CN109183185A - Conveyer belt with antistatic effect - Google Patents

Abstract

This application involves a kind of conveyer belts with antistatic effect, including transmitting band body, antistatic film is equipped in conveyer belt body surface, the antistatic film is woven by anti-static polyester fiber, the anti-static polyester fiber is to be prepared as filler through melt spinning using polyester as substrate using absorbing water composite granule；It is that polyester master particle ontology is blended with polyester slice, is obtained through melt spinning；And the polyester master particle ontology composite granule that will absorb water is blended with polyester slice and obtains through double screw extruder；And the water suction composite granule is obtained by the mixture containing Sodium Polyacrylate and carbon nanotube through vacuum dehydration.

Description

Conveyer belt with antistatic effect

Technical field

This application involves conveyer belt technical field more particularly to a kind of conveyer belts with antistatic effect.

Background technique

Conveyer belt is the delivery means for transporting articles, in transmit process, due to friction, by it for electronic product Field can impact electronic product.

Summary of the invention

The present invention is intended to provide a kind of conveyer belt with antistatic effect, set forth above to solve the problems, such as.

A kind of conveyer belt with antistatic effect, including transmission band body are provided in the embodiment of the present invention, are being passed Band body surface is sent to be equipped with antistatic film, the antistatic film is woven by anti-static polyester fiber.

Preferably, the anti-static polyester fiber is to be spun as filler through melting using polyester as substrate using absorbing water composite granule Silk is prepared；It is that polyester master particle ontology is blended with polyester slice, is obtained through melt spinning；And the polyester master particle The ontology composite granule that will absorb water is blended with polyester slice and obtains through double screw extruder；And the water suction composite granule by Mixture containing Sodium Polyacrylate and carbon nanotube is obtained through vacuum dehydration.

Preferably, the water suction composite granule is by Sodium Polyacrylate, potassium hydroxide particle, bentonite, kaolin, charcoal Black, carbon nanotube, Al₂O₃Nanoparticle and WO₃Nano particle composition.

Preferably, in polyester fiber, the Sodium Polyacrylate, potassium hydroxide particle, bentonite, kaolin, carbon black, carbon are received Mitron, Al₂O₃Nanoparticle and WO₃The mass content of nano particle is respectively 0.2~0.8%, 0.3~0.5%, 0.1~ 0.4%, 0.1~0.4%, 0.5~0.6%, 1.2~1.6%, 0.6~0.8%, 1.0~1.5%.

The technical solution that the embodiment of the present invention provides can include the following benefits:

By the way that anti-static polyester fiber is arranged in conveyer belt body surface, which will absorb water compound the present invention first Powder is blended with polyester slice prepares polyester master particle ontology, is then gathered polyester master particle ontology and polyester slice melt spinning Ester fiber, in this way, the polyester master particle ontology prepared first can play a protective role to water suction composite granule, for polyester fiber Good effect is played in the performance of water imbibition.

The additional aspect of the application and advantage will be set forth in part in the description, and will partially become from the following description It obtains obviously, or recognized by the practice of the application.It should be understood that above general description and following detailed description are only Be it is exemplary and explanatory, the application can not be limited.

Detailed description of the invention

The present invention will be further described with reference to the accompanying drawings, but the embodiment in attached drawing is not constituted to any limit of the invention System, for those of ordinary skill in the art, without creative efforts, can also obtain according to the following drawings Other attached drawings.

Fig. 1 is the structural schematic diagram of conveyer belt of the present invention；

Wherein, 10- transmits band body, 11- antistatic film.

Specific embodiment

Example embodiments are described in detail here, and the example is illustrated in the accompanying drawings.Following description is related to When attached drawing, unless otherwise indicated, the same numbers in different drawings indicate the same or similar elements.Following exemplary embodiment Described in embodiment do not represent all embodiments consistented with the present invention.On the contrary, they be only with it is such as appended The example of device and method being described in detail in claims, some aspects of the invention are consistent.

In conjunction with Fig. 1, embodiments herein is related to a kind of conveyer belt with antistatic effect, including transmission band body 10, it is equipped with antistatic film 11 on transmission 10 surface of band body, which is woven by anti-static polyester fiber.

