JPH0418042B2 - - Google Patents

Description

[Detailed description of the invention]

(Industrial Field of Application) The present invention relates to waterproof clothing. (Prior art) Many waterproof and breathable fabrics are already in use on the market.
No. 84044 (Japanese Unexamined Patent Publication No. 59-211649) proposes water-repellent high-density fabrics, or fabrics that combine water-repellent treatment with other means, i.e., water-repellent woven or knitted fabrics. Examples include fabrics that have been processed and coated, fabrics that have been woven or knitted, water-repellent treated, and film-laminated. Water-repellent high-density fabrics have good moisture permeability, but only have a water pressure resistance of about 300 mm to 800 mm, and when strong water pressure is applied, water can penetrate into the fabric. It does not fulfill its waterproof function. In addition, since the water-repellent surface of such water-repellent fabrics is constantly exposed to the outside, the water-repellency decreases due to dirt adhesion when worn, and water easily penetrates into the fabric, making it impossible to perform its waterproof function. There are also some problems. On the other hand, for coated or film laminated fabrics, high water pressure resistance of 500 mm to 2000 mm or more can be obtained by creating the coating resin layer or film layer. However, the presence of these layers generally reduces moisture permeability, making you feel stuffy when you wear it, and when you sweat a lot, the sweat that evaporates on the inside of the fabric can condense, making it uncomfortable to wear. Another problem was that the coating, film, and laminate made the clothing uncomfortable to wear. (Object of the Invention) The present invention provides a novel waterproof garment that solves these problems. (Structure of the Invention) The present invention provides a garment in which at least a portion of the body and sleeve portions are composed of an outer material and a lining, in which the outer material and the lining are each made of a water-repellent fabric woven with high density ultra-fine filament yarns. The outer material must have a water pressure resistance of 300 mm or more and a breathability of 2 cm ³ /cm ² /sec or less, and the water pressure resistance of the lining is equal to or greater than that of the outer material. Using a material that is more resistant to water pressure, place it between the outer material and the lining.
An air layer formed by a mesh fabric or a lace fabric with a thickness of 0.4 mm or more with a high air content is interposed, and the outer fabric and the lining are separated by the fabric with a high air content. A waterproof garment characterized by a structure. The garment of the present invention means a garment consisting only of a top garment, a garment consisting only of a bottom garment, a combination of a top garment and a bottom garment, or a garment formed by integrally molding a top garment and a bottom garment. It is composed of. It is important for the garment of the present invention that both the outer material and the lining are made of water-repellent fabric. Further, by using the outer material and the lining material, an air layer is interposed in between. The intermediate air layer is made of fabric, in order to actively fix the air layer.
Preferred examples include those in which a fabric with a high air content such as knitted fabric or nonwoven fabric is interposed between the outer fabric and the lining fabric. In particular, it is preferable to use mesh fabrics with a thickness of 0.4 mm or more or lace fabrics with high air content, rather than irregularly shaped structures such as non-woven fabrics, but even if they are used in layers. good. In addition, these outer material, lining material, and the intermediate layer fabric are sewn together along the normal seam line of the garment or three or two are sewn together by eight stitches, or These three materials or two materials may be bonded to each other with an adhesive, or may be stacked on top of each other. The intermediate layer fabric can be either water repellent or non-water repellent. As the water-repellent fabric used in the present invention, any known water-repellent fabric may be used, but it is particularly preferable to use a high-density fabric woven with ultrafine filament yarns having a single yarn denier of 1.1 denier or less, as shown in the examples. The surface water pressure resistance is preferably 300 mm or more, more preferably 500 mm or more. Regarding the breathability of the outer material and lining, it is preferable that the air in the middle layer has low permeability, allowing air to easily escape under pressure and not displacing water, such as 2 cm ³ /cm ² /sec or less.
More preferably, it is 1 cm ³ /cm ² /sec or less. Regarding the relationship between the water pressure resistance of the outer material and the lining material, more favorable results can be obtained when the water pressure resistance of the lining material is equal to or at least greater than that of the outer material. Regarding air permeability, it is preferable that the air permeability of the lining is equal to or smaller than the air permeability of the outer fabric. FIG. 1 is a cross-sectional view horizontally showing an example of a cross section in the thickness direction of a body portion of a garment according to the present invention. The body part consists of outer material 1 and lining 2 made of water-repellent fabric.
An air layer 4 is interposed between the outer material 1 and the lining material 2. As shown in FIG. 1, the air layer 4 is stably formed by interposing a mesh 3 as an intermediate layer fabric between the outer fabric 1 and the lining 2. In addition, in the garment of the present invention, it is not necessary to use such a structure over the entire garment, but it can be used partially in areas where waterproof performance is particularly required, such as the shoulders of the body and the back of the lower garment. The remaining portion can be formed from a normal water-repellent fabric. (Action of the Invention) Since the garment of the present invention has the above-described structure, it has excellent waterproof and moisture permeable performance. Surprisingly, the water pressure resistance, which is a substitute for waterproof performance, is 1.5 to 2 times higher than the water pressure resistance of the fabric used for the outer material or lining, and it can maintain this performance semi-permanently. be. Moreover, if the air layer is fixed by a fabric interposed between the outer fabric and the lining, this effect can be stably obtained, especially when the intermediate layer fabric has a small contact area with the outer fabric and the lining. This effect is remarkable in the case of coarse-grained fabrics (for example, mesh-like fabrics, lace-like fabrics). This is thought to be because even if water leaks from the outer material, the air layer in the middle prevents the leakage from reaching the lining. In addition, since the garment of the present invention uses water-repellent fabrics for both the outer and lining, the surface on the side of the air layer (1', 2' in Figure 1) that exists between them is susceptible to friction due to use of the garment. The waterproof performance can be maintained semi-permanently with almost no decrease in waterproof performance due to wear and dirt. Example 1 Ultrafine polyethylene terephthalate multifilament with boiling water shrinkage rate of 8% (total denier 64
The total cover factor of the warp is Weaved 2070 high-density plain woven fabrics (warp density 184/3.79cm,
Latitude density: 104 lines/3.79cm). The fabric was scoured, relaxed, dried, preset, dyed and dried in accordance with conventional methods, and then water-repellent treated with a conventional fluororesin having the following formulation. Water repellent treatment liquid composition Asahi Guard AG710 (manufactured by Asahi Glass) 6% Unicare Resin 380K (manufactured by Union Chemical) 0.3% Sumitekus Accelerator ACX (manufactured by Sumitomo Chemical)
0.1% Water 93.6% After applying the water repellent treatment liquid to the fabric by padding method, it was dried at a temperature of 100℃, then heat treated at a temperature of 180℃ for 30 seconds, and then heated with a heated steel roll at a temperature of 170℃. The back surface was calendered by a method in which a paper roll came into contact with the front surface to obtain a water-repellent fabric. The fabric thus obtained has a water pressure resistance of 430 mm.
The air permeability was 0.8 cc/cm ² /sec, the water repellency was 100 points, and the moisture permeability was 6000 g/m ² /24 hr. This water-repellent fabric was used as the main parts of the upper garment such as the body and sleeves, the outer material of the body of the lower garment, the lining, etc., and the intermediate layer fabric shown below was used for the body and sleeves to create a jacket. did. The intervening fabric is a lattice warp knit fabric using 3 reeds (warp density 9 wells/inch, weft density
21 courses/inch, formation method L ₁ : 20, 02, L ₂ :
66, 44, 66, 00, 22, 00, L ₃ : 00, 22, 00, 44,
22, 44) was dyed and finished using the usual method, and was made into mesh-like fabric with a thickness of about 0.8 mm, and this mesh-like fabric was used as it was, No. 1.
No. 1, which uses a mesh-cho fabric treated with a water-repellent finish using the same formulation as above.
Waterproof clothing was created using two types of 2, and its performance was investigated. The results are shown in Table 1.

