CN113373598A - Light non-woven fabric thermal bonding mesh cloth machine and mesh cloth manufacturing method - Google Patents

Abstract

The invention discloses a light non-woven fabric thermal bonding grid cloth machine, which comprises a warp yarn feeding device, a weft yarn laying device, a gluing device, a first oven and a yarn discharging device, wherein the warp yarn feeding device is arranged on the warp yarn feeding device; the weft laying device, the gluing device and the first oven are sequentially connected between the warp yarn feeding device and the yarn discharging device, and the weft laying device comprises a traction roller, a first conduction roller, a main chain and a laying workpiece; lay the work piece set up in between traction roller and the first conduction roller and can the top of traction roller and first conduction roller removes, the main chain cover is located on traction roller and the first conduction roller and pass on rubber coating device, first oven and the play yarn device in order to drive traction roller and the rotation of first conduction roller and then pull warp silk on the warp silk thread feeding device, lay the work piece and be used for pulling out the tram silk.

Description

Light non-woven fabric thermal bonding mesh cloth machine and mesh cloth manufacturing method

Technical Field

The invention relates to the technical field of textile equipment, in particular to a light non-woven fabric thermal bonding gridding cloth machine and a gridding cloth manufacturing method.

Background

At present, disposable paper surgical gowns are widely applied to various surgeries, and reinforcing ribs in the disposable paper surgical gowns and medical and civil sassafras hand papers are all dependent on import.

Because no production equipment and manufacturing technology for the products exist in China, researches and developments of the non-woven thermal bonding grid cloth which is light in weight (less than or equal to 4. g/square meter) and simple in production and preparation process are necessary and urgent for the fields of disposable paper surgical gowns, medical and civil hand towels and the like.

In view of the foregoing, there is a need for a new light weight nonwoven thermal bonding scrim machine and method for making a scrim that overcomes the above-mentioned deficiencies.

Disclosure of Invention

Compared with the prior gridding cloth prepared by adopting a weaving method, the light non-woven cloth thermal bonding gridding cloth machine has the advantages of simple preparation process, light finished product weight and high strength, and simultaneously has strong economical efficiency due to no need of warp and weft weaving, so that the light non-woven cloth thermal bonding gridding cloth machine can be widely applied to the fields of disposable paper surgical gowns, medical and civil hand towels and the like.

In order to achieve the aim, the invention provides a light non-woven fabric thermal bonding grid cloth machine, which comprises a warp yarn feeding device, a weft yarn laying device, a gluing device, a first oven and a yarn outlet device, wherein the warp yarn feeding device is arranged on the warp yarn feeding device; the weft laying device, the gluing device and the first oven are sequentially connected between the warp yarn feeding device and the yarn discharging device, and the weft laying device comprises a traction roller, a first conduction roller, a main chain and a laying workpiece; the laying workpiece is arranged between the traction roller column and the first conduction roller column and can move above the traction roller column and the first conduction roller column,

the main chain cover is located on pulling roller and the first conduction roller and pass in order to drive on rubber coating device, first oven and the play yarn device pull roller and first transmission roller rotate and then pull warp yarn on the warp yarn thread feeding unit, lay the work piece and be used for pulling out the woof, the rubber coating device is used for drenching hot melt adhesive of coating water to heat bonding net cloth, first oven is used for drying heat bonding net cloth, it is used for conduction net cloth to go out the yarn device.

Preferably, the light non-woven fabric thermal bonding grid cloth machine further comprises a winding device, and the winding device and the yarn outlet device are arranged at intervals and are located on one side far away from the first oven.

Preferably, the winding device comprises a first chassis and a winding roller rotatably connected to the first chassis.

