CN107164853A - Ultrasound heat bonding wiping high density polyethylene composite fibre filament and its production method - Google Patents

Abstract

The invention discloses a kind of ultrasound heat bonding wiping high density polyethylene composite fibre filament, at least it is made up of the set of 100 composite fibres, its single composite fibre cross section structure is using isotactic polypropylene or polyester as core, high density polyethylene is the coating of core outer surface, coating is provided with groove for the outer surface of high density polyethylene, coating coats one layer of oil reservoir for the outer surface of high density polyethylene, oil reservoir is surface-active finish and antistatic finish, a diameter of 0.1-100 microns of above-mentioned composite fibre, length is 0.01-1000000 meters, fracture strength is not less than 2.5cN/dtex, elongation at break is 45 100%, crispation number is 0 50/25mm, crimp percent is 0 30%, oil-containing percentage by weight is 0.001 1.8%；The production method of above-mentioned composite fibre filament, is bonded by ultrasonic heat, and wiping whiskerses are made.The ultrasound is thermally bonded wiping, and with high density polyethylene composite fibre filament, not only soil removal efficiency is high, and cost is low.

Description

Ultrasound heat bonding wiping high density polyethylene composite fibre filament and its production method

Technical field

The present invention relates to a kind of ultrasound heat bonding wiping high density polyethylene composite fibre filament and its production method.

Background technology

Traditional wiping product, mostly using machine（Pin）It is base material to weave cotton cloth with non-woven cloth, and deep processing is into many types of wiping Product.Because eedle is weaved cotton cloth the natural defect low with non-woven cloth itself hole rate, cause wipe product, no matter using which kind of knot Configuration formula, is all unable to reach higher soil removal efficiency.Simultaneously because wipe product uses machine（Pin）It is base material to weave cotton cloth with non-woven cloth, Therefore cost is high.With the continuous improvement that people are required wipe product cost performance, the wiping of inexpensive and high soil removal efficiency is kept a public place clean Product, it has also become the active demand of consumer.

The content of the invention

The technical problems to be solved by the invention provide a kind of ultrasound heat bonding wiping high density polyethylene composite fibre silk Beam and its production method, the ultrasound heat bonding wiping high density polyethylene composite fibre filament not only decontamination produced by this method Rate is high, and cost is low.

In order to solve the above technical problems, the present invention provides a kind of ultrasound heat bonding wiping high density polyethylene composite fibre silk Beam, is at least made up of the set of 100 composite fibres, its single composite fibre cross section structure be using isotactic polypropylene or polyester as Core, high density polyethylene is the coating of core outer surface, and coating is provided with groove, cladding for the outer surface of high density polyethylene Thing coats one layer of oil reservoir for the outer surface of high density polyethylene, and oil reservoir is surface-active finish and antistatic finish, above-mentioned compound fibre Dimension a diameter of 0.1-100 micron, length be 0.01-1000000 meters, fracture strength is not less than 2.5cN/dtex, and fracture is stretched Long rate is 45-100%, and crispation number is 0-50/25mm, and crimp percent is 0-30%, and oil-containing percentage by weight is 0.001-1.8%；On The tow that the set of composite fibre structure is constituted is stated, is bonded by ultrasonic heat, wiping whiskerses is made.

The high density polyethylene, its melt index is not less than 9-50g/10min, density 0.92-1.00g/cm3, the bag Cover 0.01-49 microns of the appearance face thickness that thing is high density polyethylene.

The core is 0.08 micron -99.98 microns of isotactic polypropylene or polyester homalographic equivalent average diameter.

The ultrasound heat bonding wiping is whole chromatogram form and aspect with the color of high density polyethylene composite fibre filament.

The ultrasound heat bonding wiping is 0-30% with the crimp percent of high density polyethylene composite fibre filament.

The ultrasound heat bonding wiping is 0-50/25mm with the crispation number of high density polyethylene composite fibre filament.

The section of the core is circular, ellipse, triangle or square, section of the coating of the core outer surface The outer surface in face is circular, ellipse, triangle or square.

