KR101005912B1 - Reinforce member laminating apparatus for nano web and fibers for clothes - Google Patents

Abstract

PURPOSE: A reinforcing member laminating apparatus for nanoweb is provided to realize various kinds of laminating processes in one apparatus, to improve productivity and to lower production costs of fabrics. CONSTITUTION: A reinforcing member laminating apparatus for nanoweb includes a reinforcing material feed roll(11), a nanoweb feed roll(12), a multi-coating head(100) which can selectively use one coating head in a plurality of coating heads, a laminating unit(L) for laminating nano web(W) on the reinforcing material(R) passing through the multi-coating head, a heater for heating the laminated reinforcing material and nano web, and a winder roll(13) for winding nano web and reinforcing material passing through the laminating unit.

Description

Reinforcement member laminating apparatus for nano web and fibers for clothes

The present invention relates to a device capable of attaching a reinforcement material to a nanoweb, and more particularly, to a reinforcement laminating device having a multi-coating head having a plurality of coating heads to select one of them to use various laminating processes. .

In general, the nano web refers to a nanofiber having a diameter of several tens of nanometers to several hundred nanometers in a multi-layered structure.

These nano webs have a wide range of applications due to their excellent waterproof and waterproof performance due to their high surface area and porosity.

In particular, the nanofiber manufacturing method and apparatus (Patent Registration No. 0613871) developed by the inventors of the present patent application can be produced inexpensively and easily, and thus the application possibility is increased.

However, in the case of the nanoweb formed of such nanofibers, as described above, there is a problem in that the physical properties such as tensile strength or breaking strength are very poor, so that it is difficult to use the garment.

In addition, according to the use of the nano-web, when the multi-layered structure of the nano-web is not maintained, the porosity decreases, and there is a problem in that the waterproof moisture permeability decreases.

To this end, a method of attaching a reinforcement to the nanoweb has been proposed.

Referring to FIG. 1, it is shown that the reinforcing material R is attached on the nanoweb W. As shown in FIG.

At this time, the fabric can be used as the reinforcing material (R).

1 denotes that R1 is used for the fabric.

Fabric R1 as described above is much higher in strength than nanoweb W.

Therefore, when the fabric 110 is attached on the nano-web (W) can be used as a fabric of the garment by improving the strength, even if the fabric (R1) is attached to the moisture-permeable waterproof performance is maintained.

It is also possible to use the resin layer R2 as shown in FIG. 2 as the reinforcing material R as described above.

At this time, a laminating apparatus has been proposed in order to attach the reinforcing material (R) to the nano-web (W).

Such a laminate device 10 is a reinforcing material supply roll 11 and a nano web supply roll 12 for supplying a reinforcing material (R) and a nano web (W) as shown in Figure 3 and the reinforcing material (R) and nano It comprises a laminating unit (L) for attaching the web (W) to each other.

At this time, the laminating unit (L1) is provided with a first lamination roll (L1) and the second lamination roll (L2) to allow the nano-web (W) and the reinforcing material (R) to pass therebetween to be laminated.

On the other hand, there is a case in which a predetermined coating on the reinforcing material (R) for the laminating process, for this purpose is provided with a coating head (H).

The coating head H may have various kinds according to various laminating processes.

For example, as shown in FIG. 3, a coating roll H1 having a plurality of grooves for gravure laminating and a feeder H2 for adding the coating liquid A to the coating roll H1 may be included.

However, such a conventional laminating device 10 has the following problems.

That is, in general, the nano-web (W) is too thin and weak, it is necessary to attach the reinforcing material (R) as described above.

By the way, the type of cloth using the nano-web (W) is variously applied according to the consumer, the laminating device 10 as described above has a problem that can be performed only one type of laminating.

The present invention is to solve the above-mentioned problems, but having a plurality of coating heads, but having a multi-coating head that can selectively use one of the coating heads of the reinforcement laminating to perform a variety of laminating process It is an object to provide a device.

The present invention for achieving the above object is a laminating apparatus for attaching a reinforcement to the nano-web, comprising a plurality of coating heads, further comprising a multi-coating head that can selectively use one coating head of the coating heads One feature is in a stiffener laminating device for the web.

In this case, the multi-coating head may include a gravure roll head or a multi roll head or a slot die head or a rotary screen head, and may include two or more of the same head or different heads of the heads.

In addition, it may further include another multi-coating head having a plurality of coating heads via the reinforcement material and the nano web attached to each other via the laminating unit, which can selectively use one of the coating heads of the coating heads. have.