Preferably, the weft laying device further comprises a driving motor and a first transmission rod, wherein a driving gear is arranged on the driving motor, a first driven gear and a first transmission gear arranged at an interval with the first driven gear are sleeved on the first transmission rod, and a first gear is arranged on the traction roller; the yarn discharging device is provided with a second transmission rod, a second transmission gear is sleeved on the second transmission rod, a third transmission gear is arranged on the first conduction roller, a transmission chain is sleeved on the driving gear and the first driven gear, and the main chain is sleeved on the first transmission gear, the first gear of the traction roller, the second transmission gear of the second transmission rod and the third transmission gear of the first conduction roller.

Preferably, a second conduction roller is arranged on the yarn discharging device, a fourth gear is arranged on the second conduction roller, and the main chain is further sleeved on the fourth gear.

Preferably, the weft laying device comprises a second underframe and an installation beam, the traction roller column, the first transmission roller column and the first transmission rod are all rotationally connected to the second underframe, and the installation beam can move on the top of the second underframe; the paving workpiece is slidably mounted on the mounting beam and can slide from one end of the mounting beam to the other end of the mounting beam, and the driving motor is mounted on the second underframe.

Preferably, lay the work piece and include that the slip frame on the installation roof beam is located to the slip cap, install in the first motion subassembly at slip frame top and with the last row of needle that the slip frame is connected, first motion subassembly drives the slip frame and slides towards the other end of installation roof beam by the one end of installation roof beam, be provided with down the row of needle on the main chain.

Preferably, the weft laying device further comprises a second moving assembly mounted on the top of the second underframe, the mounting beam is mounted on the top of the second moving assembly, and the second moving assembly drives the mounting beam to move on the second underframe.

Preferably, the light non-woven fabric thermal bonding mesh cloth machine further comprises a PLC controller and an industrial camera electrically connected with the PLC controller; the PLC controller is installed on the second bottom frame, the number of the industrial cameras is two, the two industrial cameras are installed on the second bottom frame and are respectively distributed on the outer side of the second bottom frame, and the horizontal heights of the two industrial cameras are consistent with the horizontal height of the main chain.

A method for manufacturing mesh cloth of a light non-woven fabric thermal bonding mesh cloth machine comprises the following steps that a traction roller column pulls warp yarns on a warp yarn feeding device, the pulled warp yarns form a warp yarn layer, a laying workpiece pulls out weft yarns to form a weft yarn layer, the weft yarn layer and the warp yarn layer form thermal bonding mesh cloth, the thermal bonding mesh cloth is baked and dried through a first oven and a second oven, the thermal bonding mesh cloth passes through a yarn discharging device, and a winding device winds the thermal bonding mesh cloth.

Compared with the prior art, the light non-woven fabric thermal bonding grid cloth machine provided by the invention has the beneficial effects that: the traction roller column pulls the warp yarns on the warp yarn feeding device, so that the pulled warp yarns form a warp yarn layer, the laid workpiece pulls out the weft yarns and forms a weft yarn layer, the weft yarn layer and the warp yarn layer form a thermal bonding grid cloth, and the thermal bonding grid cloth is baked and dried by the first oven and the second oven.

Drawings

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

Fig. 1 is a perspective view of a light non-woven fabric thermal bonding grid cloth machine provided by the invention.

Fig. 2 is a schematic structural view of a portion of the structure of the light non-woven thermal bonding scrim machine shown in fig. 1.

Fig. 3 is a view illustrating another angle of the structure of a portion of the light non-woven thermal bonding scrim machine shown in fig. 2.

Reference numerals: 1. a warp yarn feeding device; 2. a weft laying device; 3. a gluing device; 4. a first oven; 5. a yarn take-off device; 21. a traction roller; 211. a first gear; 22. a first conductive roller; 23. a main chain; 24. laying a workpiece; 25. a drive motor; 251. a driving gear; 26. a first drive lever; 261. a first driven gear; 262. a first drive gear; 51. a second transmission rod; 52. a second conductive roller; 521. a fourth gear; 511. a second transmission gear; 221. a third transmission gear; 27. a second chassis; 28. mounting a beam; 31. a glue solution containing box; 231. a lower row of needles; 241. a sliding frame; 242. a first motion assembly; 243. arranging needles upwards; 2421. a first rack; 2422. a first servo motor; 244. a second motion assembly; 2441. mounting a plate; 2442. a second rack; 2443. a second servo motor; 6. a winding device; 61. a first chassis; 62. rolling the roller; 7. a second oven; 8. an industrial camera.