[Table] Both No. 1 and No. 2 have excellent waterproof performance, but No. 1 in particular has high water pressure resistance even though the middle layer fabric is not treated with water repellent finish. Clothes were obtained. Example 2 Weakly twisted polyester filament yarn with 75 denier and 72 filaments as warp (300T/M)
A high-density plain fabric in which ultra-fine type polyester filament yarn (64 denier, 144 filament) is wefted at high density without twisting is dyed using a conventional method, and then water-repellent dyeing is applied using the formulation described in Example 1. Number of warps per 2.54cm after processing and calendaring
A water-repellent high-density taffeta with 164 wefts and 103 wefts was obtained. The air permeability of this taffeta was 0.5 cc/cm ² /sec, the moisture permeability was 6500 g/m ² /24 hr, the water pressure resistance was 900 mm, and the water repellency was 100 points. The fabric described in Example 1 was used as the outer material, the fabric obtained by the above method was used as the lining, and polyester filament (300%
A waterproof garment was prepared in the same manner as in Example 1 by knitting a net knitted fabric using a known method using filament (denier/20 filament, twist number 300 T/M) and finishing it. The initial water pressure resistance of this waterproof garment is 1300
mm, with almost no decrease observed even after 10 washes. In terms of water repellency, the initial score is 100-90, after 10 washes.
There was almost no decline at 90 points. Moreover, its breathability was 0.3 cc/cm ² /sec, and its moisture permeability was 6000 g/m ² /24 hr, indicating that it was a waterproof garment that was comfortable to wear. The physical properties shown in Examples 1 to 3 were measured as follows: Water resistance: JIS 1079 low water pressure method Water repellency: JIS 1079 spray method Air permeability: JIS 1079 Frazier tester method Moisture permeability: JIS ZO208 method Ivy.

[Brief explanation of drawings]

FIG. 1 is a cross-sectional view schematically showing an example of a cross-section in the thickness direction of a body portion of a garment according to the present invention. 1... Outer material, 2... Lining, 3... Middle layer fabric,
4...Air layer.

Claims (1)

[Claims] 1. Garments in which at least a portion of the body and sleeve portions are composed of an outer material and a lining, where the outer material and the lining are each made of a water-repellent fabric densely woven with ultra-fine filament yarn, and the outer material has a water-resistant material. but
300 mm or more, with breathability of 2 cm ³ /cm ² /sec or less, and the water pressure resistance of the lining is equal to or greater than the water pressure resistance of the outer material. , there is a thickness between the outer material and the lining.
It has a structure in which an air layer formed by a cloth with a high air content, such as mesh fabric or lace fabric with a diameter of 0.4 mm or more, is interposed, and the outer fabric and the lining are separated by the fabric with a high air content. A waterproof garment characterized by: