KR101880743B1 - device of Para-Aramid Polymer - Google Patents

Abstract

The apparatus for manufacturing a cylindrical meta-aramid fibril of the present invention comprises a first crushing unit which mixes a meta-aramid composition with a neutralizing agent to solidify the first meta-aramid fibril, and a first cutter is built in the first crusher, and a second cutter rotatably installed inside the first cutter, And a second crushing section for pulverizing and fibrillating the meta-aramid.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cylindrical meta-aramid fibril manufacturing apparatus,

The present invention relates to a cylindrical meta-aramid fibril production apparatus, and more particularly, to a cylindrical meta-aramid fibril production apparatus capable of solidifying and simultaneously pulverizing a meta-aramid composition to improve the production efficiency of the meta-aramid fibril .

Generally, polyamide-based synthetic resins are classified into aliphatic polyamides and aromatic polyamides.

Aliphatic polyamides are generally known under the trade name Nylon, and aromatic polyamides are known under the trade name Aramid.

The aliphatic polyamide. Especially, nylon 6 and nylon 6,6 are the most common thermoplastic engineering plastics, and they are used not only as fibers but also as molding materials in various fields. The nylon resin used in the molding industry is made of reinforced plastics which is reinforced with mineral or glass fiber to improve mechanical properties such as elasticity and lowering the price to have improved flame retardancy and impact resistance.

Aromatic polyamides, developed in the 1960s, were developed to improve the heat resistance of nylon, an aliphatic polyamide. Aromatic polyamides, well known for their trade names such as Nomex and Kevlar, And has excellent heat resistance and high tensile strength which can be used for fibers such as cord.

A typical aliphatic polyamide is a synthetic resin having an aliphatic hydrocarbon bonded between amide groups, and an aramid is a synthetic resin having an amide bond having 85% of benzene groups bonded to two aromatic rings between amide groups. The aliphatic hydrocarbon of the aliphatic polyamide easily undergoes molecular motion when heat is applied, whereas the benzene ring of the aromatic polyamide is stable to heat and has a high elastic modulus because the molecular chain is rigid and molecules do not easily move even when heat is applied. And there are many differences in characteristics.

The aromatic polyamide is classified into a para-aramid and a meta-aramid. The para-aramid is represented by Kevlar developed by DuPont. The para-aramid is the benzene ring bound to the amide group at the para position. Since the molecular chain is very stiff and has a linear structure, it has a very high strength and a particularly high elasticity, so that it has excellent shock absorbing performance. It is used for armor, bulletproof helmet, safety gloves, boots and fire extinguisher. It is used for sports equipment such as sticks, fishing rods and golf clubs, and also for industrial use such as FRP (Fiber Reinforced Plastic) and asbestos replacement fibers.

Meta-based aramids are representative of Nexex developed by DuPont and Conex developed by Dejin. The meta-based aramid is a combination of the benzene ring and the amide group at the meta position. The strength and elongation are similar to ordinary nylon, but they are very stable against heat. They are lighter than other heat-resistant materials and have sweat absorption. Have. In the early days, the color was limited to a few, but recently it has been made in various colors including fluorescent colors. It is used as fire-resistant clothing, uniforms for racing motorists, astronaut uniforms, work clothes, etc., and for industrial use, it is used for high-temperature filters.

In general, paper of meta-based aramid is produced by fibrillation which polymerizes meta-aramid and aligns with fine fibers, and then produces pulp and produces paper of meta-based aramid.

However, the meta-aramid has a characteristic that it is difficult to form fibrils that are solidified without forming liquid crystal phases (unlike a general polymer resin).

Therefore, when a meta-aramid sheet is produced, a meta-aramid is produced in the form of a powder to produce a sheet, but it is difficult to form a sheet in the form of a powder. In order to improve such a method, although the solidification of the meta-aramid is proceeded very slowly, the shear force is applied to produce the fiber form, but the fiberization is not sufficient and the process time is long and the yield is low due to the solidification time.

In order to solve the above-mentioned problems, the cylindrical meta-aramid fibril production apparatus of the present invention is characterized in that the meta-aramid composition is crushed and crushed through a rotating blade arranged to correspond to each other while solidifying the meta- To brillify it.

It is also an object of the present invention to extend the vertical length of a pair of cutters for crushing and holding the meta-aramid composition so as to extend the residence time of the crushing to improve the crushing efficiency of the meta-aramid composition.

It is another object of the present invention to provide a meta-aramid composition in which a blade of a milling cutter is arranged in a spiral shape so that the meta-aramid composition is pulverized by the lead angle of the blade so as to move downward, I have to.

In order to accomplish the above object, the present invention provides a cylindrical meta-aramid fibril manufacturing apparatus comprising: a first crushing unit which mixes and stabilizes a meta-aramid composition and a neutralizing agent and has therein a first cutter; And a second grinder for rotating the cutter to rotate and fibrillate the solidified meta-aramid.