Detailed Description

In order to make the objects, technical solutions and advantageous effects of the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and the detailed description. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

It will be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for ease of description and simplicity of description, and do not indicate or imply that the referenced devices or elements must be in a particular orientation, constructed and operated in a particular orientation, and are therefore not to be considered limiting.

It is also noted that, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," "disposed," and the like are intended to be inclusive and mean, for example, that they may be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. To those of ordinary skill in the art, the above terms may be specifically defined in the present invention according to the specific circumstances.

Furthermore, the terms "first", "second", and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first", "second", may explicitly or implicitly include one or more of that feature. Further, the meaning of "a plurality" or "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1 to 3, the present invention provides a light non-woven fabric thermal bonding grid cloth machine, which includes a warp feeding device 1, a weft laying device 2, a glue coating device 3, a first oven 4 and a yarn discharging device 5; the weft laying device 2, the gluing device 3 and the first oven 4 are sequentially connected between the warp yarn feeding device 1 and the yarn discharging device 5, and the weft laying device 2 comprises a traction roller column 21, a first transmission roller column 22, a main chain 23 and a laying workpiece 24; the laying work 24 is arranged between the drawing roller 21 and the first transfer roller 22 and is movable over the drawing roller 21 and the first transfer roller 22,

the main chain 23 cover is located on traction roller post 21 and the first transmission roller post 22 and pass in order to drive traction roller post 21 and the rotation of first transmission roller post 22 and draw on rubber coating device 3, first oven 4 and the play yarn device 5 the warp yarn on the warp yarn thread feeding device 1 makes the warp yarn that is hauled out form the warp yarn layer that is parallel to each other, lay work piece 24 and be used for drawing the weft yarn out and form the woof layer that is parallel to each other, woof layer and warp yarn layer form the net cloth, and the heat bonding net cloth passes through in proper order rubber coating device 3, first oven 4 and play yarn device 5, rubber coating device 3 is used for drenching the hot melt adhesive to net cloth, first oven 4 is used for toasting, drying the net cloth after the rubber coating, it is used for toasting the net cloth after the conduction to go out yarn device 5.

Further, the gluing device 3 comprises a cuboid glue solution containing box 31, and water-based hot melt glue is filled in the glue solution containing box 31 and is used for spraying the water-based hot melt glue on passing mesh cloth.

Further, the light non-woven fabric thermal bonding grid cloth machine further comprises a winding device 6, the winding device 6 and the yarn outlet device 5 are arranged at intervals and located on one side far away from the first oven 4, and the winding device 6 is used for winding thermal bonding grid cloth.

Further, the winding device 6 includes a first chassis 61 and a winding roller 62 rotatably connected to the first chassis 61. One end of the thermal bonding mesh fabric passing through the gluing device 3, the first oven 4 and the yarn outlet device 5 is wound on the winding roller 62, and then the winding device 6 is continuously rotated to wind the thermal bonding mesh fabric.

Further, the light non-woven fabric thermal bonding grid cloth machine further comprises a second oven 7, the second oven 7 is installed between the first oven 4 and the yarn outlet device 5 and is penetrated by the main chain 23, and the second oven 7 is used for baking and drying the glued grid cloth again. In the present embodiment, the baking temperature ranges of the first oven 4 and the second oven 7 are 100-.

