CN111113960A

CN111113960A - Composite cloth preparation equipment

Info

Publication number: CN111113960A
Application number: CN201911200908.6A
Authority: CN
Inventors: 辛斌杰; 黄一凡; 刘岩; 陈卓明; 郑元生; 李安琪; 谢翔宇; 于佳; 臧丽然
Original assignee: Shanghai University of Engineering Science
Current assignee: Shanghai University of Engineering Science
Priority date: 2019-11-29
Filing date: 2019-11-29
Publication date: 2020-05-08

Abstract

The invention relates to a composite cloth preparation device in the technical field of textile preparation, which comprises a granulation part for preparing activated carbon particles and a laminating part for laminating nylon cloth and non-woven fabric into composite cloth; the composite part comprises: a cloth roll-off roller forming a first feeding side of the laminating portion; a nonwoven fabric take-up roll forming a second feed side of the composite portion; an input table used for receiving the discharge side of the granulation part and stacking activated carbon particles to form a third feeding side of the combination part; a nylon cloth gluing component; a non-woven fabric gluing component; a pair of hot-pressing rubber rollers, which are used for pressing the viscose nylon cloth and the viscose non-woven fabric into a composite cloth; the winding roller is used for winding the composite cloth and is provided as a driving roller to form a discharge side of the covering part; the activated carbon particles stacked on the input table are right opposite to the nylon cloth connecting surface after glue coating and are adhered to the nylon cloth connecting surface during preparation. The automatic operation of the whole preparation can be realized, and the production efficiency is accelerated.

Description

Composite cloth preparation equipment

Technical Field

The invention relates to the technical field of textile preparation, in particular to a composite fabric preparation device.

Background

At present, the medical and sanitary material composite cloth has several main process characteristics: film coating: the technology is the most used method for domestic enterprises, and is characterized in that: the process is simple and mature, and the production speed is high (about 100 m/min). But the laminated film can not be made into a product with air permeability requirement; hard hand feeling and poor comfort; the requirements for non-woven fabrics are high. The lamination effect of the non-woven fabric (less than 15 gsm) with low gram weight (less than 18 gsm) and low coating weight is not ideal, because the unevenness of the surface of the coiled material makes the lamination process easy to generate leak points. Hot rolling: the method is a standard process for manufacturing the SMS non-woven fabric by a two-step method, and a plurality of domestic enterprises use the process to carry out composite manufacturing of films and fabrics. The method is characterized in that: existing equipment and processes may be employed. The hot-rolled film is made of PE, the non-woven fabric is made of polypropylene, and the melting points of the PE and the non-woven fabric are different, so that the temperature of the hot-rolled roll cannot be taken into consideration simultaneously; the heat capacity problem of the hot roller causes the poor uniformity of the composite strength of the product caused by different production speeds at the same temperature; the processing precision of the hot-rolled embossing roll is also a factor influencing the product quality; the hot rolling mode has higher air permeability loss rate (between 30 and 40 percent) for the air permeable membrane material; the production speed is slower. Cloth powder compounding: the hot melt adhesive powder is sprayed on the non-woven fabric or film and compounded through heat. The method is characterized in that: the thermal compression roller uses an elastic ribbon roller and a smooth roller to cause little damage to materials. The production speed of the cloth powder composite product is low, and the production efficiency is low; the spraying uniformity of the hot-melt adhesive powder is the key of good and bad product quality, but the easy hygroscopicity of the hot-melt adhesive powder makes the uniform spraying difficult, and the spraying amount is not well controlled; the melting temperature of the hot melt adhesive powder is higher, the melting temperature of the breathable film is lower, and the hot melt adhesive powder can not be completely melted during compounding, so that the peeling strength is not enough, and the surface flatness of the composite film is not good. The hot melt adhesive breathable coating has the composite characteristics that: the production speed is high, and the air permeability loss rate of the air permeable membrane material is low (between 20 and 30 percent). The disadvantages are as follows: the equipment investment is large (the cost of a set of 1600mm hot melt adhesive breathable coating composite hot melt adhesive system with the effective width is more than 40 ten thousand dollars); the gram weight of the glue coating is high (taking the composite requirements of 180 o angle and 3.0N/inch as an example, the glue consumption is up to 4gsm or more); during coating, a coating head needs to be in contact with a coating material, and the requirements on the stability and the flatness of winding and unwinding equipment are high; the coating process applies a large tension to the material, while the non-woven fabric and the film are required to run under a state of small tension, otherwise, the material is easy to stretch and deform, and the product is wrinkled after compounding, so that the quality of the product is influenced; the operation adjustment is complicated: the non-woven fabrics and the thin films cannot resist high temperature, the service temperature of the hot melt adhesive is basically 150 ℃ or above, and the materials are easy to be burnt and broken when the hot melt adhesive is operated at low speed, so that the production is stopped, and waste products are increased.

