Preferably, the first power mechanism includes a first servo motor, a driving roller, a driven roller, a first gear, a second gear, a first dimensionally stable roller and a second dimensionally stable roller, the first servo motor is fixed on the frame to drive the driving roller to rotate, the driving roller and the driven roller are respectively rotatably connected to the frame, the first gear is fixed at an end of the driving roller, the second gear is fixed at an end of the driven roller, the first gear and the second gear are engaged with each other, and the first dimensionally stable roller and the second dimensionally stable roller are respectively rotatably connected to the frame.

Through adopting above-mentioned technical scheme, when starting the first servo motor in the first power unit, it can drive the drive roll and rotate, utilizes first gear and second gear can drive the driven voller and rotate to the raw materials that can the first raw materials roller of tractive, second raw materials roller, third raw materials roller supplied with advances, and the steady roller of first dimension and the steady roller of second dimension can be with three kinds of raw materials pressfitting to a certain extent, make things convenient for subsequent production and raw materials to supply with.

Preferably, the hot-press forming mechanism comprises a first bearing plate, a second servo motor, a first press roller, a second press roller, a third press roller and two heating rods, wherein the first bearing plate is fixed on the rack and positioned at the bottoms of the first press roller, the second press roller and the third press roller, the third servo motor is fixed on the rack and drives the first press roller to rotate, the first press roller, the second press roller and the third press roller are respectively and rotatably connected in the rack, the second press roller and the third press roller are positioned at two sides of the first press roller, and the two heating rods are respectively and fixedly inserted in the second press roller and the third press roller.

Through adopting above-mentioned technical scheme, utilize hot briquetting mechanism can conveniently drive first compression roller through starting second servo motor and rotate with non-woven fabrics hot briquetting after water thorn shower nozzle water thorn shaping, thereby can drive second compression roller and third compression roller and rotate, thereby can be fixed with the non-woven fabrics pressfitting, and the heating rod in second compression roller and the third compression roller can heat when the pressfitting, improves hot briquetting's effect.

Preferably, the embossing mechanism comprises a second bearing plate, two supporting columns, two sliding grooves, two sliding seats, two first air cylinders, an embossing shaft, an embossing roller sleeve and a third servo motor, the second bearing plate is fixed on the frame, the two support columns are symmetrically fixed on two sides of the frame, the two sliding grooves are respectively arranged in the support columns, the two sliding seats are respectively connected in the sliding grooves in a sliding manner along the vertical direction, the cylinder bodies of the two cylinders are respectively fixed on the tops of the support columns, the end parts of the piston rods of the two cylinders are respectively fixed on the sliding seats, the embossing shaft is rotationally connected between the two sliding seats, the embossing roller sleeve is in key connection and fixed outside the embossing shaft, and the third servo motor is fixed on one of the sliding seats and is used for driving the embossing shaft to rotate.

Through adopting above-mentioned technical scheme, utilize knurling mechanism to realize the knurling, and the degree of depth of knurling can be controlled, third servo motor through starting on the sliding seat can drive the knurling axle and the rotation of knurling roller housing, and the second bearing board of deuterogamying can improve the effect of knurling, and can drive the sliding seat through the first cylinder that starts the support column top and slide in the sliding tray, thereby can drive knurling axle and clamping ring roller housing height-adjusting, thereby can adjust the knurling degree of depth.

Preferably, the traction wrinkle-removing mechanism comprises a first traction roller, a second traction roller, a third traction roller, two supporting seats, two grooves, two fixing seats and two second cylinders, wherein the first traction roller and the second traction roller are respectively and rotatably connected in the rack, the third traction roller is rotatably connected between the two fixing seats, the two supporting seats are respectively fixed on the rack, the grooves are respectively formed in the supporting seats for the horizontal sliding of the fixing seats, the two cylinder bodies of the second cylinders are respectively fixed on the supporting seats, and the end parts of piston rods of the second cylinders are respectively fixed on the fixing seats.

Through adopting above-mentioned technical scheme, can realize the tractive through first carry over pinch rolls, second carry over pinch rolls, the third carry over pinch rolls that utilize among the tractive wrinkle removing mechanism and go out the wrinkle function, and the position of third carry over pinch rolls can conveniently be adjusted, can drive the fixing base through the second cylinder that starts on the supporting seat and slide in the recess to can drive third carry over pinch rolls adjustment position, it is comparatively convenient.

