KR101475512B1 - Thermo plastic splint fabrics manufacture method - Google Patents

Abstract

The present invention relates to a method for producing a thermoplastic resin composition, which comprises impregnating a network with a thermoplastic resin to prepare a thermoplastic resin fabric, immersing the thermoplastic resin fabric in water several times, then attaching a nonwoven fabric to both ends of the thermoplastic resin fabric, And it is an object of the present invention to provide a method for manufacturing a thermoplastic resin splinter fabric which prevents sticking between resin fabrics.
In order to accomplish the above object, the present invention provides a method for manufacturing a thermoplastic resin splinter fabric, comprising the steps of: weaving three to eight layers of strands in a layered structure to woven a wide mesh netting; impregnating the mesh with a thermoplastic resin; A plurality of ventilation windows are formed by perforating the network impregnated with the resin into a square shape to produce a thermoplastic resin fabric, and the two or more layers of the thermoplastic resin fabric layers are laminated and stacked in two or more layers, The resin fabric is immersed in a hot water bottle and softened by hot water at 40 to 60 DEG C for 5 to 7 times to attach a nonwoven fabric to both end portions of the immersed thermoplastic resin fabric to form a folded portion with a predetermined width, The thermoplastic resin material having the folded portion formed thereon is wound in a roll shape in a zigzag manner reciprocating a predetermined length And a gong.

Description

{Thermo plastic splint fabrics manufacture method}

The present invention relates to a method for manufacturing a thermoplastic resin splinter fabric, and more particularly, to a method for manufacturing a thermoplastic resin splinter fabric by immersing a thermoplastic resin cloth in hot water for several times to prevent sticking between the thermoplastic resin cloths.

In order to enhance the durability of thermoplastic fibers such as polyamide or polyethylene terephthalate, the following methods are basically used.

First, in the polymer polymerization step, the molecular weight of the base resin of the thermoplastic fiber is increased to increase the mechanical property of the yarn itself.

The second is to raise the basic thickness of the thermoplastic fiber bundle in the yarn spinning stage.

That is, as the thickness of the yarn, that is, as the total fineness increases, the load on the load per unit area decreases.

It is a common fact that 10 denier is more than 1 denier and 100 denier more than 10 denier.

The third method is a method of increasing the strength by multi-stage stretching and heat treatment by a method of imparting high orientation and high crystallization in the spinning state under the condition that one or all of the above two conditions are satisfied by changing the stretching condition of the yarn .

There are two main ways to increase the molecular weight of the base resin constituting the thermoplastic fiber in the polymerization step.

That is, as the polymerization time is prolonged, the longer the polymerization time is, the larger the molecular weight to be polymerized becomes.

However, this is basically limited in terms of time and efficiency.

In the case of polyethylene terephthalate, the initial molecular weight increase rate is linearly related to time, but the tendency of increasing the molecular weight over time tends to be considerably gentle in the region where the intrinsic viscosity is 0.6 or more.

That is, there arises a problem that the molecular weight does not rise much with respect to a large polymerization time.

In addition, the molecular weight tends to decrease at a certain level of intrinsic viscosity as a peak due to side reaction.

In order to overcome this problem, polyethylene terephthalate is polymerized at an intrinsic viscosity of 0.5 to 0.7 and then passed through a solid-phase polymerization dryer which can uniformly apply a high temperature of 150 ° C or more to improve the crystallization of the polymer.

This is commonly referred to as solid phase polymerization and typically improves the intrinsic viscosity to a level of 1.0 to 1.3.

This method is very time-consuming and costly in terms of yield and production cost in the polymer polymerization process.

Particularly, when the time and the hot air can not be controlled properly during the solid-state polymerization, the polyester tends to cling to each other, and in the case of the polyamide material, the yellowing phenomenon that the color changes to yellow may frequently occur. .

Next, the method of securing the desired level of durability and abrasion while increasing the total fineness of the yarn in the spinning step can not increase the fineness of the fiber indefinitely depending on the application.