Further, the weft laying device 2 further comprises a driving motor 25 and a first transmission rod 26, wherein a driving gear is arranged on the driving motor 25, a first driven gear 261 and a first transmission gear 262 arranged at an interval with the first driven gear 261 are sleeved on the first transmission rod 26, and a first gear 211 is arranged on the traction roller column 21; it is provided with second transfer line 51 on the yarn discharging device 5, the cover is equipped with second drive gear 511 on the second transfer line 51, be provided with third drive gear 221 on the first conduction roller 22, the cover is equipped with drive chain on driving gear 251 and the first driven gear 261, main chain 23 cover is located on first drive gear 262, the first gear 211 of traction roller 21, the second drive gear 511 of second transfer line 51 and the third drive gear 221 of first transfer roller 22. In this embodiment, the number of the main chains 23 is two, the number of the first transmission gears 262, the first gear 211, the second transmission gear 511, and the third transmission gear 221 are two, and the two main chains 23 are respectively sleeved on the first transmission gear 262, the first gear 211, the second transmission gear 511, and the third transmission gear 221.

Thus, the driving gear 251 of the driving motor 25 drives the first driven gear 261 to rotate, and then drives the traction roller 21, the first transmission roller 22 and the yarn output device 5 to rotate through the main chain 23, so as to draw and transmit the thermal bonding mesh fabric to the yarn output device 5.

Further, a second conduction roller 52 is arranged on the yarn discharging device 5, a fourth gear 521 is arranged on the second conduction roller 52, and the main chain 23 is further sleeved on the fourth gear 521.

Further, the weft laying device 2 comprises a second chassis 27 and a mounting beam 28, the traction roller column 21, the first driving roller column 22 and the first driving rod 26 are all rotatably connected to the second chassis 27 and are arranged at intervals, and the mounting beam 28 can move on the top of the second chassis 27; the work 24 is slidably mounted on a mounting beam 28 and is slidable from one end of the mounting beam 28 to the other end of the mounting beam 28, and the drive motor 25 is mounted on the second base frame 27.

Further, the paving workpiece 24 includes a sliding frame 241 slidably sleeved on the mounting beam 28, a first moving assembly 242 mounted on the top of the sliding frame 241, and an upper row of needles 243 fixedly connected to the sliding frame 241, the first moving assembly 242 is configured to drive the sliding frame 241 to slide from one end of the mounting beam 28 to the other end of the mounting beam 28, the upper row of needles 243 move along with the sliding frame 241, so that the wefts are drawn out and form a parallel weft layer, and the main chain 23 is provided with a lower row of needles 231 corresponding to the upper row of needles 243.

Specifically, the first moving assembly 242 includes a first rack 2421 mounted on the top of the mounting beam 28 and a first servomotor 2422 having a driving wheel, wherein the driving wheel of the first servomotor 2422 is engaged with the first rack 2421. When the first servomotor 2422 is activated, the sliding frame 241 slides from one end of the mounting beam 28 toward the other end of the mounting beam 28.

Further, the weft laying device 2 further comprises a second moving assembly 244 mounted on the top of the second base frame 27, the mounting beam 28 is mounted on the top of the second moving assembly 244, and the second moving assembly 244 is configured to drive the mounting beam 28 to move on the second base frame 27.

Specifically, the second moving assembly 244 includes a mounting plate 2441, a second rack 2442 mounted on the top of the second base frame 27, and a second servo motor 2443 having a transmission wheel, wherein the mounting plate 2441 is connected to the bottom of the mounting beam 28, the second servo motor 2443 is mounted on the second mounting plate 2441, and the transmission wheel of the second servo motor 2443 is engaged with the second rack 2442. When the second servo motor 2443 is activated, the mounting beam 28 can slide with the mounting plate 2441 on the second base frame 27 in the left-right direction, so that the upper row pins 243 on the sliding frame 241 move in the left-right direction.

Further, the light non-woven fabric thermal bonding grid cloth machine further comprises a PLC controller and an industrial camera 8 electrically connected with the PLC controller; the PLC controller is installed on the second chassis 27, the number of the industrial cameras 8 is two, the two industrial cameras 8 are installed on the second chassis 27 and are respectively distributed on the outer side of the second chassis 27, the horizontal heights of the two industrial cameras 8 are consistent with the horizontal height of the main chain 23, and the two industrial cameras 8 are arranged oppositely.