Preferably, the trimming mechanism comprises an upright post, a fourth servo motor, a cutting disc, a cutting groove plate and a third bearing plate, the upright post is welded and fixed on the rack, the fourth servo motor is fixed on the upright post and used for driving the cutting disc to rotate, the cutting disc is rotatably connected to one side of the upright post, the cutting groove plate is fixed on the upright post, the cross section of the cutting groove plate is T-shaped, and the third bearing plate is fixed on the upright post.

Through adopting above-mentioned technical scheme, when the non-woven fabrics reachd the cutting frid top, can start fixed fourth servo motor on the stand, fourth servo motor can drive the cutting disc and rotate to make the cutting disc rotate at the cutting frid, thereby can automize and cut edge the both sides of non-woven fabrics.

Preferably, the second power mechanism comprises an upper driving roller, a lower driving roller, a fifth servo motor, a third gear and a fourth gear, the upper driving roller and the lower driving roller are respectively and rotatably connected in the rack, the fifth servo motor drives the lower driving roller to rotate, the third gear is fixed at the end part of the lower driving roller, the fourth gear is fixed at the end part of the upper driving roller, and the third gear is meshed with the fourth gear.

Through adopting above-mentioned technical scheme, when starting fifth servo motor, it can drive down the drive roller and rotate to can drive the third gear rotation, thereby can drive fourth gear and go up the drive roller and rotate, thereby can pull the non-woven fabrics and advance.

Preferably, a bracket is fixed below the spunlace nozzle on the machine frame, a fourth supporting plate is connected above the bracket through a plurality of springs, a plurality of guide pillars are fixed on the bottom surface of the fourth supporting plate, the guide pillars are respectively connected in the bracket in a sliding manner, and a water tank is fixed below the bracket on the machine frame.

Through adopting above-mentioned technical scheme, the fourth bearing board through spring coupling on the bracket can hold up the fibre cloth who treats the water thorn and fuse, and can provide the buffering, and the water tank can connect flourishing water thorn shower nozzle spun rivers.

In summary, the invention mainly has the following beneficial effects:

when the non-woven fabric manufacturing equipment is used, the raw material supply mechanism can be used for supplying materials for fiber raw materials of non-woven fabrics produced by spunlace, the first power mechanism can assist the non-woven fabrics to move forward, then, the spunlace nozzle can be used for disordering and winding long and short fibers in the fiber raw materials, then, the hot-press forming mechanism is matched to realize the production of the non-woven fabrics, and the produced non-woven fabrics can be subjected to embossing by the embossing mechanism, wrinkle removal by the traction wrinkle removal mechanism and edge cutting by the edge cutting mechanism; the non-woven fabric spunlace production has the advantages of simple and reliable structure, continuous production and capability of improving the production efficiency of the non-woven fabric, and the non-woven fabric spunlace production can realize a series of subsequent production.

Drawings

FIG. 1 is one of schematic structural views of a nonwoven fabric manufacturing apparatus;

FIG. 2 is a second schematic view of the structure of the nonwoven fabric manufacturing apparatus;

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

FIG. 4 is a third schematic view of the nonwoven fabric manufacturing apparatus;

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

FIG. 6 is a sectional view showing the structure of a nonwoven fabric producing apparatus;

FIG. 7 is an enlarged view at C in FIG. 6;

FIG. 8 is an enlarged view at D of FIG. 6;

fig. 9 is an enlarged view at E in fig. 6;

FIG. 10 is an enlarged view at F in FIG. 6;

fig. 11 is an enlarged view at G in fig. 6.

Reference numerals: 1. a frame; 11. a spunlace nozzle; 2. a raw material supply mechanism; 3. a first power mechanism; 4. a hot press forming mechanism; 5. an embossing mechanism; 6. a drawing wrinkle-removing mechanism; 7. a trimming mechanism; 8. a second power mechanism; 21. a first stock roll; 22. a second stock roll; 23. a third stock roll; 24. a support shaft; 25. a kidney-shaped groove; 26. a locking sleeve; 27. a first unwinding roller; 28. a second unwinding roller; 29. a third open winding roller; 31. a first servo motor; 32. a drive roll; 33. a driven roller; 34. a first gear; 35. a second gear; 36. a first dimensionally stable roll; 37. a second dimensionally stable roll; 41. a first support plate; 42. a second servo motor; 43. a first press roll; 44. a second press roll; 45. a third press roll; 46. a heating rod; 51. a second support plate; 52. a support pillar; 53. a sliding groove; 54. a sliding seat; 55. a first cylinder; 56. an embossing shaft; 57. an embossing roll sleeve; 58. a third servo motor; 61. a first pull roll; 62. a second pull roll; 63. a third pull roll; 64. a supporting seat; 65. a groove; 66. a fixed seat; 67. a second cylinder; 71. a column; 72. a fourth servo motor; 73. cutting the disc; 74. cutting a groove plate; 75. a third support plate; 81. an upper drive roller; 82. a lower drive roller; 83. a fifth servo motor; 84. a third gear; 85. a fourth gear; 12. a bracket; 121. a spring; 122. a fourth support plate; 123. a guide post; 13. a water tank.