By the way that antistatic film is arranged, it can be avoided the generation of electrostatic in transmission process, work well.

The anti-static polyester fiber is to be prepared into as filler through melt spinning using polyester as substrate using absorbing water composite granule It arrives；It is that polyester master particle ontology is blended with polyester slice, is obtained through melt spinning；And the polyester master particle ontology be by Water suction composite granule is blended with polyester slice to be obtained through double screw extruder；And the water suction composite granule is by containing poly- third Olefin(e) acid sodium and the mixture of carbon nanotube are obtained through vacuum dehydration.

In this field, most of antistatic property of polyester fiber is to improve the regain of polyester fiber, usually has altogether Poly- means and blending means, wherein copolymerization means, which mainly pass through, is embedded in hydrophilic segment formation copolymerization into polyester macromolecule chain Object can get good hygroscopicity, but its technique is more complex, and the structure for changing polyester itself, lose polyester original Some excellent functions；Based on this, polyester fiber is prepared using blending method in the technical solution of the application, also, is different from simple By absorbent material and polyester slice melt spinning, in technical scheme, water suction composite granule is total to polyester slice first It is blended standby polyester master particle ontology, polyester master particle ontology and polyester slice melt spinning are then obtained into polyester fiber, in this way, first The polyester master particle ontology of preparation can play a protective role to water suction composite granule, and the performance of polyester fiber water imbibition is played Good effect.

In order to realize superior technique effect, wherein the water suction composite granule is by Sodium Polyacrylate, potassium hydroxide grain Son, bentonite, kaolin, carbon black, carbon nanotube, Al₂O₃Nanoparticle and WO₃Nano particle composition.Preferably, polyester fiber In, the Sodium Polyacrylate, potassium hydroxide particle, bentonite, kaolin, carbon black, carbon nanotube, Al₂O₃Nanoparticle and WO₃ The mass content of nano particle is respectively 0.2~0.8%, 0.3~0.5%, 0.1~0.4%, 0.1~0.4%, 0.5~ 0.6%, 1.2~1.6%, 0.6~0.8%, 1.0~1.5%；In this field, to increase water imbibition, typically directly in polyester fibre Addition water suction filler is blended in dimension.Sodium Polyacrylate tradition shows as absorptive substance, in technical scheme, the water suction It further include the inorganic mineral fillers such as bentonite, kaolin in composite granule, it can be as other particles in water suction composite granule Adhesive, water suction while increase interparticle binding force；It further include carbon nanotube in the composite granule, with it Its powder combines, evenly dispersed, can increase the electric conductivity of polyester fiber；In addition, potassium hydroxide particle, Al₂O₃Nanoparticle and WO₃Nano particle collective effect generates unexpected good effect for the thermal conductivity and water imbibition that increase polyester fiber；And And due to the conductive network that carbon nanotube is constituted, the dispersibility of above-mentioned particle is increased, so that polyester fiber thermal conductivity and moisture absorption Property uniformly plays a role.

In the preferred embodiment, the partial size of the potassium hydroxide particle is 100nm；The Al₂O₃The partial size of nanoparticle For 50nm；The WO₃The partial size of nano particle is 50nm；Wherein, it is highly preferred that the WO₃The preparation process of nano particle are as follows: Firstly, the tungsten powder of 6.0g is added in 10ml alcoholic solution, stir evenly, adds the H of 40ml₂O₂, stir evenly, obtain Tungsten source；The polyvinylpyrrolidone in the tungsten source of 6ml and 3.9g is dissolved into 10ml alcohol again, is stirred evenly, next time at 80 DEG C 2h is flowed, obtains mixed sols, by mixed sols in 90 DEG C of dry 2h, then 550 DEG C of calcining 10h obtain WO again₃Nano particle.

It is one of at least to solve the above problems, technical scheme further relates to the preparation method of above-mentioned polyester fiber:

Hydro-thermal method prepares WO₃Nano particle；Raw material is prepared into water suction composite granule；It then will water suction composite granule and poly- Ester slice is granulated after mixing in a high speed mixer through double screw extruder, obtains polyester master particle ontology；By polyester master particle ontology With polyester slice melt spinning, the polyester fiber is obtained.