The two industrial cameras 8 are used for shooting whether a position deviation error exists between the lower pin 231 of the main chain 23 and the upper pin 243 of the laying workpiece 24 or not and uploading the shot position deviation error information to the PLC, so that the PLC sends a deviation correction instruction to the second servo motor 2443 of the laying workpiece 24 according to the position deviation error information to enable the lower pin 231 of the main chain 23 to be matched with the position of the upper pin 243 of the laying workpiece 24. It should be noted that the needles of the upper row of needles 243 are staggered with the needles of the lower row of needles 231.

Specifically, when the two industrial cameras 8 shoot that the lower row pins 231 of the main chain 23 and the upper row pins 243 of the laying workpiece 24 have a position deviation error, the PLC controller issues a deviation correction instruction to the second servo motor 2443 of the laying workpiece 24 according to the position deviation error information, and the second servo motor 2443 of the laying workpiece 24 adjusts the position of the upper row pins 243 of the laying workpiece 24, so that the position of the upper row pins 243 of the laying workpiece 24 matches the position of the lower row pins 231 of the main chain 23.

The invention also provides a method for manufacturing the gridding cloth of the light non-woven fabric thermal bonding gridding cloth machine, which comprises the following steps that the traction roller column 21 pulls the warp yarns on the warp yarn feeding device 1, so that the pulled warp yarns form mutually parallel warp yarn layers, the laying workpiece 24 pulls out the weft yarns to form mutually parallel weft yarn layers, the weft yarn layers and the warp yarn layers form gridding cloth, the thermal bonding gridding cloth is baked and dried by the first oven 4 and the second oven 7, the gridding cloth passes through the yarn outlet device 5, and the rolling device 6 rolls the gridding cloth.

Compared with the prior mesh cloth prepared by adopting a weaving method, the thermal bonding mesh cloth prepared by the light non-woven fabric thermal bonding mesh cloth machine has the advantages of simple preparation process, light finished product weight and high strength, and meanwhile, the thermal bonding mesh cloth has strong economical efficiency due to no need of warp and weft weaving, and can be widely applied to the fields of disposable paper surgical gowns, medical and civil hand towels and the like.

The invention is not limited solely to that described in the specification and embodiments, and additional advantages and modifications will readily occur to those skilled in the art, so that the invention is not limited to the specific details, representative apparatus, and examples shown and described herein, without departing from the spirit and scope of the general concept as defined by the appended claims and their equivalents.

Claims (10)

1. A light non-woven fabric thermal bonding grid cloth machine is characterized by comprising a warp yarn feeding device (1), a weft yarn laying device (2), a gluing device (3), a first oven (4) and a yarn discharging device (5); the weft laying device (2), the gluing device (3) and the first oven (4) are sequentially connected between the warp yarn feeding device (1) and the yarn discharging device (5), and the weft laying device (2) comprises a traction roller column (21), a first conduction roller column (22), a main chain (23) and a laying workpiece (24); the laying work (24) is arranged between the drawing roller (21) and the first conductive roller (22) and can move above the drawing roller (21) and the first conductive roller (22),

the main chain (23) is sleeved on the traction roller (21) and the first conduction roller (22) and penetrates through the gluing device (3), the first drying oven (4) and the yarn outlet device (5) to drive the traction roller (21) and the first conduction roller (22) to rotate so as to further draw warp yarns on the warp yarn feeding device (1), the laying workpiece (24) is used for drawing out weft yarns, the gluing device (3) is used for spraying and coating water hot melt adhesive on thermal bonding gridding cloth, the first drying oven (4) is used for drying the gridding cloth, and the yarn outlet device (5) is used for conducting the gridding cloth.

2. The light non-woven thermal bonding grid cloth machine according to claim 1, characterized in that the light non-woven thermal bonding grid cloth machine further comprises a winding device (6), wherein the winding device (6) is arranged at a distance from the yarn outlet device (5) and is positioned at one side far away from the first oven (4).