Disclosure of Invention

The invention aims to provide composite cloth preparation equipment which can realize automatic operation of whole-process preparation and accelerate production efficiency.

The purpose of the invention is realized as follows: a composite cloth preparation device comprises a granulation part for preparing active carbon particles and a laminating part for laminating nylon cloth and non-woven fabric into composite cloth;

the composite portion includes:

a cloth roll wound with nylon cloth to form a first feeding side of the covering part;

a non-woven fabric winding-unwinding roller wound with a non-woven fabric to form a second feeding side of the composite part;

an input table used for receiving the discharge side of the granulation part and stacking activated carbon particles, and a third feeding side of the combination part is formed;

the nylon cloth gluing component is used for gluing the nylon cloth connecting surface;

the non-woven fabric gluing component is used for gluing the non-woven fabric connecting surface;

a pair of hot-pressing rubber rollers, which are used for pressing the viscose nylon cloth and the viscose non-woven fabric into a composite cloth; and

the winding roller is used for winding the composite cloth and is provided as a driving roller to form the discharge side of the covering part;

the input table is close to the feeding sides of the pair of hot-pressing rubber rollers, and the activated carbon particles stacked on the input table are right opposite to the nylon cloth connecting surface after gluing and are adhered to the nylon cloth connecting surface during preparation.

Furthermore, the granulation part comprises a granulation dryer for manufacturing activated carbon particles, the feed end of the granulation dryer is communicated with a feed pump for conveying processing raw materials to the interior of the granulation dryer, the discharge end of the granulation dryer is communicated with a particle shaping machine, the output end of the particle shaping machine corresponds to the input table, and the processed activated carbon particles are stacked on the input table.

Further, the granulation part still includes cyclone, wet dust collector, the system draught fan that loops through the pipeline switch-on, wet dust collector disposes the water tank, cyclone is used for separating dust and active carbon particle, cyclone has a suction end with the inside switch-on of granulation drier, cyclone has an active carbon particle discharge end with the input switch-on of granule trimmer, cyclone has the dust exhaust mouth of an exhaust dust, cyclone's dust exhaust mouth passes through the air inlet end switch-on of wet dust collector with the system draught fan, the external atmosphere of air-out end intercommunication of system draught fan.

Furthermore, the granulation part also comprises a heating air blower, a cooling air blower and a heater, wherein the air inlet end of the heating air blower is communicated with the outside atmosphere, the air outlet end of the heating air blower is communicated with the inside of the granulation dryer through the heater, the air inlet end of the cooling air blower is communicated with the outside atmosphere, and the air outlet end of the cooling air blower is communicated with the inside of the granulation dryer.

Further, nylon cloth rubber coating subassembly includes first compression roller, first glue spreader and flourishing gluey container of coating adhesive, first compression roller and the common roll-in nylon cloth of first glue spreader, first glue spreader partially immerses in the coating adhesive of first flourishing gluey container.

Further, non-woven fabrics rubber coating subassembly includes that second compression roller, second glue spreader and splendid attire are equipped with the second of coating adhesive and are glued the container, the common roll-in non-woven fabrics of second compression roller and second glue spreader, the second glue spreader partially immerses in the coating adhesive that the second was glued the container greatly.