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.

Referring to fig. 1, 2 and 4, a non-woven fabric manufacturing apparatus mainly includes the following components:

comprises a frame 1;

a raw material supply mechanism 2 for supplying a fiber raw material;

a spunlace nozzle 11 which is arranged above the frame 1 and is used for spunlace forming;

a first power mechanism 3 for dragging the raw material supply mechanism 2 to supply raw materials to advance;

a hot press molding mechanism 4 arranged on the frame 1;

an embossing mechanism 5 which is arranged on the frame 1 and can adjust the embossing depth;

a drawing and wrinkle-removing mechanism 6 arranged on the frame 1;

two groups of trimming mechanisms 7;

and a second power mechanism 8 for driving the cloth to advance.

Referring to fig. 1, 2 and 4, when the non-woven fabric manufacturing equipment is used, the raw material supply mechanism 2 can be used for supplying fiber raw materials for producing non-woven fabrics by spunlace, the first power mechanism 3 can assist the fiber raw materials to advance, then the spunlace nozzle 11 can be used for disordering and winding long and short fibers in the fiber raw materials, the hot-press forming mechanism 4 is matched to realize the production of the non-woven fabrics, and the produced non-woven fabrics can be subjected to embossing by the embossing mechanism 5, and then are subjected to wrinkle removal by the drawing wrinkle removal mechanism 6 and edge cutting by the edge cutting mechanism 7; the non-woven fabric spunlace production has the advantages of simple and reliable structure, continuous production and capability of improving the production efficiency of the non-woven fabric, and the non-woven fabric spunlace production can realize a series of subsequent production.

Referring to fig. 2, 3, 6 and 7, the raw material supply mechanism 2 includes a first raw material roller 21, a second raw material roller 22, a third raw material roller 23, a support shaft 24, a kidney-shaped groove 25, a locking sleeve 26, a first uncoiling roller 27, a second uncoiling roller 28 and a third uncoiling roller 29, the first raw material roller 21, the second raw material roller 22 and the third raw material roller 23 are respectively sleeved outside the support shaft 24, the kidney-shaped groove 25 is arranged on the frame 1 for the support shaft 24 to be clamped in, the locking sleeve 26 is in threaded connection with the outside of the support shaft 24, and the first uncoiling roller 27, the second uncoiling roller 28 and the third uncoiling roller 29 are respectively and rotatably connected to the frame 1; the first raw material roller 21, the second raw material roller 22 and the third raw material roller 23 can be used for simultaneously supplying three raw material fibers, the first unwinding roller 27, the second unwinding roller 28 and the third unwinding roller 29 can keep the stability of the unfolded first raw material roller 21, the second raw material roller 22 and the third raw material roller 23, the supporting shaft 24 can be locked by clamping the supporting shaft 24 into the kidney-shaped groove 25 and then locking the supporting shaft 24 by using the locking sleeve 26, and the replacement of the first raw material roller 21, the second raw material roller 22 and the third raw material roller 23 is facilitated.

Referring to fig. 1, 6 and 7, the first power mechanism 3 includes a first servo motor 31, a drive roller 32, a driven roller 33, a first gear 34, a second gear 35, a first dimensionally stable roller 36 and a second dimensionally stable roller 37, the first servo motor 31 is fixed on the frame 1 to drive the drive roller 32 to rotate, the drive roller 32 and the driven roller 33 are respectively and rotatably connected to the frame 1, the first gear 34 is fixed at an end of the drive roller 32, the second gear 35 is fixed at an end of the driven roller 33, the first gear 34 and the second gear 35 are engaged with each other, and the first dimensionally stable roller 36 and the second dimensionally stable roller 37 are respectively and rotatably connected to the frame 1; when the first servo motor 31 in the first power mechanism 3 is started, the first servo motor can drive the driving roller 32 to rotate, and the first gear 34 and the second gear 35 can drive the driven roller 33 to rotate, so that the raw materials supplied by the first raw material roller 21, the second raw material roller 22 and the third raw material roller 23 can be pulled to advance, and the first dimensionally stable roller 36 and the second dimensionally stable roller 37 can press the three raw materials to a certain degree, thereby facilitating the subsequent production and raw material supply.