For example, when the fabric is used as a garment material, the standard weight of the fabric is preferably 50 to 300 g / m 2. If it is less than that, the material of the yarn is too heavy and it is difficult to weave / It is limited in activity by weight.

Especially, as the fineness increases, the feeling of softness and flexibility of the fabric itself decreases and becomes stiff.

That is, there is a limitation of the fineness of the fiber depending on the application.

Next, as a method of strengthening the strength of the yarn by changing the stretching condition, a method of multi-step stretching from the second stage to the third stage or the fourth stage in accordance with the purpose without ending the stretching at once is widely used.

At this time, an increase in the strength of the yarn relative to the elongation reduction rate is increased according to the multi-stage stretching step. At this time, it is effective to perform the heat treatment in parallel to improve the strength.

However, the multistage heat treatment method has an expected limit.

In other words, it is possible to produce multi-step spinning immediately after stretching in a multi-step spinning machine after being allowed to stand for a predetermined time after producing the spinning yarn. However, since the equipment is large and the final spinning speed is slower than the initial spinning spinning speed, productivity is low The process is difficult and the yield is low.

In other words, it is not a recommended method in terms of productivity.

On the other hand, when the thermoplastic fibers are produced through rollers, there is a problem that the thermoplastic fibers stick to each other due to their own heat.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a thermoplastic resin impregnated with a thermoplastic resin to impregnate a reticulated material with thermoplastic resin, It is an object of the present invention to provide a method for manufacturing a thermoplastic resin splinter fabric which prevents sticking between thermoplastic resin fabrics by attaching a nonwoven fabric to both ends and folding the same at the same time.

In order to accomplish the above object, the present invention provides a method for manufacturing a thermoplastic resin splinter fabric, comprising the steps of: weaving three to eight layers of strands in a layered structure to woven a wide mesh netting; impregnating the mesh with a thermoplastic resin; A plurality of ventilation windows are formed by perforating the network impregnated with the resin into a square shape to produce a thermoplastic resin fabric, and the two or more layers of the thermoplastic resin fabric layers are laminated and stacked in two or more layers, The resin fabric is immersed in a hot water bottle and softened by hot water at 40 to 60 DEG C for 5 to 7 times to attach a nonwoven fabric to both end portions of the immersed thermoplastic resin fabric to form a folded portion with a predetermined width, The thermoplastic resin material having the folded portion formed thereon is wound in a roll shape in a zigzag manner reciprocating a predetermined length And a gong.

As described above, the method for producing a thermoplastic resin according to the present invention has the following effects.

First, the present invention relates to a method for preventing sticking between thermoplastic resin fabrics by immersing a thermoplastic resin fabric in hot water several times, then attaching nonwoven fabric to both ends of the thermoplastic resin fabric, And has the advantage of reducing volume.

Secondly, the present invention provides a medical splint that provides ventilation to a human body due to a ventilation window, thereby preventing skin rash as well as preventing itching. When used in industrial applications, the thermoplastic resin can have a desired size, The fabric can be cut and used. Especially, softening is possible by hot water, so that it is easily deformed. When it is cooled, it is cured again and the usability is improved.

1 is a plan view of a thermoplastic resin fabric according to the present invention,
Fig. 2 is an illustration showing an apparatus for manufacturing a thermoplastic resin fabric according to the present invention,
3 is a perspective view showing a state in which a folded portion is formed at both ends of the thermoplastic resin fabric according to the present invention,
4 is a perspective view showing a state in which a thermoplastic resin fabric according to the present invention is laminated.
5 is a side view showing a state in which a thermoplastic resin fabric according to the present invention is laminated.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a plan view showing a fabric of a thermoplastic resin according to the present invention, FIG. 2 is an illustration showing an apparatus for manufacturing a thermoplastic resin fabric according to the present invention, FIG. 3 is a cross- FIG. 4 is a perspective view illustrating a state in which the thermoplastic resin cloth according to the present invention is laminated, and FIG. 5 is a cross-sectional view illustrating a state in which the thermoplastic resin cloth according to the present invention is laminated.

