KR101926190B1 - device of Para-Aramid Polymer - Google Patents

Abstract

The apparatus for producing a conical meta-aramid fibril of the present invention comprises a fixed crushing section which is provided with a crushing space which is inclined inwardly so as to mix and solidify the meta-aramid composition and a neutralizing agent, And a rotating crushing unit rotatably installed in the space and having a rotating blade at its outer periphery.

Description

A device for producing conical-type meta-aramid fibrils {device of Para-Aramid Polymer}

The present invention relates to a conical meta-aramid fibril production apparatus, and more particularly, to a conical meta-aramid fibril production apparatus capable of simultaneously supplying a meta-aramid composition with a neutralizing agent and grinding the same while solidifying, To a fibril production apparatus.

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 problems, the apparatus for producing conical meta-aramid fibrils of the present invention is capable of simultaneously grinding a meta-aramid composition with a neutralizing agent while solidifying it, thereby shortening the fibril production process have.

It is also an object of the present invention to provide a meta-aramid composition in which fibrils of a meta-aramid composition, which combines a fixed blade for crushing a solidified meta-aramid composition and a rotating blade in an inclined inscribed state, Thereby improving the efficiency.

The apparatus for producing a conical meta-aramid fibril of the present invention comprises a stationary crushing unit provided with a crushing space penetrating the crusher to mix and solidify the meta-aramid composition and the neutralizing agent, And a rotary crushing unit rotatably installed in the crushing space and having a rotary blade at its outer periphery.

According to the present invention, the stationary crushing unit is configured to supply the meta-aramid composition into the crushing space by forming a supply hole with an outer circumference.

According to the present invention, the stationary crushing unit is configured to form a communicating hole in the upper part to supply the neutralizing agent into the crushing space.

According to the present invention, the fixed crushing unit has a supply hole formed on a side surface thereof to communicate with the crushing space, and a communicating hole is formed in the upper portion of the stationary crushing unit so that the meta-aramid composition and the neutralizing agent are communicated with the supply hole, To be supplied to the crushing space.

As described above, the conical-type meta-aramid fibril production apparatus of the present invention comprises a meta-aramid composition and a neutralizing agent which are mixed with a neutralizing agent to solidify the same, And a rotary crushing portion provided on the outer periphery of the rotary crushing portion is provided to be rotated in the crushing space so that the meta-aramid composition can be simultaneously supplied with the neutralizing agent to be crushed while being solidified to shorten the manufacturing process of the fibril .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view of a conical meta-aramid fibril production apparatus of the present invention. FIG.
2 is an exploded cross-sectional view showing an apparatus for producing conical meta-aramid fibrils of the present invention.
3 is an exploded perspective view showing the apparatus for producing conical meta-aramid fibrils 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 cross-sectional view showing an apparatus for producing a conical meta-aramid fibril of the present invention, FIG. 2 is an exploded sectional view showing a conical meta-aramid fibril producing apparatus of the present invention, Fig. 3 is an exploded perspective view showing a brick manufacturing apparatus.

1 to 3, the apparatus for producing conical-type meta-aramid fibrils of the present invention comprises a stationary crushing unit 110, a rotary crushing unit 120, and a cover 130.

The fixed crushing unit 110 is provided with a crushing space 112 therein for mixing and solidifying the meta-aramid composition with a neutralizing agent.

The crushing space 112 has an interior sloped through and a fixed blade 111 is formed at equal intervals on the inner periphery.

The fixed blade 111 is formed in the longitudinal direction at the periphery of the crushing space 112, and a groove is formed between the fixed blade 111.

The grooves are formed to be inclined such that the width of the grooves is the same from the upper side to the lower side and the width of the lower side of the fixed blade 111 extends downward.

The rotary crushing unit 120 is installed at the periphery of the crushing space 112, and the rotary blades 121 are formed at equal intervals on the outer circumference of the rotary crushing unit 120.

The rotary crushing unit 120 has a groove formed between the rotary blades 121. The groove has the same width in the lower direction from the upper portion of the groove like the fixed crushing unit 110. The rotary blade 121 has a width As shown in Fig.