Furthermore, the laminating part also comprises a plurality of guide rollers for tensioning, the guide rollers are arranged between the hot-pressing glue roller and the winding roller to tension the composite cloth, the guide rollers are arranged between the non-woven cloth rolling-up roller and the non-woven cloth gluing component to tension the non-woven cloth, and the guide rollers are arranged between the non-woven cloth gluing component and the hot-pressing glue roller to tension the non-woven cloth.

The invention has the beneficial effects that:

1) the automatic operation of the whole preparation can be realized, and the production efficiency is accelerated;

2) during granulation, hot air can be introduced into the granulation dryer through the heating blower so as to dry the activated carbon particles, and cooling air can also be introduced into the granulation dryer through the cooling blower so as to cool the activated carbon particles and play a role in regulating and controlling the temperature;

3) during granulation, the system induced draft fan can generate exhaust airflow, so that the exhaust airflow can come out of the granulation dryer, and sequentially passes through the cyclone separator, the wet dust collector and the system induced draft fan, the cyclone separator can be used for separating dust and active carbon particles discharged by the granulation dryer, the separated active carbon particles can be recycled so as to avoid waste, and the separated dust is removed through the wet dust collector so as to avoid environment pollution;

4) when the composite cloth is covered, the winding roller is driven to rotate so as to wind the composite cloth, the coating adhesive is coated on the connecting surface of the nylon cloth and the connecting surface of the non-woven fabric in the conveying process, then the activated carbon particles on the input table are adhered by the connecting surface of the nylon cloth, and the activated carbon particles are combined while the nylon cloth and the non-woven fabric are adhered so as to form the required composite cloth.

Drawings

FIG. 1 is a schematic view of the granulation section arrangement of the present invention.

Fig. 2 is a schematic view of the arrangement of the cladding portion of the present invention.

In the figure, 1 a feed pump, 2 a heating blower, 3 a cooling blower, 4 a heater, 5 a granulation dryer, 6 a cyclone separator, 7 a wet dust collector, 8 a water tank, 9 a system induced draft fan, 10 a particle shaping machine, 11 a cloth winding and unwinding roller, 12 nylon cloth, 13 a first press roller, 14 a first glue roller, 15 a first glue container, 16 a hot pressing glue roller, 17 an input table, 18 a non-woven cloth winding and unwinding roller, 19 non-woven cloth, 20 a second press roller, 21 a second glue roller, 22 a second glue container, 23 a wind-up roller and 24 a guide roller.

Detailed Description

The invention is further described with reference to the following figures and specific examples.

Referring to fig. 1 and 2, a composite fabric manufacturing apparatus includes a granulation section for manufacturing activated carbon particles, and a laminating section for laminating a nylon fabric 12 and a non-woven fabric 19 into a composite fabric.

As shown in fig. 2, the above-mentioned clad part includes:

a cloth winding-unwinding roller 11 wound with a nylon cloth 12 to form a first feeding side of the clad part;

a nonwoven fabric take-up and pay-off roll 18 on which a nonwoven fabric 19 is wound, constituting a second feeding side of the composite portion;

an input table 17 for receiving the discharge side of the granulation section and stacking activated carbon particles to form a third feed side of the combination section;

the nylon cloth gluing component is used for gluing the connecting surface of the nylon cloth 12;

the non-woven fabric gluing component is used for gluing the connecting surface of the non-woven fabric 19;

a pair of hot-pressing rubber rollers 16, which press the viscose nylon cloth 12 and the viscose non-woven fabric 19 into a composite cloth; and

a wind-up roll 23 which is used for winding up the composite cloth and is provided as a driving roll, and forms the discharge side of the covering part;

the input table 17 is close to the feeding side of the pair of hot-pressing rollers 16, and the activated carbon particles stacked on the input table 17 are opposite to the connecting surface of the rubberized nylon cloth 12 and are adhered to the connecting surface of the nylon cloth 12 during preparation.

The nylon cloth gluing assembly comprises a first pressing roller 13, a first glue spreading roller 14 and a first glue container 15 containing coating adhesive, wherein the first pressing roller 13 and the first glue spreading roller 14 roll the nylon cloth 12 together, and the first glue spreading roller 14 is partially immersed in the coating adhesive of the first glue container 15.