3. The thermally bonded scrim machine according to claim 2, wherein said winding device (6) comprises a first frame (61) and a winding roller (62) rotatably connected to said first frame (61).

4. The light non-woven fabric thermal bonding grid cloth machine according to claim 1, characterized in that the weft laying device (2) further comprises a driving motor (25) and a first transmission rod (26), a driving gear is arranged on the driving motor (25), a first driven gear (261) and a first transmission gear (262) arranged at an interval with the first driven gear (261) are sleeved on the first transmission rod (26), and a first gear (211) is arranged on the traction roller column (21); it is provided with second transfer line (51) on yarn discharging device (5), the cover is equipped with second drive gear (511) on second transfer line (51), be provided with third drive gear (221) on first conduction roller (22), the cover is equipped with drive chain on driving gear (251) and first driven gear (261), main chain (23) cover is located on first drive gear (262), first gear (211) of traction roller (21), second drive gear (511) of second transfer line (51) and third drive gear (221) of first conduction roller (22).

5. The light non-woven fabric thermal bonding gridding cloth machine according to claim 4 is characterized in that a second conduction roller (52) is arranged on the yarn outlet device (5), a fourth gear (521) is arranged on the second conduction roller (52), and the main chain (23) is also sleeved on the fourth gear (521).

6. The thermal bonding grid weaving machine for lightweight nonwoven fabrics according to claim 4, characterized in that the weft laying device (2) comprises a second chassis (27) and a mounting beam (28), the pulling roller (21), the first conduction roller (22) and the first transmission rod (26) are all rotationally connected to the second chassis (27), the mounting beam (28) can move on top of the second chassis (27); the laying workpiece (24) is mounted on the mounting beam (28) in a sliding mode and can slide from one end of the mounting beam (28) to the other end of the mounting beam (28), and the driving motor (25) is mounted on the second underframe (27).

7. The light non-woven fabric thermal bonding grid cloth machine according to claim 6, characterized in that the laying workpiece (24) comprises a sliding frame (241) which is slidably sleeved on the mounting beam (28), a first moving assembly (242) which is mounted at the top of the sliding frame (241), and an upper row of needles (243) which is connected with the sliding frame (241), the first moving assembly (242) drives the sliding frame (241) to slide from one end of the mounting beam (28) to the other end of the mounting beam (28), and the main chain (23) is provided with a lower row of needles (231).

8. The thermal bonding grid cloth machine of light non-woven fabric according to claim 6, characterized in that the weft laying device (2) further comprises a second moving component (244) installed on the top of the second bottom frame (27), the installation beam (28) is installed on the top of the second moving component (244), and the second moving component (244) drives the installation beam (28) to move on the second bottom frame (27).

9. The light non-woven thermal bonding grid loom of claim 6, characterized in that, the light non-woven thermal bonding grid loom further comprises a PLC controller and an industrial camera (8) electrically connected with the PLC controller; the PLC is installed on the second bottom frame (27), the number of the industrial cameras (8) is two, the two industrial cameras (8) are installed on the second bottom frame (27) and distributed on the outer side of the second bottom frame (27) respectively, and the horizontal heights of the two industrial cameras (8) are consistent with the horizontal height of the main chain (23).

10. A method for manufacturing gridding cloth of a light non-woven fabric thermal bonding gridding cloth machine is characterized by comprising the following steps of drawing warp yarns on a warp yarn feeding device (1) by a drawing roller (21), enabling the drawn warp yarns to form a warp yarn layer, drawing weft yarns out by a laying workpiece (24) to form a weft yarn layer, enabling the weft yarn layer and the warp yarn layer to form gridding cloth, baking and drying the gridding cloth through a first oven (4) and a second oven (7), enabling the gridding cloth to pass through a yarn outlet device (5), and rolling the gridding cloth through a rolling device (6).

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