In addition, the fixed blade 111 and the rotary blade 121 have a coupling tolerance to form a gap 115 at the mutual boundary portion, thereby pulverizing the solidified meta-aramid composition supplied to the grinding space 112.

The cover 130 is coupled to the lower surface of the stationary crushing unit 110.

A shaft 131 vertically installed at the center of the cover 130 is coupled to the rotary crushing unit 120, and a discharge hole 132 for discharging the fibril pulverized between the gaps is formed.

In addition, the transmission of the rotational force to the rotary crushing unit 120 rotates the rotary crushing unit 120 through a shaft rotated by external power.

That is, the shaft 131 penetrates the cover 130 and is vertically installed in the lower portion of the rotary crushing unit 120. The upper portion of the shaft 131 is fixed to the center of the lower surface of the rotary crushing unit 120, .

In addition, the meta-aramid composition is pulverized and fibrillated through a rotary crushing unit 120 which is rotated in the crushing space 112 by receiving the rotational force of the shaft 131.

Here, the slant of the fixed blade 111 and the rotary blade 121 is moved to the lower portion of the stationary crushing unit 110 and can be extracted to the outside through the discharge hole 132.

The crushing space 112 is formed in the center of the fixed crushing unit 110. The crushing space 112 has a shape in which the inclination of the inclination is enlarged from the upper part to the lower part, .

The outer peripheral edge of the rotary crushing unit 120 has a slope equal to that of the crushing space 112, and the rotary blades 121 are equally spaced from the outer peripheral edge of the rotary crushing unit 120.

As a result, the solidified meta-aramid composition is pulverized and fibrillated between the rotary crushing part 120 and the fine space 115 of the stationary crushing part 110.

Since the rotary blade 121 and the fixed blade 111 have mutually corresponding inclination, the fibril pulverized by the rotation of the rotary blade 121 is crushed in the gap 115 between the inclined fixed blade 111 and the rotary blade 121, And is moved downward while being crushed between the blades 121.

In the upper portion of the crushing space 112, a plurality of bent holes 116 are formed so as to be inclined at multiple stages, and the rotating crusher 120 forms a plurality of bent ends 122 having a shape corresponding to the bent holes 116.

The bent end 122 is coupled to the inside of the bending hole 116 so that the rotary crushing unit 120 can be rotated in the forward direction within the crushing space 112.

The supply of the meta-aramid is carried out as follows.

The meta-aramid composition is supplied to the supply hole 113 formed in the horizontal direction at the outer periphery of the stationary crushing unit 110, and the supply hole 113 is communicated with the crushing space 112.

The communication hole 114 is formed vertically around the upper surface of the stationary crushing unit 110. The communication hole 114 communicates with the supply hole 113 and is connected to the meta-aramid composition through the supply hole 113 and the communication hole 114 The supplied neutralizing agent is mixed and supplied to the crushing space 112.

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.

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.

100: fibril manufacturing apparatus 110: fixed fibrillation unit
111: fixed blade 112: crushed space
113: supply hole 114: communication hole
115: crevice 116: bending ball
120: rotary crushing unit 121: rotary blade
122: bent end 130: cover
131: Axis 132: Exhaust hole

Claims (6)

A stationary crushing unit which is provided with a crushing space which is sloped inwardly so as to mix and solidify the meta-aramid composition and a neutralizing agent,
And a rotary crushing unit rotatably installed in the crushing space,
Wherein the fixed crushing part has a supply hole formed on a side surface thereof to communicate with the crushing space and a communicating hole is formed in the upper part of the fixed crushing part to communicate with the supply hole so that the meta-aramid composition and the neutralizing agent are mixed in the supply hole, Wherein the fibrils are supplied to the fibrils of the conical meta-aramid fibrils. The method according to claim 1,
Wherein the fixed crushing unit is configured to form a supply hole with an outer circumferential surface to supply the meta-aramid composition into the crushing space. The method according to claim 1,
Wherein the fixed crushing unit is configured to form a communication hole at an upper portion thereof to supply the neutralizing agent into the crushing space. delete The method according to claim 1,
Further comprising a cover coupled to the lower surface of the stationary crushing unit and having a vertically installed shaft coupled to the rotating crushing unit and having a discharge hole for discharging the crushed fibril to the outside, .
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