KR100738515B1 - Method for adhering of chest boots - Google Patents

Abstract

The present invention relates to a method for fixing the chest boots, and more particularly, to a method for bonding the chest boots to maintain high waterproof and airtight by high-frequency heat-bonding the pants of the thermoplastic polyurethane material and the boots of the polyvinyl chloride material. .

According to the present invention, in the method of adhering the chest boots to the boots and the boots by high-frequency heat bonding, the end of the pants fabric made of thermoplastic polyurethane material is formed on a strip-shaped sheet of paper made of polyvinyl chloride. Laminating to overlap a predetermined width, a second sheet of a strip-shaped sheet made of polyvinyl chloride material and corresponding to the first sheet of paper on the overlapping pants fabric, and then laminating the laminated portion by high-frequency thermal bonding agent 1 After completing the bonding process and the fabric of the pants through a predetermined process, after laminating the end of the pants portion along the outer periphery of the opening part of the boots made of polyvinyl chloride material, and then laminated the laminated portion by high frequency thermal bonding It is characterized by consisting of a second bonding step of bonding through.

Chest boots, sheet paper, thermoplastic polyurethane, polyvinyl chloride, high frequency heat seal

Description

Method for adhering chest boots {Method for adhering of chest boots}

1 is an overall perspective view of a conventional chest boots

Figure 2 is a sectional view of the main portion of the conventional chest boots

3 is an overall perspective view of the chest boots according to the present invention;

4 is a conceptual diagram showing the bonding process of the chest boots according to the present invention

5 is a sectional view of the main part according to the present invention;

* Description of the symbols for the main parts of the drawings *

10 ... pants 20 ... boots

30.Chest Boots 40 ... Adhesive

51 ... first sheet paper 52 ... second sheet paper

S100 ... first bonding process S200 ... second bonding process

The present invention relates to a method for fixing the chest boots, and more particularly, to a method for bonding the chest boots to maintain high waterproof and airtight by high-frequency heat-bonding the pants of the thermoplastic polyurethane material and the boots of the polyvinyl chloride material. .

Among the surface hardening methods for increasing the durability of the material, high frequency thermal bonding is one of the most widely used methods because it enables rapid heating in a short time, and dielectric heating enables the bonding of insulating materials such as thermoplastic synthetic resins.

Thermoplastic Polyurethane (TPU) of thermoplastic synthetic resin has better abrasion resistance, greater mechanical strength, excellent elasticity and elasticity and flexibility than polyvinyl chloride (PVC), but it is not popularized in the past due to the high production cost. Due to the cost reduction, it is widely commercialized.

Meanwhile, the 'chest boots' of the Korean Utility Model Publication No. 1999-14345, filed by the present applicant, is illustrated in FIGS. 1 and 2.

1 is an overall perspective view of the 'chest boots' of the above-mentioned utility model, and FIG. 2 is a sectional view of principal parts of the chest boots.

As shown, the 'prior art' is to construct the pants (1) consisting of a forge coated with a synthetic resin and the chest boots (3) integrally connected to the rubber boots (2), the pants (1) After molding from synthetic resin mixed with polyvinyl chloride (PVC) and thermoplastic polyurethane (TPU), the sewing unit 4 is subjected to high frequency thermal bonding, and the pants 1 and the rubber boots 2 are bonded to the adhesive layer 5 and Mixed synthetic resin fabric pieces (6) by the high-frequency heat-bonding is configured integrally.

Here, the combination of the pants and the rubber boots, first buffing the outer peripheral surface of the rubber boots (2), and then applying the adhesive layer (5) on the outer peripheral surface to adhere the adhesive fabric pieces (6) and then of the pants (1) The inner circumferential surface is positioned to perform high frequency thermal bonding.

However, the 'prior art' is not only cumbersome but also hassle-free process such as applying high-frequency thermal bonding after applying the adhesive layer 5 to the shape of the end of the finished pants 1 and adhering the fabric pieces 6, The defect rate is likely to occur in the bonding process itself and is inefficient in terms of production.

This is not only difficult to apply the adhesive layer 5 evenly on the surface of the pants 1 and the rubber boots 2, but also due to the non-uniform application surface of the adhesive layer 5 after high frequency thermal bonding, it is difficult to completely seal the pressing surface. This is because problems such as leakage and wear may occur.

Particularly, the pants part 1 formed of a synthetic resin mixed with polyvinyl chloride and thermoplastic polyurethane contains polyvinyl chloride, so that it is hard to be worn in winter, wears on repeated operations, and easily peels off from the forge. There was a problem.

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SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and the method for bonding the chest boots to enable a high-frequency thermal bonding method between the boots of the polyvinyl chloride material and the pants of the thermoplastic polyurethane material having different physical properties. The purpose is to provide.

It is also an object of the present invention to provide a method of adhering chest boots to simplify the work process to improve production efficiency.