Referring to fig. 1, 6 and 8, the hot press forming mechanism 4 includes a first support plate 41, a second servo motor 42, a first press roller 43, a second press roller 44, a third press roller 45 and two heating rods 46, the first support plate 41 is fixed on the frame 1 and is located at the bottom of the first press roller 43, the second press roller 44 and the third press roller 45, the third servo motor 58 is fixed on the frame 1 and drives the first press roller 43 to rotate, the first press roller 43, the second press roller 44 and the third press roller 45 are respectively rotatably connected in the frame 1, the second press roller 44 and the third press roller 45 are located at two sides of the first press roller 43, the two heating rods 46 are respectively inserted and fixed in the second press roller 44 and the third press roller 45, the hot press forming mechanism 4 can facilitate the hot press forming of the non-woven fabric after the spunlace nozzle 11 is spunlace molded, the first press roller 43 can be driven to rotate by starting the second servo motor 42, so as to drive the second press roller 44 and the third press roller 45 to rotate, therefore, the non-woven fabric can be pressed and fixed, and the heating rods 46 in the second pressing roller 44 and the third pressing roller 45 can be heated during pressing, so that the effect of hot-press forming is improved.

Referring to fig. 1, 6 and 9, wherein the embossing mechanism 5 includes a second supporting plate 51, two supporting columns 52, two sliding grooves 53, two sliding seats 54, two first air cylinders 55, an embossing shaft 56, an embossing roller sleeve 57 and a third servo motor 58, the second supporting plate 51 is fixed on the frame 1, the two supporting columns 52 are symmetrically fixed on two sides of the frame 1, the two sliding grooves 53 are respectively arranged in the supporting columns 52, the two sliding seats 54 are respectively connected in the sliding grooves 53 in a sliding manner along the vertical direction, the cylinder bodies of the two air cylinders are respectively fixed on the top of the supporting columns 52, the end portions of the piston rods of the two air cylinders are respectively fixed on the sliding seats 54, the embossing shaft 56 is rotatably connected between the two sliding seats 54, the embossing roller sleeve 57 is fixed outside the embossing shaft 56 in a key connection manner, the third servo motor 58 is fixed on one of the sliding seats 54 and is used for driving the embossing shaft 56 to rotate, embossing can be realized by the embossing, and the degree of depth of knurling can be controlled, can drive knurling axle 56 and knurling roller shell 57 and rotate through starting third servo motor 58 on the sliding seat 54, and the effect that the cooperation second bearing board 51 can improve the knurling again, and can drive sliding seat 54 through the first cylinder 55 that starts the support column 52 top and slide in sliding tray 53 to can drive knurling axle 56 and the adjustment height of clamping ring roller shell, thereby can adjust the knurling degree of depth.

Referring to fig. 6 and 10, the pulling and wrinkle-removing mechanism 6 includes a first pulling roll 61, a second pulling roll 62, a third pulling roll 63, two supporting seats 64, two grooves 65, two fixing seats 66 and two second cylinders 67, the first pulling roll 61 and the second pulling roll 62 are respectively rotatably connected in the frame 1, the third pulling roll 63 is rotatably connected between the two fixing seats 66, the two supporting seats 64 are respectively fixed on the frame 1, the grooves 65 are respectively opened on the supporting seats 64 for the horizontal sliding of the fixing seats 66, the cylinders of the two second cylinders 67 are respectively fixed on the supporting seats 64, the ends of the piston rods of the two second cylinders 67 are respectively fixed on the fixing seats 66, the pulling and wrinkle-removing functions can be realized by using the first pulling roll 61, the second pulling roll 62 and the third pulling roll 63 in the pulling and wrinkle-removing mechanism 6, and the position of the third pulling roll 63 can be conveniently adjusted, the second cylinder 67 on the supporting seat 64 is started to drive the fixing seat 66 to slide in the groove 65, so that the third traction roller 63 can be driven to adjust the position, and the operation is convenient.