A kind of production method of ultrasound heat bonding wiping high density polyethylene composite fibre filament, specifically includes following step Suddenly：

(1) isotactic polypropylene particle or polyester chip transportation are uniformly mixed, Masterbatch adding proportion to major ingredient storehouse with Masterbatch 0-5%, then screw extruder heating pressurization is fed, to 250-285 DEG C or 285-295 DEG C, 5-15MPa, then through fondant filter Filtering, 2-20 microns of screen pack fineness, then it is transported to each spinning group by 6-16 section static mixer mixing, then the allocated head Each spinneret orifice center of part, spinneret；

(2) by melt index 9-50g/10min, density 0.92-1.00g/c3 polyethylene alkene particle is transported to major ingredient storehouse, with color Master batch is uniformly mixed, Masterbatch adding proportion 0-5%, then feeds screw extruder heating pressurization, to 250-295 DEG C, 5-20MPa , then filter through fondant filter, 2-20 microns of screen pack fineness, then by the mixing of 6-16 element statics, then through point Each spinneret orifice periphery of each filament spinning component, spinneret is transported to head；

(3) above-mentioned high density polyethylene high-temperature fusant is cladded with isotactic polypropylene or polyester core high-temperature fusant, sprays spinneret, spray Go out the 0.005-60.0m/min first time；

(4) 1- of the bubble diameter control being cladded with above-mentioned high density polyethylene high-temperature fusant at outer surface thickness 0.01-49 microns In 1/10, into normal distribution；During so as to first break draft, fiber surface groove is formed；

(5) by above-mentioned ejection spinneret melt, by quenching, 10-35 DEG C of wind-warm syndrome, wind speed 0.1-5m/min forms strand；

(6) by above-mentioned strand, the abrasion-resistant corundum oiling roller by rotation, reverse contact is oiled, and every strand is applied into upper surface Aqueous surfactant solutions, surfactant concentration 0.01-2%；

(7) by the above-mentioned strand for coating aqueous surfactant solution, with 300-2000m/min speed winding falling-barrel；

(8) a barrel strand is fallen by above-mentioned every, by boundling, boundling radical more than 100, drawing-off, draw ratio 1:2-1:5, curling, baking Xeothermic sizing, pendulum wire cartonning.

The ultrasound heat bonding wiping high density polyethylene composite fibre filament produced by the above method, due to the volume of fiber Qu Xingneng is significantly improved and difference each other, fibre bundle is formed clamping effect and high-specific surface area when wiping micronic dust, this makes fibre The dust-absorbing rate of dimension is improved, therefore soil removal efficiency is high；Simultaneously because coating is provided with groove for the outer surface of high density polyethylene, favorably In the effect of absorption micronic dust, so as to further increase soil removal efficiency.Compared with prior art, machine is eliminated（Pin）Weave cotton cloth and knitted with non- The process of cloth is made, therefore cost is low.

Brief description of the drawings

Fig. 1 is the structural representation in ultrasound heat bonding wiping high density polyethylene composite fibre filament section of the invention；

Fig. 2 is structural representation of the ultrasound heat bonding wiping high density polyethylene composite fibre filament in axial direction；

Fig. 3 is the cross section structure schematic diagram of second of embodiment of the invention；

Fig. 4 is the cross section structure schematic diagram of the third embodiment of the invention；

Fig. 5 is the cross section structure schematic diagram of the 4th kind of embodiment of the invention；

Fig. 6 production technological process.

1. core in figure, 2. coatings, 3. oil reservoirs, 4 grooves.

Embodiment

As depicted in figs. 1 and 2, the invention discloses a kind of ultrasound heat bonding wiping high density polyethylene composite fibre silk Beam, is at least made up of the set of 100 composite fibres, its single composite fibre cross section structure be using isotactic polypropylene or polyester as Core, high density polyethylene is the coating of core outer surface, and coating is provided with groove, cladding for the outer surface of high density polyethylene Thing coats one layer of oil reservoir for the outer surface of high density polyethylene, and oil reservoir is surface-active finish and antistatic finish, above-mentioned compound fibre Dimension a diameter of 0.1-100 micron, length be 0.01-1000000 meters, fracture strength is not less than 2.5cN/dtex, and fracture is stretched Long rate is 45-100%, and crispation number is 0-50/25mm, and crimp percent is 0-30%, and oil-containing percentage by weight is 0.001-1.8%；On The tow that the set of composite fibre structure is constituted is stated, is bonded by ultrasonic heat, wiping whiskerses is made.