A method of bonding the chest boots according to the present invention for achieving the above object, in the method of bonding the boots of the chest so that the boots and the pants are bonded by high frequency thermal bonding, the first sheet of the sheet-shaped sheet made of polyvinyl chloride material End of the pants fabric made of thermoplastic polyurethane material is laminated so as to overlap a predetermined width, and a second sheet of strip-shaped sheet made of polyvinyl chloride material and corresponding to the first sheet paper is laminated on the overlapped pants fabric The outer periphery of the opening part of the boot which consists of a polyvinyl chloride material, the first bonding process of bonding a laminated part through high frequency heat bonding, and the edge part of the said pant part by which the high frequency heat bonded the first and second sheet paper of polyvinyl chloride material were laminated The second bonding process of laminating a predetermined width along the length, and then bonding the laminated portion through high frequency thermal bonding That comprising the features.

And, the high frequency thermal bonding, characterized in that made for 2 to 4 seconds within the frequency range of 20MHz to 40MHz.

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

3 is an overall perspective view of the chest boots according to the present invention.

As shown, the chest boots 30 adhered by the present invention are largely composed of known pants 10 and boots 20.

The pants 10 is a sewing material 45 by the high-frequency thermal bonding of the pants material (10 ', see Fig. 4) of thermoplastic polyurethane material having excellent physical properties instead of using a synthetic resin mixed with conventional TPU and PVC Processed to be formed, the rain boots 20 are made of polyvinyl chloride material.

Thermoplastic polyurethane (TPU) material constituting the pants 10 is generally a combination of polyurethane as a hard segment, polyol or polyester as a soft segment.

The high frequency thermal bonding of synthetic resin material, which is an insulator and a dipole, is made by using the dipole's positional movement by dielectric heating.

On the other hand, the pants of the TPU material and the boots of PVC material having different physical properties are difficult to be directly bonded by high frequency thermal bonding, and in the present invention, high frequency thermal bonding is performed through a separate process.

4 is a conceptual diagram showing the bonding process of the chest boots according to the present invention.

As shown, the bonding process of the chest boots according to the present invention largely comprises a first bonding step (S100) and a second bonding step (S200).

In the first bonding process (S100), as shown in FIG. 4 (a), a strip-shaped first sheet paper made of polyvinyl chloride material has a length corresponding to the end width of the pants 10 'made of thermoplastic polyurethane material ( 51) is prepared, and the end of the pants fabric 10 'on the first sheet paper 51 is laminated so as to overlap a predetermined width.

Subsequently, the second sheet paper 52 made of a polyvinyl chloride material having a band shape corresponding to the first sheet paper is laminated on the bag 10 'on which the first sheet paper 51 is overlapped.

Finally, as shown in (b) of FIG. 4, the first bonding process (S100) may be performed by bonding a portion where the second sheet paper 52, the trouser fabric 10 ′, and the first sheet paper 51 are laminated through high frequency thermal bonding. ) Is completed.

Here, the first sheet paper 51 is located on the outer circumference of the end of the pants 10, which will be described later, and the second sheet paper 52 is located on the inner circumference of the ends of the pants 10.

Here, the pants 10 of the thermoplastic polyurethane material and the boots 20 of the polyvinyl chloride material, which are materials having different physical properties, are directly impossible by high frequency thermal bonding, but the first and second sheet papers of the polyvinyl chloride material 51 and 52 are thin sheet papers, and high frequency thermal bonding is possible.
That is, even if the boots are made of PVC material with low melting point, the thickness is usually very thick, so that the surface cannot be sufficiently melted by high frequency thermal bonding, and it is difficult to directly bond with the pants of the TPU material. It is melted by instantaneous high frequency thermal bonding in form, so it is easily combined with the pants of TPU material.

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On the other hand, in defining the laminated portion between the first and second sheet papers 51 and 52 and the pants 10, the laminated portion is to form an adhesive portion 40 by a second bonding process (S200) to be described later. According to the formation direction of the adhesive part 40, the boot | gown 20 side is made into the lower side of the said adhesive part 40, and the pants part 10 side is made into the upper side.

In the first bonding process (S100), high frequency thermal bonding is not performed over the entire surface of the laminated portion between the first and second sheet papers 51 and 52 and the pants 10, and as shown in B of FIG. 4B. Only the upper side of the adhesive portion 40, leaving the lower side of the adhesive portion 40, by high-frequency thermal bonding so that the second bonding process (S200) to be described later to be made quickly and efficiently. That is, the high frequency thermal bonding in the first bonding process is sufficient enough to adhere the bag fabric, the first sheet paper, and the second sheet paper, and is distinguished from the high frequency thermal bonding in the second process for achieving perfect bonding.

On the other hand, as shown in Figure 4 (c) after the first fabrication step (S100) through the pants fabric 10 'through the high-frequency heat bonding to form a sewing portion 45 to complete the pants 10, The second bonding process (S200) is performed.

In the second bonding process (S200), as shown in FIG. 4D, the second sheet paper 52 of the polyvinyl chloride material is fixed along the outer circumference of the opening 20 of the polyvinyl chloride material as shown in FIG. 4 (d). Laminate to overlap the width.

Thereafter, the second bonding process (S200) is completed by high-frequency thermal bonding the outer periphery of the opening of the boot 20 to the adhesive part 40.