Referring to fig. 4 and 5, the edge cutting mechanism 7 includes an upright column 71, a fourth servo motor 72, a cutting disc 73, a cutting groove plate 74 and a third support plate 75, the upright column 71 is welded and fixed on the frame 1, the fourth servo motor 72 is fixed on the upright column 71 and is used for driving the cutting disc 73 to rotate, the cutting disc 73 is rotatably connected to one side of the upright column 71, the cutting groove plate 74 is fixed on the upright column 71, the cross section of the cutting groove plate 74 is T-shaped, the third support plate 75 is fixed on the upright column 71, when the non-woven fabric reaches above the cutting groove plate 74, the fourth servo motor 72 fixed on the upright column 71 can be started, and the fourth servo motor 72 can drive the cutting disc 73 to rotate, so that the cutting disc 73 rotates on the cutting groove plate 74, and the edge cutting can be automatically performed on two sides of the non-woven.

Referring to fig. 4, 5 and 6, the second power mechanism 8 includes an upper driving roller 81, a lower driving roller 82, a fifth servo motor 83, a third gear 84 and a fourth gear 85, the upper driving roller 81 and the lower driving roller 82 are respectively rotatably connected in the frame 1, the fifth servo motor 83 drives the lower driving roller 82 to rotate, the third gear 84 is fixed at an end of the lower driving roller 82, the fourth gear 85 is fixed at an end of the upper driving roller 81, the third gear 84 and the fourth gear 85 are engaged with each other, when the fifth servo motor 83 is started, the fifth servo motor 83 can drive the lower driving roller 82 to rotate, so as to drive the third gear 84 to rotate, so as to drive the fourth gear 85 and the upper driving roller 81 to rotate, so as to pull the non-woven fabric to advance.

Referring to fig. 6 and 11, a bracket 12 is fixed below the hydro-entangling nozzle 11 on the frame 1, a fourth support plate 122 is connected above the bracket 12 through a plurality of springs 121, a plurality of guide posts 123 are fixed on the bottom surface of the fourth support plate 122, the guide posts 123 are respectively connected in the bracket 12 in a sliding manner, a water tank 13 is fixed below the bracket 12 on the frame 1, the fourth support plate 122 connected through the springs 121 on the bracket 12 can support the fiber cloth to be hydro-entangled and can provide a buffer, and the water tank 13 can receive the water flow sprayed by the hydro-entangling nozzle 11.

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

1. A non-woven fabric manufacturing equipment comprises a machine frame (1), and is characterized in that: further comprising:

a raw material supply mechanism (2) for supplying fiber raw material;

a spunlace nozzle (11) which is arranged above the frame (1) and is used for spunlace forming;

a first power mechanism (3) for dragging the raw material supply mechanism (2) to supply raw materials to move forwards;

the hot-press forming mechanism (4) is arranged on the rack (1);

an embossing mechanism (5) which is arranged on the frame (1) and can adjust the embossing depth;

the drawing and wrinkle-removing mechanism (6) is arranged on the frame (1);

two groups of trimming mechanisms (7);

and a second power mechanism (8) for driving the cloth to advance.

2. The nonwoven fabric manufacturing apparatus according to claim 1, characterized in that: raw materials feed mechanism (2) include first raw materials roller (21), second raw materials roller (22), third raw materials roller (23), back shaft (24), kidney-shaped groove (25), lock sleeve (26), first uncoiling roller (27), second uncoiling roller (28) and third opening coiling roller (29), first raw materials roller (21), second raw materials roller (22) with third raw materials roller (23) overlap respectively and are established the outside of back shaft (24), kidney-shaped groove (25) are seted up supply in frame (1) back shaft (24) card is gone into, lock sleeve (26) threaded connection be in the outside of back shaft (24), first uncoiling roller (27), second uncoiling roller (28) and third opening coiling roller (29) rotate respectively and are connected in frame (1) is last.

3. The nonwoven fabric manufacturing apparatus according to claim 1, characterized in that: the first power mechanism (3) comprises a first servo motor (31), a driving roller (32), a driven roller (33), a first gear (34), a second gear (35), a first dimension stabilizing roller (36) and a second dimension stabilizing roller (37), the first servo motor (31) is fixed on the rack (1) to drive the driving roller (32) to rotate, the driving roller (32) and the driven roller (33) are respectively connected to the rack (1) in a rotating mode, the first gear (34) is fixed at the end portion of the driving roller (32), the second gear (35) is fixed at the end portion of the driven roller (33), the first gear (34) and the second gear (35) are meshed with each other, and the first dimension stabilizing roller (36) and the second dimension stabilizing roller (37) are respectively connected to the rack (1) in a rotating mode.