Further explanation is made to the present invention combined with specific embodiments below:

Embodiment 1

The preparation process of the anti-static polyester fiber are as follows:

Step 1, hydro-thermal method prepares WO₃Nano particle

Firstly, the tungsten powder of 6.0g is added in 10ml alcoholic solution, stir evenly, adds the H of 40ml₂O₂, stirring is It is even, obtain tungsten source；The polyvinylpyrrolidone in the tungsten source of 6ml and 3.9g is dissolved into 10ml alcohol again, is stirred evenly, 80 Flow back 2h at DEG C, obtains mixed sols, and by mixed sols in 90 DEG C of dry 2h, then 550 DEG C of calcining 10h obtain WO again₃Nanometer Particle；

Step 2, preparation water suction composite granule

According to mass ratio, by Sodium Polyacrylate, potassium hydroxide particle, bentonite, kaolin, carbon black, carbon nanotube, Al₂O₃Nanoparticle and WO₃Nano particle is uniformly mixed, and vacuum dehydration handles 4h at 90 DEG C, through ball mill grinding after crushing 3h, then 650 DEG C of calcining 8h again, obtain water suction composite granule；

Step 3 prepares polyester master particle ontology

Polyester slice squeezes after mixing polyester slice in a high speed mixer with water suction composite granule through twin-screw through drying Machine is granulated out, obtains polyester master particle ontology；

Wherein, double screw extruder extrusion temperature is 250~290 DEG C；

Step 4 prepares polyester fiber

Polyester master particle ontology and polyester slice are proportionally mixed to get blended slice, are then placed on blended slice In vacuum drying oven, in 95 DEG C of dry 5h, guarantee that water content is lower than 40ppm；Blended slice is used into single screw rod spinning machine after drying Melt spinning is carried out, spinning temperature is 275~290 DEG C, obtains the anti-static polyester fiber.

Wherein, in the polyester fiber that the present embodiment obtains, the Sodium Polyacrylate, potassium hydroxide particle, bentonite, kaolinite Soil, carbon black, carbon nanotube, Al₂O₃Nanoparticle and WO₃The mass content of nano particle is respectively 0.2%, 0.3%, 0.4%, 0.4%, 0.5%, 1.6%, 0.6%, 1.0%.Using GB/T 6503-2008 standard, it is fine to measure the polyester that the present embodiment obtains The regain of dimension is 3.87%, and volume resistivity is 3.8 × 10⁹(Ω·m)；After 500 washings, regain variable quantity is less than 2%, there is good anti-washing effect.

Embodiment 2

The preparation process of the anti-static polyester fiber are as follows:

Step 1, hydro-thermal method prepares WO₃Nano particle

Firstly, the tungsten powder of 6.0g is added in 10ml alcoholic solution, stir evenly, adds the H of 40ml₂O₂, stirring is It is even, obtain tungsten source；The polyvinylpyrrolidone in the tungsten source of 6ml and 3.9g is dissolved into 10ml alcohol again, is stirred evenly, 80 Flow back 2h at DEG C, obtains mixed sols, and by mixed sols in 90 DEG C of dry 2h, then 550 DEG C of calcining 10h obtain WO again₃Nanometer Particle；

Step 2, preparation water suction composite granule

According to mass ratio, by Sodium Polyacrylate, potassium hydroxide particle, bentonite, kaolin, carbon black, carbon nanotube, Al₂O₃Nanoparticle and WO₃Nano particle is uniformly mixed, and vacuum dehydration handles 4h at 90 DEG C, through ball mill grinding after crushing 3h, then 650 DEG C of calcining 8h again, obtain water suction composite granule；

Step 3 prepares polyester master particle ontology

Polyester slice squeezes after mixing polyester slice in a high speed mixer with water suction composite granule through twin-screw through drying Machine is granulated out, obtains polyester master particle ontology；

Wherein, double screw extruder extrusion temperature is 250~290 DEG C；

Step 4 prepares polyester fiber

Polyester master particle ontology and polyester slice are proportionally mixed to get blended slice, are then placed on blended slice In vacuum drying oven, in 95 DEG C of dry 5h, guarantee that water content is lower than 40ppm；Blended slice is used into single screw rod spinning machine after drying Melt spinning is carried out, spinning temperature is 275~290 DEG C, obtains the anti-static polyester fiber.