Here, the adhesive portion 40 forms a mesh shape in which a plurality of irregularities are formed (see FIG. 5), which is a plurality of presses (not shown) connected to a high frequency generator in order to reduce power required to be proportional to the area of the heated object. It is to form the irregularities of the high frequency thermal bonding is made for a tight airtight and waterproof throughout the adhesive portion 40 is made.

In the second bonding process (S200), the boots 20 are mounted on a work table (not shown) inserted into the boots 20, and the pants 10 are rotated around the boot 20 while rotating the work table. It is possible to quickly and simply heat-bond high frequency.

After the pants 10 are finished in the pants 10 'state through the first bonding process (S100) to the pants 10, and then through the second bonding process (S200) the boots 20 and the high frequency heat Bonding is for the rapid and efficient production of the chest boots 30.

That is, when the boots 20 are attached to the finished pants 10, unnecessary and difficult bonding processes are additionally generated, and the adhesive parts 40 corresponding to the shape of the ends of the pants 10 are generated. This is because the defective rate increases significantly.

On the other hand, the power required for dielectric heating during high frequency thermal bonding is proportional to the frequency and is proportional to the square of the voltage applied to the high frequency generator. The power is not increased only by increasing the frequency, and there is an appropriate frequency value for each material. do.

To this end, when the high-frequency thermal bonding of the pants 10 and boots 20, it is preferable to press the laminated portion of the pants 10 with a press 61 for 2 to 4 seconds within a frequency range of 20MHz to 40MHz. Do.

However, at this time, instantaneous heating of 220 to 250 ° C. is made at a power of 3 kW to 5 kW.

Here, when the frequency range is 20 MHz or less, or the compression time is 2 seconds or less, the airtightness of the high frequency heat-bonded portion is not firm, and when 40 MHz or more or 4 seconds or more, the surface hardening is excessive and damage to the laminated portion is caused. Get up.

Looking at the adhesive portion 40 of the chest boots 30 bonded by the present invention as described above are as follows.

5 is a cross-sectional view of main parts according to the present invention.

As shown, the adhesive portion 40 is made of polyvinyl chloride boots 20, second sheet paper 52 of the same material, pants 10 of the thermoplastic polyurethane material and the first sheet paper of the polyvinyl chloride material It consists of 51.
The second sheet of polyvinyl chloride material has a low melting point and is firmly coupled to the pants of the TPU material, and is firmly bonded to the opposite boots as polyvinyl chloride of the same material.
Accordingly, the second sheet paper 52 delivers even and strong adhesive force across the entire adhesive portion 40 between the pants 10 and the boots 20, and at the same time improves durability of the adhesive portion 40. It will play a role in maintaining confidentiality.

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As described above, according to the present invention, by laminating different materials between the same materials to achieve high frequency thermal bonding, the pants of the thermoplastic polyurethane material and the boots of the polyvinyl chloride material are difficult to achieve high frequency thermal bonding. It can be seen that the basic technical idea is to provide a method for bonding the chest boots to be able to be bonded as well as to maintain the waterproof and airtight.

In addition, within the scope of the basic technical idea of the present invention, for those skilled in the art, not only chest boots, but also raincoats, gas masks, coveralls of clean rooms, and airtight gloves connected to the sleeves such as waterproofing and gas masking. And applications in many other fields that require confidentiality, such as dust proofing, are of course possible.

According to the present invention, the following effects are expected.

First of all, by laminating polyvinyl chloride sheet to make high frequency heat bonding, the pants of thermoplastic polyurethane material and the boots of polyvinyl chloride material which are difficult to mutually high frequency heat bonding can be adhered together, and also have a strong waterproof and airtightness. It can be maintained.

In addition, the second sheet paper 52 that transmits uniform adhesive force over the entire contact portion of the pants and the boots may be improved in wear resistance and airtightness, and the effect of greatly reducing the defective rate in production may be obtained. .

In addition, by simplifying the work process by the first and second bonding process, it is possible to block the occurrence of defects in advance, as well as a very useful invention such that the production efficiency can be greatly improved.

Claims (2)

In the bonding method of the chest boots 30 so that the pants 10 and the boots 20 are bonded by high frequency thermal bonding, On the strip-shaped first sheet paper 51 made of a polyvinyl chloride material, the ends of the pants 10 'made of thermoplastic polyurethane material are laminated so as to overlap a predetermined width, and on the pants fabric 10' overlapped. A first bonding process (S100) made of a polyvinyl chloride material and laminating second strips 52 having a band shape corresponding to the first sheet, and then bonding the laminated portions through high frequency thermal bonding; The first and second sheet of polyvinyl chloride material is laminated so that the end portions of the pants 10 having high frequency heat bonding are laminated so as to overlap a predetermined width along the outer periphery of the opening 20 of the polyvinyl chloride boot. A method of adhering chest boots, comprising a second bonding step (S200) for adhering the laminated portion through high frequency thermal bonding. The method of claim 1, wherein the high frequency thermal bonding is performed for 2 to 4 seconds within a frequency range of 20 MHz to 40 MHz.

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