The multi-coating head may further include a support disk on which at least two heads of the gravure roll head, the multi roll head, the slot die head, or the rotary screen head are mounted, and the rotating disk for rotating the support disk. It is also possible to rotate to be able to select one head of the multi-coated head.

In addition, it is also possible to further include a print unit for printing a protective layer on one side of the reinforcing material and the nano-web attached to each other via the laminating unit.

As described above, the laminating apparatus of the present invention can implement various kinds of laminating processes in one apparatus, thereby improving productivity.

In addition, using the laminating apparatus of the present invention using a nano-web with a reinforcing material attached to the garment fabric has the effect of lowering the production cost of the garment fabric.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings and embodiments, and FIGS. 4 to 9 are conceptual views illustrating various embodiments of the present invention.

Example 1

The present invention is to include a multi-coated head 100 in the general laminating device 10.

In this case, the multi-coating head 100 may include a plurality of coating heads, but may selectively use one of the coating heads.

According to the present invention, it is possible to perform various laminating processes even with one laminating apparatus.

Hereinafter, the present invention including the multi-coating head 100 described above will be described in more detail with reference to the following examples.

However, the present invention is intended to perform various laminating processes with the multi-coating head 100, the scope of the present invention is not limited by the laminating apparatus 10 described in the following embodiments. Of course.

The present invention, in the laminating device 10 for attaching the reinforcing material (R) to the nano-web (W) as described above, the reinforcing material supply roll 11 for supplying the reinforcing material (R) and the nano-web (W) is supplied The nano web supply roll 12 to the multi-coating head 100 and the reinforcing material R via the multi-coating head 100 as the nano web supply roll 12 and the reinforcing material R pass through. It may include a laminating unit (L) for laminating the nano web (W) supplied from, and a winder roll (13) for winding the nano web (W) and the reinforcing material (R) via the laminating unit (L). (See Figure 4)

The multi-coating head 100 is provided with a plurality of coating heads can be used to selectively use one of the coating head of the coating head.

Such a multi-coating head 100 includes a gravure roll head 110 or a multi roll head 120 or a slot die head 130 or a rotary screen head 140, the same head of the head (110, 120, 130, 140) or It may comprise two or more different heads.

This includes two or more heads to perform various laminating processes as described above.

Meanwhile, the gravure roll head 110 may include a gravure roll 112 having a recessed portion and a feeder 111 for supplying a coating solution to the recessed portion of the gravure roll 112.

By such a structure, a coating liquid may be added to the reinforcing material R, and the reinforcing material R is introduced into the laminating unit L after passing between the gravure roll 112 and the impression roll I.

In particular, in the case of a hot melting process, the coating solution may use an adhesive that is liquefied by heating the gravure roll 112.

The multi-roll head 120 may include a feeder 123 disposed between the first and second rolls 121 and 122 and the rolls 121 and 122 adjacent to each other to supply a coating liquid.

At this time, the coating liquid supplied from the feeder 123 is added between the first roll 121 and the second roll 122 and then added to the reinforcing material (R) by riding the second roll 122, as described above After passing through the impression roll (I) is put into the laminating unit (L).

The slot die head 130 includes a plurality of slots in which the coating liquid is stored, that is, a first slot 131 and a second slot 132 as shown in FIG. 4 to add the coating liquid to the reinforcing material R. Can be.

In addition, in the case of the rotary screen head 140, the feeder 142 for storing the coating liquid is installed in the roll 141, the coating liquid is introduced into the reinforcing material (R) through the nozzle 143 of the roll 141. .

Meanwhile, as described above, the reinforcing material R to which the coating liquid is added passes through the impression roll I.

However, the above description is merely an example for describing the coating heads 110, 120, 130, and 140. As described above, the gravure roll head 110 or the multi roll head 120, the slot die head 130, or the rotary screen head ( Naturally, even if it has a different configuration as long as it performs the function of (140) it belongs to the scope of the present invention.

The same applies to other embodiments described below, and overlapping descriptions will be omitted below.

As described above, the multi-coating head 100 of the present invention may include a gravure roll head 110 or a multi roll head 120 or a slot die head 130 or a rotary screen head 140, of which a user Various laminating processes can be performed by selecting the desired head.

In this case, as shown in FIG. 8, the multi-coated head 100 may include the gravure roll head 110 or the multi roll head 120, the slot die head 130, or the rotary screen head so that a user may select a desired head. The multi-coating head 100 by rotating the support disk 150 including a support disk 150 having at least two heads 140 and a rotating unit 160 for rotating the support disk 150. It is also possible to select one of the heads.