Wherein, in the polyester fiber that the present embodiment obtains, the Sodium Polyacrylate, potassium hydroxide particle, bentonite, kaolinite Soil, carbon black, carbon nanotube, Al₂O₃Nanoparticle and WO₃The mass content of nano particle is respectively 0.8%, 0.5%, 0.1%, 0.1%, 0.6%, 1.2%, 0.8%, 1.5%；Using GB/T 6503-2008 standard, it is fine to measure the polyester that the present embodiment obtains The regain of dimension is 4.16%, and volume resistivity is 7.3 × 10⁹(Ω·m)；After 500 washings, regain variable quantity is less than 3%, there is good anti-washing effect.

Embodiment 3

The preparation process of the anti-static polyester fiber are as follows:

Step 1, hydro-thermal method prepares WO₃Nano particle

Firstly, the tungsten powder of 6.0g is added in 10ml alcoholic solution, stir evenly, adds the H of 40ml₂O₂, stirring is It is even, obtain tungsten source；The polyvinylpyrrolidone in the tungsten source of 6ml and 3.9g is dissolved into 10ml alcohol again, is stirred evenly, 80 Flow back 2h at DEG C, obtains mixed sols, and by mixed sols in 90 DEG C of dry 2h, then 550 DEG C of calcining 10h obtain WO again₃Nanometer Particle；

Step 2, preparation water suction composite granule

According to mass ratio, by Sodium Polyacrylate, potassium hydroxide particle, bentonite, kaolin, carbon black, carbon nanotube, Al₂O₃Nanoparticle and WO₃Nano particle is uniformly mixed, and vacuum dehydration handles 4h at 90 DEG C, through ball mill grinding after crushing 3h, then 650 DEG C of calcining 8h again, obtain water suction composite granule；

Step 3 prepares polyester master particle ontology

Polyester slice squeezes after mixing polyester slice in a high speed mixer with water suction composite granule through twin-screw through drying Machine is granulated out, obtains polyester master particle ontology；

Wherein, double screw extruder extrusion temperature is 250~290 DEG C；

Step 4 prepares polyester fiber

Polyester master particle ontology and polyester slice are proportionally mixed to get blended slice, are then placed on blended slice In vacuum drying oven, in 95 DEG C of dry 5h, guarantee that water content is lower than 40ppm；Blended slice is used into single screw rod spinning machine after drying Melt spinning is carried out, spinning temperature is 275~290 DEG C, obtains the anti-static polyester fiber.

Wherein, in the polyester fiber that the present embodiment obtains, the Sodium Polyacrylate, potassium hydroxide particle, bentonite, kaolinite Soil, carbon black, carbon nanotube, Al₂O₃Nanoparticle and WO₃The mass content of nano particle is respectively 0.5%, 0.4%, 0.3%, 0.3%, 0.5%, 1.4%, 0.7%, 1.2%；Using GB/T 6503-2008 standard, it is fine to measure the polyester that the present embodiment obtains The regain of dimension is 3.41%, and volume resistivity is 1.6 × 10⁹(Ω·m)；After 500 washings, regain variable quantity is less than 1%, there is good anti-washing effect.

The foregoing is merely preferred modes of the invention, are not intended to limit the invention, all in spirit and original of the invention Within then, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.

Claims (9)

1. a kind of conveyer belt with antistatic effect, including transmission band body, which is characterized in that set in conveyer belt body surface There is antistatic film, the antistatic film is woven by anti-static polyester fiber.

2. a kind of conveyer belt with antistatic effect according to claim 1, which is characterized in that the antistatic polyester Fiber is to be prepared as filler through melt spinning using polyester as substrate using absorbing water composite granule；It is by polyester master particle ontology It is blended with polyester slice, is obtained through melt spinning；And the polyester master particle ontology is will absorb water composite granule and polyester slice What blending was obtained through double screw extruder；And the water suction composite granule is by the mixing containing Sodium Polyacrylate and carbon nanotube Object is obtained through vacuum dehydration.

3. a kind of conveyer belt with antistatic effect according to claim 2, which is characterized in that the water suction is compound Powder is by Sodium Polyacrylate, potassium hydroxide particle, bentonite, kaolin, carbon black, carbon nanotube, Al₂O₃Nanoparticle and WO₃It receives Rice grain composition.