The non-woven fabric gluing assembly comprises a second pressing roller 20, a second glue spreading roller 21 and a second glue container 22 containing coating adhesive, the non-woven fabric 19 is pressed by the second pressing roller 20 and the second glue spreading roller 21 together, and the second glue spreading roller 21 is partially immersed in the coating adhesive of the second glue container 22.

The laminating part also comprises a plurality of guide rollers 24 for tensioning, the guide rollers 24 are arranged between the hot-pressing glue roller 16 and the winding roller 23 to tension the composite fabric, the guide rollers 24 are arranged between the non-woven fabric rolling-up roller 18 and the non-woven fabric gluing component to tension the non-woven fabric 19, and the guide rollers 24 are arranged between the non-woven fabric gluing component and the hot-pressing glue roller 16 to tension the non-woven fabric 19.

As shown in fig. 1, the granulating part includes a granulating dryer 5 for producing activated carbon granules, the granulating dryer 5 is a granulating and drying integrated device, a feed end of the granulating dryer 5 is connected to a feed pump 1 for feeding a processing material to the inside thereof, a discharge end of the granulating dryer 5 is connected to a granule shaper 10, and an output end of the granule shaper 10 corresponds to an input table 17 and stacks treated activated carbon granules on the input table 17.

The granulation part further comprises a cyclone separator 6 communicated sequentially through a pipeline, a wet dust collector 7 and a system induced draft fan 9, the wet dust collector 7 is provided with a water tank 8, the cyclone separator 6 is used for separating dust and active carbon particles, the cyclone separator 6 is provided with a suction end communicated with the inside of the granulation dryer 5, the cyclone separator 6 is provided with an active carbon particle discharge end communicated with the input end of the particle shaping machine 10, the cyclone separator 6 is provided with a dust discharge port for discharging dust, the dust discharge port of the cyclone separator 6 is communicated with the air inlet end of the system induced draft fan 9 through the wet dust collector 7, and the air outlet end of the system induced draft fan 9 is communicated with the outside atmosphere.

The granulation part also comprises a heating air blower 2, a cooling air blower 3 and a heater 4, wherein the air inlet end of the heating air blower 2 is communicated with the external atmosphere, the air outlet end of the heating air blower 2 is communicated with the inside of the granulation dryer 5 through the heater 4, the air inlet end of the cooling air blower 3 is communicated with the external atmosphere, and the air outlet end of the cooling air blower 3 is communicated with the inside of the granulation dryer 5.

During granulation, hot air can be introduced into the granulation dryer 5 through the heating blower 2 so as to dry the activated carbon particles, hot air for drying can be obtained by heating air through the heater 4, and cooling air can be introduced into the granulation dryer 5 through the cooling blower 3 so as to cool the activated carbon particles and play a role in regulating and controlling the temperature; the system draught fan 9 can generate exhaust air flow, so that the exhaust air flow can be discharged from the inside of the granulation dryer 5, and sequentially passes through the cyclone separator 6, the wet dust collector 7 and the system draught fan 9, the dust and the active carbon particles discharged from the granulation dryer 5 can be separated by the cyclone separator 6, the active carbon particles obtained by separation can be recycled, so that waste is avoided, and the separated dust is removed through the wet dust collector 7 so as to avoid environmental pollution.

During the covering, the winding roller 23 is driven to rotate to wind the composite cloth, in the conveying process, the connecting surface of the nylon cloth 12 and the connecting surface of the non-woven fabric 19 are coated with the coating adhesive, then the connecting surface of the nylon cloth 12 is adhered with the activated carbon particles on the input table 17, and the nylon cloth 12 and the non-woven fabric 19 are adhered and simultaneously combined with the activated carbon particles to form the required composite cloth.