The high density polyethylene, its melt index 9-50g/10min, density 0.92-1.00g/cm3, the coating is 0.01-49 microns of the appearance face thickness of high density polyethylene.

The core is 0.08 micron -99.98 microns of isotactic polypropylene or polyester homalographic equivalent average diameter.

The ultrasound heat bonding wiping is whole chromatogram form and aspect with the color of high density polyethylene composite fibre filament.

The ultrasound heat bonding wiping is 0-30% with the crimp percent of high density polyethylene composite fibre filament.

The ultrasound heat bonding wiping is 0-50/25mm with the crispation number of high density polyethylene composite fibre filament.

The section of the core is circular, ellipse, triangle or square, section of the coating of the core outer surface The outer surface in face is circular, ellipse, triangle or square, as Figure 1-5.

A kind of production method of ultrasound heat bonding wiping high density polyethylene composite fibre filament, specifically includes following step Suddenly：

(1) isotactic polypropylene particle or polyester chip transportation are uniformly mixed, Masterbatch adding proportion to major ingredient storehouse with Masterbatch 0-5%, then screw extruder heating pressurization is fed, to 250-285 DEG C or 285-295 DEG C, 5-15MPa, then through fondant filter Filtering, 2-20 microns of screen pack fineness, then it is transported to each spinning group by 6-16 section static mixer mixing, then the allocated head Each spinneret orifice center of part, spinneret；

(2) by melt index 9-50g/10min, density 0.92-1.00g/c3 polyethylene alkene particle is transported to major ingredient storehouse, with color Master batch is uniformly mixed, Masterbatch adding proportion 0-5%, then feeds screw extruder heating pressurization, to 250-295 DEG C, 5-20MPa , then filter through fondant filter, 2-20 microns of screen pack fineness, then by the mixing of 6-16 element statics, then through point Each spinneret orifice periphery of each filament spinning component, spinneret is transported to head；

(3) above-mentioned high density polyethylene high-temperature fusant is cladded with isotactic polypropylene or polyester core high-temperature fusant, sprays spinneret, spray Go out the 0.005-60.0m/min first time；

(4) 1- of the bubble diameter control being cladded with above-mentioned high density polyethylene high-temperature fusant at outer surface thickness 0.01-49 microns In 1/10, into normal distribution；During so as to first break draft, fiber surface groove is formed；

(5) by above-mentioned ejection spinneret melt, by quenching, 10-35 DEG C of wind-warm syndrome, wind speed 0.1-5m/min forms strand；

(6) by above-mentioned strand, the abrasion-resistant corundum oiling roller by rotation, reverse contact is oiled, and every strand is applied into upper surface Aqueous surfactant solutions, surfactant concentration 0.01-2%；

(7) by the above-mentioned strand for coating aqueous surfactant solution, with 300-2000m/min speed winding falling-barrel；

(8) a barrel strand is fallen by above-mentioned every, by boundling, boundling radical more than 100, drawing-off, draw ratio 1:2-1:5, curling, baking Xeothermic sizing, pendulum wire cartonning.

The production technological process of embodiment of the present invention is as shown in Figure 6.

Claims (8)

1. a kind of ultrasound heat bonding wiping high density polyethylene composite fibre filament, it is characterised in that tie in its single fiber section Structure is that, using isotactic polypropylene or polyester as core, high density polyethylene is the coating of core outer surface, and coating is highly dense poly- second The outer surface of alkene is provided with groove, and coating coats one layer of oil reservoir for the outer surface of high density polyethylene, and oil reservoir is surface-active oil Agent and antistatic finish, a diameter of 0.1-100 microns of above-mentioned composite fibre, length be 0.01-1000000 meter, fracture is by force Degree is not less than 2.5cN/dtex, and elongation at break is 45-100%, and crispation number is 0-50/25mm, and crimp percent is 0-30%, is contained Weight of oil percentage is 0.001-1.8%；The set of at least 100 above-mentioned fibers, constitutes tow, is bonded by ultrasonic heat, makes Make wiping whiskerses.