According to the present invention, the first crushing section comprises a main body for receiving a meta-aramid composition as a lower crushing space, and a cover coupled to a lower surface of the crushing section to seal the crushing space, The first cutter is provided with a plurality of first blades at equal intervals on an inner circumference of the first cutter, the inner cutter being formed as an empty space, and a plurality of nozzles are mounted on the outer circumference of the main body, .

According to the present invention, the second crushing part fixes the second cutter vertically through the center of the first crushing part so as to be integrally rotated, and a gap is formed between the inner surface of the crushing space and the surface of the second crushing part The second grinding portion is formed into a cylindrical shape having a length to form a plurality of second blades protruding from the outer periphery of the second grinding portion, do.

According to the present invention, the first crushing unit and the second crushing unit are provided in a plurality of units and then stacked in multi-stages.

According to the present invention, the first blade is configured to be spirally arranged on the inner circumference of the first cutter.

According to the present invention, the second blade is configured to be spirally arranged on the outer periphery of the second cutter.

According to the present invention, the second crushing unit is provided in a plurality of ways, and the lead angle of the second cutter is variously formed from a low angle to a high angle so that the meta-aramid in the vertical direction of the second crushing unit So that the discharge speed of the brill to the outside can be increased.

As described above, the apparatus for producing a cylindrical meta-aramid fibril of the present invention is characterized in that a meta-aramid composition and a neutralizing agent are mixed and solidified through a cylindrical first crushing unit having a length, 2 cutter, so that the fibrillation efficiency of the meta-aramid can be improved by simultaneously performing the solidification step and the pulverization step of the meta-aramid composition.

Also, the apparatus for producing a cylindrical meta-aramid fibril of the present invention comprises a first crushing unit and a second crushing unit, wherein the first and second blades are helically arranged so as to correspond to each other, The fibrils of the meta-aramid pulverized in the downward direction are moved by the lead angle of the two blades to improve the discharge efficiency to the outside, thereby ensuring the yield.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front sectional view showing a cylindrical meta-aramid fibril production apparatus of the present invention. FIG.
2 is a plan sectional view showing an apparatus for producing a cylindrical meta-aramid fibril of the present invention.
3 is a front sectional view showing another embodiment of the apparatus for producing a cylindrical meta-aramid fibril of the present invention.
4 is a front sectional view showing another embodiment of the apparatus for producing a cylindrical meta-aramid fibril of the present invention.

Hereinafter, a preferred embodiment of the present invention will be described in detail. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as to avoid obscuring the subject matter of the present invention.

As used herein, the terms "substantially", "substantially", and the like are used herein to refer to a value in or near the numerical value when presenting manufacturing and material tolerances inherent in the meanings mentioned, Absolute numbers are used to prevent unauthorized exploitation by unauthorized intruders of the mentioned disclosure.

FIG. 1 is a front sectional view showing an apparatus for producing a cylindrical meta-aramid fibril of the present invention, FIG. 2 is a plan sectional view showing a cylindrical meta-aramid fibril production apparatus of the present invention, and FIG. 3 is a cross- 4 is a front sectional view showing another embodiment of the apparatus for producing a cylindrical meta-aramid fibril of the present invention.

As shown in FIGS. 1 to 4, the cylindrical meta-aramid fibril production apparatus of the present invention comprises a first crushing section 100 in which a meta-aramid composition and a neutralizing agent are mixed and solidified and a first cutter 112 is embedded therein, And a second crusher 200 which rotates the second cutter 210 inside the cutter 112 to pulverize and solidify the solidified meta-aramid.

The first crushing unit 100 includes a main body 110 receiving the meta-aramid composition into a crushing space 111 having an open bottom, and a cover 120 coupled to a bottom surface of the main body 110 to seal the crushing space 111.

A first cutter 112 is provided in the crushing space 111. A space is formed in the first cutter 112, and a plurality of first blades 113 are formed at equal intervals on the circumference of the first cutter 112.

That is, the first cutter 112 is formed in an annular shape, and the outer periphery of the first cutter 112 is tightly coupled to the inner periphery of the crushing space 111, and a plurality of first blades 113 are attached to the inner periphery of the first cutter 112 . In particular, the plurality of first cutters 112 are formed to be inclined in one direction.

The main body 110 is formed in a cylindrical shape having a vertical length so as to extend the vertical length of the crushing space 111 to maximize the space for crushing the meta-aramid and to increase the number of the first blades 113, Thereby increasing the grinding efficiency.

The main body 110 is equipped with a nozzle 130 on its outer periphery, and the neutralizing agent is supplied to the grinding space 111 to be solidified by mixing with the meta-aramid supplied into the grinding space 111.