As shown in these drawings, the method for manufacturing a thermoplastic resin splinter fabric according to the present invention is a method for fabricating a thermoplastic resin splicing fabric according to the present invention, in which three to eight layers of strands are twisted in a layered structure to woven a net- A plurality of ventilation windows 12 are formed by piercing the netted material 10 impregnated with the thermoplastic resin R into a rectangular shape to prepare a thermoplastic resin raw material B, The thermoplastic resin raw material B is laminated in two or more layers and the two or more layers of the thermoplastic resin raw material B are immersed in the hot water bottle J to produce hot water W of 40 to 60 캜 The nonwoven fabric 14 is attached to both end portions of the immersed thermoplastic resin raw material B and the folded portion 16 is formed by folding a predetermined width to form the folded portion 16, The thermoplastic resin fabric B thus formed is passed through a zigzag It is prepared by winding a manner in a roll shape.

Hereinafter, the production of the thermoplastic resin fabric according to the present invention having the above-described constitution will be described.

2 is an exemplary view showing an apparatus for manufacturing a thermoplastic resin fabric according to the present invention.

As shown in this figure, in the method for manufacturing a thermoplastic resin splinter fabric according to the present invention, three to eight layers of strands are twisted in a layered structure to woven a mesh net 10 having a wide net shape, A plurality of ventilation windows 12 are formed by impregnating the thermoplastic resin R with the thermoplastic resin R and then puncturing the network 10 impregnated with the thermoplastic resin R in a rectangular shape to produce a thermoplastic resin raw material B, After the fabric B is conveyed to the dryer G and the thermoplastic resin B is completely dried while passing through the rollers H adjacent to the upper region of the dryer G, And the thermoplastic resin raw material B rolled up on the roller I is fused again to laminate two or more layers of the thermoplastic resin raw material B made of a single layer and then the two or more thermoplastic resin The fabric is immersed in a hot water bottle (J) The nonwoven fabric 14 is attached to both end portions of the immersed thermoplastic resin raw material B and a folded portion 16 is formed by folding a predetermined width The thermoplastic resin raw material B having the folded portion 16 formed thereon is laminated in a zigzag manner reciprocating a predetermined length or rolled.

The thermoplastic resin splicing fabric (B) according to the present invention produced by the above-described method is produced by weaving three to eight layers of strands in a layered structure to weave a wide net-like net 10, The thermoplastic resin R is impregnated into the thermoplastic resin R and then the network 10 impregnated with the thermoplastic resin R is perforated in a rectangular shape to form a plurality of ventilation windows 12 to produce the thermoplastic resin raw material B, When used as a splint, the ventilation window 12 provides a ventilation to the human body, thereby preventing skin rash as well as preventing itching. In the case of industrial use, the thermoplastic resin (B) The fabric B can be cut and used, and in particular, softening is possible by hot water (W), so that it is easily deformed.

10: reticulum 12: ventilation window
14: nonwoven fabric 16: folded portion
A: roller B: thermoplastic resin fabric
C: roller D: thermoplastic resin solution bottle
E: Adjusting roller F: Air cutter
G: dryer H: roller
I: Roller J: Hot water tank
K: roller L: roller
R: thermoplastic resin W: hot water

Claims (6)

(3) to (8) are stranded in a layered structure to woven a broad net-shaped net-like body 10. The netted body 10 is impregnated with a thermoplastic resin (R) 10) are formed in a rectangular shape to form a plurality of ventilation windows (12) to produce a thermoplastic resin raw material (B), and the double-layered thermoplastic resin raw materials (B) The thermoplastic resin fabric B having two or more layers is immersed in the hot water bottle J and softened by warm water (W) at 40 to 60 DEG C for 5 to 7 times to soften the thermoplastic resin fabric (B) And a folded portion 16 is formed by folding a predetermined width of the nonwoven fabric 14 at both ends of the folded portion 16. The thermoplastic resin raw material B having the folded portion 16 is rolled in a zigzag manner A thermoplastic resin splicing material characterized by being manufactured by winding Way. delete delete delete delete delete

Images