4. a kind of conveyer belt with antistatic effect according to claim 3, which is characterized in that in polyester fiber, institute State Sodium Polyacrylate, potassium hydroxide particle, bentonite, kaolin, carbon black, carbon nanotube, Al₂O₃Nanoparticle and WO₃Nanometer The mass content of grain is respectively 0.2~0.8%, 0.3~0.5%, 0.1~0.4%, 0.1~0.4%, 0.5~0.6%, 1.2 ~1.6%, 0.6~0.8%, 1.0~1.5%.

5. a kind of conveyer belt with antistatic effect according to claim 4, which is characterized in that the water suction composite powder Body the preparation method comprises the following steps:

According to mass ratio, by Sodium Polyacrylate, potassium hydroxide particle, bentonite, kaolin, carbon black, carbon nanotube, Al₂O₃It receives Rice corpuscles and WO₃Nano particle is uniformly mixed, and vacuum dehydration handles 4h at 90 DEG C, through ball mill grinding 3h after crushing, then 650 DEG C of calcining 8h again obtain water suction composite granule.

6. a kind of conveyer belt with antistatic effect according to claim 5, which is characterized in that the potassium hydroxide grain The partial size of son is 100nm；The Al₂O₃The partial size of nanoparticle is 50nm.

7. a kind of conveyer belt with antistatic effect according to claim 6, which is characterized in that the WO₃Nano particle Partial size be 50nm, the WO₃The preparation process of nano particle are as follows: firstly, the tungsten powder of 6.0g is added to 10ml alcoholic solution In, it stirs evenly, adds the H of 40ml₂O₂, stir evenly, obtain tungsten source；Again by the tungsten source of 6ml and the polyvinyl pyrrole of 3.9g Alkanone is dissolved into 10ml alcohol, is stirred evenly, and flow back 2h at 80 DEG C, obtains mixed sols, and mixed sols is dry at 90 DEG C Dry 2h, then 550 DEG C of calcining 10h obtain WO again₃Nano particle.

8. a kind of conveyer belt with antistatic effect according to claim 2, which is characterized in that the polyester fiber Preparation method:

Hydro-thermal method prepares WO₃Nano particle；Raw material is prepared into water suction composite granule；Then water suction composite granule is cut with polyester Piece is granulated after mixing in a high speed mixer through double screw extruder, obtains polyester master particle ontology；By polyester master particle ontology and gather Ester is sliced melt spinning, obtains the polyester fiber.

9. a kind of conveyer belt with antistatic effect according to claim 8, which is characterized in that the antistatic polyester The preparation process of fiber are as follows: firstly, the tungsten powder of 6.0g is added in 10ml alcoholic solution, stir evenly, add 40ml's H₂O₂, stir evenly, obtain tungsten source；The polyvinylpyrrolidone in the tungsten source of 6ml and 3.9g is dissolved into 10ml alcohol again, is stirred It mixes uniformly, flow back 2h at 80 DEG C, mixed sols is obtained, by mixed sols in 90 DEG C of dry 2h, then 550 DEG C of calcining 10h again Obtain WO₃Nano particle；According to mass ratio, by Sodium Polyacrylate, potassium hydroxide particle, bentonite, kaolin, carbon black, carbon Nanotube, Al₂O₃Nanoparticle and WO₃Nano particle is uniformly mixed, and vacuum dehydration handles 4h at 90 DEG C, through ball milling after crushing Machine grinds 3h, then 650 DEG C of calcining 8h again, obtains the composite granule that absorbs water；Polyester slice is multiple by polyester slice and water suction through drying It closes after powder mixes in a high speed mixer and is granulated through double screw extruder, obtain polyester master particle ontology；Wherein, twin-screw extrusion Machine extrusion temperature is 250~290 DEG C；Polyester master particle ontology and polyester slice are proportionally mixed to get blended slice, then Blended slice is placed in vacuum drying oven, in 95 DEG C of dry 5h, guarantees that water content is lower than 40ppm；By blended slice after drying Melt spinning is carried out using single screw rod spinning machine, spinning temperature is 275~290 DEG C, obtains the anti-static polyester fiber.