Meanwhile, in FIG. 9, the multi-coating head 100 is displayed in a circle and no reference numerals are given.

In this embodiment, the supporting disk 150 has a disk shape.

However, the support disk 150 is intended to allow a user to select a desired one of a plurality of coating heads, as long as the support disk 150 has a different shape as long as this object is achieved, the present invention It belongs to the category of.

The same applies to other embodiments described below, and overlapping descriptions will be omitted below.

In addition, in the case of the rotating part 160, although not shown in detail in FIG. 8, for example, a motor in which the supporting disk 150 is mounted may be used as the rotating part 160.

Since this is a well known technique, a detailed description thereof will be omitted.

However, the rotating unit 160 is to rotate the support disk 150 as described above so that the desired head is opposed to the impression roll (I) to perform a laminating process selected by the user, such a bar As long as the object is achieved, the scope of the present invention is not limited by the type of the rotating part 160.

The same applies to other embodiments described below, and overlapping descriptions will be omitted below.

As shown in FIG. 4, the reinforcing material R is introduced into the multi-coating head 100, and the reinforcing material R is supplied by the reinforcing material supply roll 11.

Meanwhile, the reinforcing material R to which the coating liquid is added while passing through the multi-coating head 100 passes through the laminating unit L.

As described above, the laminating unit L includes a first lamination roll L1 and a second lamination roll L2, and a reinforcing material R having the coating liquid added therebetween between the two lamination rolls L1 and L2. And nano webs W supplied through the nano web feed rolls 12 are laminated while passing.

As described above, the reinforcing material R is laminated on the nano web W while passing through the laminating unit L, whereby the physical properties of the nano web W can be improved.

Of course, as described above, the user may select a desired head from the multi-coating head 100 to stack the reinforcing material R according to the type of the reinforcing material R or the type of clothing to be used.

As described above, the reinforcing material R and the nano web W passing through the laminating unit L are wound on the winder roll 13 to finish the process.

Meanwhile, in the present embodiment, the laminating unit L shows only two lamination rolls L1 and L2, but this is for explaining the laminating unit L, and it is natural that various rolls may be added as necessary. .

In addition, it is natural that the temperature of the paper rolls L1 and L2 can be increased to make the paper easier.

Therefore, it is clear that the present invention is not limited by the kind of the laminating unit (L).

The same applies to the other embodiments described below, and the detailed description is omitted below.

Example 2

In the present embodiment will be described to include an additional multi-coating head 100-1 in addition to the above-described multi-coating head 100.

As shown in FIG. 5, the reinforcing material R and the nano web W that are mutually attached to each other via the laminating unit L are provided, and include a plurality of coating heads, and one coating head of the coating head is selectively selected. Another multi-coating head 100-1 that can be used as it is to further include.

By such a configuration, an additional reinforcing material R or nanoweb W may be further laminated on one side of the reinforcing material R or the nanoweb W.

Meanwhile, the another multi-coating head 100-1 is the same as the multi-coating head 100 described in Embodiment 1, and thus redundant descriptions thereof will be omitted.

However, as shown in FIG. 5, when the additional multi-coating head 100-1 is provided, an additional laminating unit L-1 and a supply roll 12-1 may also be provided.

The additional feed roll 12-1 may supply a nano web or a reinforcement material.

In addition, only a part of the additional multi-coating head 100-1 is illustrated in FIG. 5 to clearly illustrate the drawings.

Example 3

In this embodiment, as shown in Figure 6 and 7 will be described that further includes a heating furnace 200 in the configuration of the first embodiment.

That is, the reinforcing material supply roll 11 for supplying the reinforcing material (R), the nano web supplying roll 12 for supplying the nano web (W), and the reinforcing material (R) is provided with a plurality of coating heads, The nano-web supplied from the nano-web feed roll 12 to the multi-coating head 100 which can selectively use one of the coating heads and the reinforcement R via the multi-coating head 100. The laminating unit L for laminating (W) and the winder roll 13 which winds the nano web W and the reinforcing material R via the laminating unit L are the same.

However, it is different in that it further includes a heating furnace 200 for heating the reinforcing material (R) and the nano-web (W) via the laminating unit (L).