Here, the meta-aramid fibrils are formed by appropriately controlling the solidification time. Therefore, the coagulation liquid is water available for (H ₂ O), but dimethyl acetamide in the water (H ₂ O) to control the solidification time of the meta-aramid: using a dimethylacetamide solution a mixture of (dimethyl acetamide DMAc) Lt; / RTI >

The solidification time of the meta-aramid can be controlled by adjusting the dimethylacetamide content of the aqueous methyl acetimide solution.

The aqueous solution of dimethylacetamide prevents the meta-aramid from solidifying rapidly before fibrils are formed.

Further, the second crushing unit 200 is installed on the inner circumference of the first cutter 112, and is fixed to a shaft 140 installed vertically through the center of the main body 110, so that the second crushing unit 200 is interlocked by the rotation of the shaft 140 .

Here, the meta-aramid composition is introduced into the crushing space 111 through the boundary between the outer periphery of the shaft 140 vertically coupled to the main body 110 and the hole formed at the center of the main body 110.

In particular, the second crushing unit 200 includes a second cutter 210 formed on the outer periphery of the second cutter 211 that rotates close to the first cutter 113 of the first cutter 112, The meta-aramide is pulverized while being rotated in the proximity of the cover 120, and the fibrils obtained by crushing the meta-aramid composition to the outside are discharged through the discharge hole 121 formed vertically in the center of the cover 120.

The second embodiment of the apparatus for producing meta-aramid fibrils is configured such that a plurality of the second crushing units 200 are stacked in a multi-stage, and the crushing units are installed inside the crushing space 111.

This is because the vertical length of the crushing space 111 is extended and then a plurality of second cutters 210 are stacked in a plurality of stages and a plurality of second cutters 210 are stacked in multiple stages correspondingly to the first cutter 113 and the second cutter 211 Thereby increasing the grinding efficiency of the meta-aramid composition.

In the third embodiment, the first cutter 112 is formed in a cylindrical shape having a length, and a first blade 113 formed at equal intervals on the inner periphery of the first cutter 112 is helically arranged, And a second blade 211 formed on the outer periphery of the second cutter 210 is spirally arranged.

The fibrils obtained by crushing the meta-aramid composition are discharged to the discharge hole 121 side of the cover 120 by the spiral lead angle of the first blade 113 and the second blade 211.

Furthermore, the second crushing unit 200 may be provided in a plurality of ways so that the lead angle of the second cutter 210 can be varied from a low angle to a high angle to control the crushing rate and the discharge rate of the fibril.

That is, the higher the lead angle, the higher the discharge rate of the fibril in which the meta-aramid composition is crushed by the first blade 113 and the second blade 211 in the vertical downward direction of the second crushing unit 200.

In contrast, the lower the lead angle, the lower the discharge speed of the fibril milled by the first blade 113 and the second blade 211 in the vertical direction of the second crushing part 200, and the milling efficiency can be further improved.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. Will be clear to those who have knowledge of.

10: fibril production apparatus 100: first crushing section
110: main body 111: crushing space
112: first cutter 113: first blade
120: Cover 121: Exhaust hole
130: nozzle 140:
200: second crushing section 210: second cutter
211: second blade

Claims (7)

A first cutter is provided in the crushing space, and the first cutter is installed in the crushing space. The first cutter includes a main body for receiving the meta-aramid composition as a lower crushing space, and a cover coupled to the lower surface of the main body to seal the crushing space, A plurality of first blades are formed at equal intervals on an inner circumference formed with an inner center at an inner space and a plurality of nozzles are mounted at an outer circumference of the body to supply a neutralizing agent to the milling space and solidify the mixture by mixing with the meta-aramid 1 crushing part,
A second cutter is fixed to an axis passing vertically through the center of the first crushing unit so as to be integrally rotated and a clearance is formed between the inner surface of the crushing space and the surface of the second crushing unit, The second grinding portion is formed into a cylindrical shape having a length, and a plurality of second blades are formed so as to protrude from the outer periphery, thereby grinding the solidified meta-aramid to thereby fibrillate the second meta- A crushing part,
The second grinding portion is provided in a plurality so that the second cutter is formed to have a lead angle so that the discharge rate of the fibril in which the meta-aramide in the direction perpendicular to the second grinding portion is grinded can be increased by the lead angle Characterized in that it comprises a cylindrical meta-aramid fibril.
delete delete The method according to claim 1,
Wherein the first crushing unit and the second crushing unit are provided in a plurality of units, and are then stacked in a multi-stage manner.
The method according to claim 1,
Wherein the first cutter is configured to be spirally arranged on an inner circumference of the first cutter.
The method according to claim 1,
And the second blade is arranged in a spiral shape on the outer circumference of the second cutter.





delete

Images