While the preferred embodiments of the present invention have been described, those skilled in the art will appreciate that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The composite cloth preparation equipment is characterized by comprising a granulation part for preparing activated carbon particles and a laminating part for laminating a nylon cloth (12) and a non-woven fabric (19) into a composite cloth;

the composite portion includes:

a cloth winding-unwinding roller (11) wound with a nylon cloth (12) to form a first feeding side of the composite part;

a nonwoven fabric take-up and pay-off roll (18) on which a nonwoven fabric (19) is wound, constituting a second feeding side of the composite portion;

an input table (17) used for receiving the discharge side of the granulating part and stacking activated carbon particles, and a third feeding side of the laminating part is formed;

the nylon cloth gluing component is used for gluing the connecting surface of the nylon cloth (12);

the non-woven fabric gluing component is used for gluing the connecting surface of the non-woven fabric (19);

a pair of hot-pressing rubber rollers (16), which press the viscose nylon cloth (12) and the viscose non-woven fabric (19) into a composite cloth; and

a take-up roll (23) which is used for taking up the composite cloth and is provided as a driving roll, and forms the discharge side of the composite part;

the input table (17) is close to the feeding side of the pair of hot-pressing rubber rollers (16), and activated carbon particles stacked on the input table (17) are right opposite to the connecting surface of the glued nylon cloth (12) and are adhered to the connecting surface of the nylon cloth (12) during preparation.

2. A composite fabric preparing apparatus according to claim 1, wherein the granulating part comprises a granulating dryer (5) for preparing activated carbon particles, a feeding end of the granulating dryer (5) is communicated with a feeding pump (1) for conveying a processing raw material to the interior of the granulating dryer, a discharging end of the granulating dryer (5) is communicated with a particle shaping machine (10), and an output end of the particle shaping machine (10) corresponds to the input table (17) and stacks the treated activated carbon particles on the input table (17).

3. The composite cloth preparation equipment according to claim 2, wherein the granulation part further comprises a cyclone separator (6), a wet dust collector (7) and a system induced draft fan (9) which are communicated in sequence through a pipeline, the wet dust collector (7) is provided with a water tank (8), the cyclone separator (6) is used for separating dust and active carbon particles, the cyclone separator (6) has a suction end communicating with the inside of the granulation dryer (5), the cyclone separator (6) has an activated carbon particle discharge connected to the inlet of the particle shaper (10), cyclone (6) have the dust exhaust mouth of a discharge dust, the dust exhaust mouth of cyclone (6) is held the switch-on through wet dust collector (7) and the air inlet of system draught fan (9), the air-out end intercommunication external atmosphere of system draught fan (9).

4. The composite cloth preparation equipment according to claim 2, wherein the granulation part further comprises a heating blower (2), a cooling blower (3) and a heater (4), the air inlet end of the heating blower (2) is communicated with the outside atmosphere, the air outlet end of the heating blower (2) is communicated with the inside of the granulation dryer (5) through the heater (4), the air inlet end of the cooling blower (3) is communicated with the outside atmosphere, and the air outlet end of the cooling blower (3) is communicated with the inside of the granulation dryer (5).

5. A composite web preparation apparatus as claimed in claim 1, wherein said nylon web gluing assembly comprises a first pressure roller (13), a first glue roller (14) and a first glue container (15) containing a coating adhesive, said first pressure roller (13) and said first glue roller (14) jointly rolling the nylon web (12), said first glue roller (14) being partially immersed in the coating adhesive of the first glue container (15).

6. A composite web preparation apparatus as claimed in claim 1, wherein said non-woven fabric gluing assembly comprises a second pressure roller (20), a second glue roller (21) and a second glue container (22) containing a coating adhesive, said second pressure roller (20) and said second glue roller (21) jointly rolling the non-woven fabric (19), said second glue roller (21) being partially immersed in the coating adhesive of the second glue container (22).

7. A composite fabric preparing apparatus according to claim 1, wherein the laminating part further comprises a plurality of guide rollers (24) for tensioning, the guide rollers (24) are disposed between the thermo-compression roller (16) and the wind-up roller (23) to tension the composite fabric, the guide rollers (24) are disposed between the non-woven fabric roll-down roller (18) and the non-woven fabric glue spreading assembly to tension the non-woven fabric (19), and the guide rollers (24) are disposed between the non-woven fabric glue spreading assembly and the thermo-compression roller (16) to tension the non-woven fabric (19).