In this case, the heating furnace 200 is the heating furnace 200 is a housing 210 through which the reinforcing material (R) and the nano web (W) attached to each other via the laminating unit (L), and

A circulation fan 220 installed at one side of the housing 210 to circulate air, a heater 260 for heating air circulated by the circulation fan 220, the reinforcing material R attached to each other, and An induction cone 230 which receives the nano web W and guides the heated air via the heater 260 toward the reinforcement R and the nano web W, and the induction cone 230. It may include a discharge duct 240 for discharging the air to the outside.

By the heating furnace 200 such that the mutually attached reinforcing material (R) and the nano-web (W) can be heated to improve the laminating quality.

However, such a heating furnace 200 can be used according to the laminating process and it is not necessary to use.

The induction cone 230 may include an inner pipe 231 accommodating the reinforcement R and the nano web W, and an outer pipe 232 accommodating the inner pipe 231. have.

In this case, the inner pipe 231 includes a hollow cylindrical inner pipe body 231a and a plurality of through holes 231b formed in the inner pipe body 231a.

In addition, the outer pipe 232 has a hollow cylindrical shape, but the diameter is reduced along the advancing direction of the air (from left to right in the drawing in FIG. 7), while the diameter of the outer pipe body 231a A large shape can be provided.

At this time, air enters between the inner pipe 231 and the outer pipe 232, and the air passes through the through-hole 231b of the inner pipe body 231a toward the nanoweb W and the reinforcement R. Is committed.

Meanwhile, in the present embodiment, the circulation fan 220 is disposed at the upper right side of the housing 210, the heater 260 is disposed at the upper left corner, and the induction cone 230 is disposed at the center of the housing 210. Is illustrated.

However, the heating furnace 200 is intended to supply air to the nano web (W) and the reinforcing material (R) by heating the air as described above, so long as the object achieves the shape of the interior of the heating furnace (200) Naturally, even if it has this other shape, it belongs to the scope of the present invention.

On the other hand, as shown in Figure 7 is disposed on the lower side of the circulation fan 220, it is also possible to include a blocking plate 270 connected to the heater 260 to partition the internal space.

The air heated by the blocking plate 270 may be prevented from leaking in the other direction without being injected into the induction cone 230.

In addition, as shown in FIG. 7, the air discharged from the induction cone 230 may be reintroduced to the heater 260 via the circulation fan 220, and may flow to the discharge duct 240 to be discharged to the outside. have.

On the other hand, it is also possible to further include a blocking plate 250 is installed on the bottom surface of the induction cone 230 to the discharge duct 240.

Through the induction cone 230 by the blocking plate 250, the air whose temperature is lowered may be prevented from being introduced into the induction cone 230 again.

Example 4

In the present embodiment, it will be described that further includes the print unit 300 in the configuration described in the first embodiment.

That is, as shown in FIG. 9, a protective layer P is added to one side of the reinforcing material R and the nano web W attached to each other via the laminating unit L, wherein the protective layer P is Is added by printing.

On the other hand, the protective layer (P) may include a resin layer.

In this case, the protective layer (P) is an inkjet method for ejecting and stacking a functional material, a screen printing method for laminating a pattern on a substrate using a stencil mask (or screen) and a squeegee, and a material having an electrostatic charge. Electrostatic printing method (laminating material using the material forming the resin layer 120 in the present invention), the printing material (material forming the resin layer 120 in the present invention) is once transferred to a rubber sheet called a blanket and again Offset printing method of transferring functional material on the blanket to a substrate, gravure printing, and then gravure printing to indirectly transfer the material onto the blanket and print it on the substrate like offset printing. Flexo printing method using flexible resin or rubber convex plate, printing method using soft mold, slit coater The slit coating printing method of laminating a functional material can be used.

On the other hand, the protective layer (P) may be formed in a mesh (mesh) shape.

The said mesh shape means that a plurality of resin layers are formed in a line shape.

Forming the mesh in this way is because the protective layer (P) is printed on all areas of the nano-web (W) to lower the moisture permeable waterproof performance of the nano-web (W).

By the laminating apparatus of the present invention as described above it can produce a nano-web (W) attached to the reinforcing material (R), it is possible to manufacture a garment fabric using the nano-web (W).

Example 5

Hereinafter, a method (S100) of adding the reinforcing material R using the laminating apparatus of the present invention will be described.

First, a step (S110, hereinafter referred to as a first step) of selecting one coating head from the multi-coating head 100 described above is performed.

This can be achieved by rotating the support disk 150 shown in FIG. 8 so that the head to be selected is opposed to the impression roll I.