2. a kind of ultrasound is thermally bonded wiping high density polyethylene composite fibre filament according to claim 1, it is characterised in that The high density polyethylene, its melt index 9-50g/10min, density 0.92-1.00g/cm3, the coating are highly dense poly- second 0.01-49 microns of the appearance face thickness of alkene.

3. a kind of ultrasound is thermally bonded wiping high density polyethylene composite fibre filament according to claim 1, it is characterised in that The core is 0.08 micron -99.98 microns of isotactic polypropylene or polyester homalographic equivalent average diameter.

4. a kind of ultrasound is thermally bonded wiping high density polyethylene composite fibre filament according to claim 1, it is characterised in that The ultrasound heat bonding wiping is whole chromatogram form and aspect with the color of high density polyethylene composite fibre filament.

5. a kind of ultrasound is thermally bonded wiping high density polyethylene composite fibre filament according to claim 1, it is characterised in that The ultrasound heat bonding wiping is 0-30% with the crimp percent of high density polyethylene composite fibre filament.

6. a kind of ultrasound is thermally bonded wiping high density polyethylene composite fibre filament according to claim 1, it is characterised in that The ultrasound heat bonding wiping is 0-50/25mm with the crispation number of high density polyethylene composite fibre filament.

7. a kind of ultrasound is thermally bonded wiping high density polyethylene composite fibre filament according to claim 1, it is characterised in that The section of the core is circular, ellipse, triangle or square, the appearance in the section of the coating of the core outer surface Face is circular, ellipse, triangle or square.

8. one kind ultrasound heat bonding wiping high density polyethylene composite fibre filament as described in claim 1,2,3,4,5,6 or 7 Production method, specifically include following steps：

(1) isotactic polypropylene particle or polyester chip transportation are uniformly mixed, Masterbatch adding proportion to major ingredient storehouse with Masterbatch 0-5%, then screw extruder heating pressurization is fed, to 250-285 DEG C or 285-295 DEG C, 5-20MPa, then through fondant filter Filtering, 2-20 microns of screen pack fineness, then it is transported to each spinning by the mixing of 6-16 element statics, then the allocated head Each spinneret orifice center of component, spinneret；

(2) by melt index 9-50g/10min, density 0.92-1.00g/cm3 polyethylene alkene particle is transported to major ingredient storehouse, with Masterbatch is uniformly mixed, Masterbatch adding proportion 0-5%, then feeds screw extruder heating pressurization, to 250-295 DEG C, 5- 20MPa, then filtered through fondant filter, 2-20 microns of screen pack fineness, then by the mixing of 6-16 element statics, The allocated head is transported to each spinneret orifice periphery of each filament spinning component, spinneret again；

(3) above-mentioned high density polyethylene high-temperature fusant is cladded with isotactic polypropylene or polyester core high-temperature fusant, sprays spinneret, spray Go out the 0.06-60.0m/min first time；

(4) 1- of the bubble diameter control being cladded with above-mentioned high density polyethylene high-temperature fusant at outer surface thickness 0.01-49 microns In 1/10, into normal distribution；During so as to first break draft, fiber surface groove is formed；

(5) by above-mentioned ejection spinneret melt, by quenching, 10-35 DEG C of wind-warm syndrome, wind speed 0.1-5m/min forms strand；

(6) by above-mentioned strand, the abrasion-resistant corundum oiling roller by rotation, reverse contact is oiled, and every strand is applied into upper surface Aqueous surfactant solutions, surfactant concentration 0.1-2%；

(7) by the above-mentioned strand for coating aqueous surfactant solution, with 500-2000m/min speed winding falling-barrel；

(8) a barrel strand is fallen by above-mentioned every, by boundling, boundling radical more than 100, drawing-off, draw ratio 1:2-1:5, curling, baking Xeothermic sizing, pendulum wire cartonning.