4. The nonwoven fabric manufacturing apparatus according to claim 1, characterized in that: the hot-press molding mechanism (4) comprises a first bearing plate (41), a second servo motor (42), a first press roller (43), a second press roller (44), a third press roller (45) and two heating rods (46), the first bearing plate (41) is fixed on the frame (1) and is positioned at the bottom of the first pressing roller (43), the second pressing roller (44) and the third pressing roller (45), the third servo motor (58) is fixed on the frame (1) to drive the first press roller (43) to rotate, the first pressing roller (43), the second pressing roller (44) and the third pressing roller (45) are respectively connected in the frame (1) in a rotating way, the second pressing roller (44) and the third pressing roller (45) are located on two sides of the first pressing roller (43), and the two heating rods (46) are respectively inserted and fixed into the second pressing roller (44) and the third pressing roller (45).

5. The nonwoven fabric manufacturing apparatus according to claim 1, characterized in that: the embossing mechanism (5) comprises a second bearing plate (51), two supporting columns (52), two sliding grooves (53), two sliding seats (54), two first air cylinders (55), an embossing shaft (56), an embossing roller sleeve (57) and a third servo motor (58), the second bearing plate (51) is fixed on the rack (1), the two supporting columns (52) are symmetrically fixed on two sides of the rack (1), the two sliding grooves (53) are respectively arranged in the supporting columns (52), the two sliding seats (54) are respectively connected in the sliding grooves (53) in a sliding manner along the vertical direction, cylinder bodies of the two air cylinders are respectively fixed on the tops of the supporting columns (52), the end parts of piston rods of the two air cylinders are respectively fixed on the sliding seats (54), and the embossing shaft (56) is rotatably connected between the two sliding seats (54), the embossing roller sleeve (57) is fixedly connected with the outside of the embossing shaft (56) in a key mode, and the third servo motor (58) is fixed on one sliding seat (54) and used for driving the embossing shaft (56) to rotate.

6. The nonwoven fabric manufacturing apparatus according to claim 1, characterized in that: the traction wrinkle-removing mechanism (6) comprises a first traction roller (61), a second traction roller (62), a third traction roller (63), two supporting seats (64), two grooves (65), two fixed seats (66) and two second air cylinders (67), the first traction roller (61) and the second traction roller (62) are respectively connected in the frame (1) in a rotating way, the third traction roller (63) is rotatably connected between the two fixed seats (66), the two support seats (64) are respectively fixed on the frame (1), the grooves (65) are respectively formed in the supporting seat (64) to enable the fixing seat (66) to horizontally slide, the cylinder bodies of the two second cylinders (67) are respectively fixed to the supporting seat (64), and the end portions of the piston rods of the two second cylinders (67) are respectively fixed to the fixing seat (66).

7. The nonwoven fabric manufacturing apparatus according to claim 1, characterized in that: the trimming mechanism (7) comprises an upright post (71), a fourth servo motor (72), a cutting disc (73), a cutting groove plate (74) and a third bearing plate (75), the upright post (71) is welded and fixed on the rack (1), the fourth servo motor (72) is fixed on the upright post (71) and used for driving the cutting disc (73) to rotate, the cutting disc (73) is rotatably connected to one side of the upright post (71), the cutting groove plate (74) is fixed on the upright post (71), the cross section on the cutting groove plate (74) is T-shaped, and the third bearing plate (75) is fixed on the upright post (71).

8. The nonwoven fabric manufacturing apparatus according to claim 1, characterized in that: second power unit (8) include drive roller (81), drive roller (82), fifth servo motor (83), third gear (84) and fourth gear (85) down, go up drive roller (81) with drive roller (82) rotate respectively to be connected down in frame (1), fifth servo motor (83) drive roller (82) rotate down, third gear (84) are fixed drive roller (82) tip down, fourth gear (85) are fixed go up drive roller (81) tip, third gear (84) with intermeshing between fourth gear (85).

9. The nonwoven fabric manufacturing apparatus according to claim 1, characterized in that: a bracket (12) is fixed below the spunlace nozzle (11) of the rack (1), a fourth supporting plate (122) is connected above the bracket (12) through a plurality of springs (121), a plurality of guide posts (123) are fixed on the bottom surface of the fourth supporting plate (122), the guide posts (123) are connected in the bracket (12) in a sliding mode respectively, and a water tank (13) is fixed below the bracket (12) of the rack (1).