After performing the first step (S110), a step (S120, hereinafter referred to as a second step) of supplying the reinforcing material R through the reinforcing material supply roll 11 is performed.

Of course, it is also possible to perform the first step (S110) after performing the second step (S120).

The reinforcing material R supplied by the second step S120 passes through the selected coating head (S130, hereinafter referred to as a third step).

The coating solution as described above is added to the reinforcing material (R) by the third step (S130).

Laminating the reinforcing material (R) via the coating head and the nano web (W) supplied through the nano web feed roll 12 by the third step (S130) (S140, hereinafter referred to as a fourth step) Perform

The fourth step S140 is performed in the laminating unit L described above, and the reinforcing material R and the nanoweb W are laminated by the fourth step S140.

In this case, the process may be completed by winding the reinforcing material (R) and the nano web (W) laminated through the winder roll after performing the fourth step (S140).

1 is a perspective view illustrating attaching the fabric R1 to the nanoweb W. FIG.

FIG. 2 is a perspective view showing the printing of the resin layer R2 on the nanoweb W. FIG.

3 is a conceptual diagram illustrating the concept of a conventional laminating device.

4 through 9 are conceptual views illustrating various embodiments of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: multi-coating head 200: heating furnace

W: Nano Web R: Reinforcement

300: print unit

Claims (12)

delete delete In the laminating device 10 for attaching the reinforcing material (R) to the nano-web (W), A reinforcing material supply roll 11 for supplying a reinforcing material R, A nano web feed roll 12 for supplying a nano web W; The multi-coating head 100 having a plurality of coating heads as the reinforcing material (R), but can selectively use one of the coating heads, A laminating unit (L) for laminating the nano web (W) supplied from the nano web supply roll (12) to the reinforcement (R) via the multi-coating head (100), A heating furnace 200 for heating the reinforcing material R and the nano web W via the laminating unit L, Including a winder roll 13 wound around the nano-web (W) and the reinforcing material (R) via the laminating unit (L), The heating furnace 200 is a housing 210 through which the reinforcing material (R) and the nano web (W) attached to each other via the laminating unit (L), and, A circulation fan 220 installed at one side of the housing 210 to circulate air; A heater 260 for heating air circulated by the circulation fan 220, An induction cone 230 for receiving the mutually attached reinforcing material R and the nano web W and directing heated air via the heater 260 to the reinforcing material R and the nano web W; , Reinforcement laminating device for a nano-web characterized in that it comprises a discharge duct 240 for discharging the air passing through the induction cone 230 to the outside. The method of claim 3, The multi-coating head 100 includes a gravure roll head 110 or a multi roll head 120 or a slot die head 130 or a rotary screen head 140, Stiffener laminating device for a nano-web, characterized in that it comprises at least two of the same head or different head of the head. The method of claim 3, As the reinforcing material (R) and the nano web (W) attached to each other via the laminating unit (L) via Reinforcement laminating apparatus for a nano-web, characterized in that it further comprises another multi-coating head (100-1) having a plurality of coating heads, which can selectively use one of the coating heads. The method of claim 5, The multi-coating head 100 includes a support disk 150 having at least two heads of the gravure roll head 110 or the multi roll head 120 or the slot die head 130 or the rotary screen head 140. , Including a rotating unit 160 for rotating the support disk 150 Reinforcing material laminating device for a nano-web, characterized in that to rotate the support disk 150 to select one of the head of the multi-coated head (100). The method of claim 3, Nano web characterized in that it further comprises a print unit 300 for printing the protective layer (P) on one side of the reinforcing material (R) and the nano web (W) attached to each other via the laminating unit (L) Stiffener laminating device. delete The method of claim 3, The induction cone 230 includes an inner pipe 231 accommodating the reinforcement R and the nano web W therein, and an outer pipe 232 accommodating the inner pipe 231, The inner pipe 231 includes a hollow cylindrical inner pipe body 231a and a plurality of through holes 231b formed in the inner pipe body 231a. The outer pipe 232 has a hollow cylindrical shape but the diameter is reduced along the advancing direction of the air, the outer pipe 232 has a diameter larger than the inner pipe body 231a, Air enters between the inner pipe 231 and the outer pipe 232, and the air is introduced into the nanoweb W and the reinforcing material R through the through hole 231b of the inner pipe body 231a. Reinforcing material laminating device for a nano-web, characterized in that. 10. A nano web to which a reinforcement prepared according to any one of claims 3 to 7 or 9 is attached. Clothing fabric using a nano-web prepared by claim 10. delete

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