KR880001238Y1 - Non-woven fabrics - Google Patents

Abstract

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Description

Camouflage fabric

1 is an exploded perspective view of the present invention.

2 is a partially enlarged cross-sectional view of the present invention.

Figure 3 is an illustration of the state of use of the present invention.

* Explanation of symbols for main parts of the drawings

1, 1 ': non-woven fabric 2: metal yarn

3: metal material layer 4, 4 ': radio wave blocking layer

5, 5 ': matt color chemical layer

The present invention relates to the improvement of camouflage fabrics that effectively camouflage targets such as weapons or vehicles of allies from detection using infrared and radar propagation, which are advanced tactical observation equipment of modern warfare. In more detail, the camouflage network in modern warfare must be protected from daytime detection by the enemy's neck and nighttime detection using infrared rays, as well as advanced radar observations that are spatially detected regardless of day or night.

In the past, a camouflage network capable of camouflaging similarly to the surrounding environment has been developed. However, it has a sufficient camouflage effect during the day, but it cannot effectively protect observation targets from night detection using infrared rays and radio detection using radar equipment required by modern warfare. There was a downside.

Theoretically, scattering or absorbing microwaves, such as radar, protects the target from radar observations, similar to the surrounding environment, such as constantly spraying conductive material around the target, covering the metal film with the target, or applying conductive material. There are methods such as blending short fibers or weaving metal yarns at regular intervals, such as general trading, but these are not easy to purchase raw materials or have special spinning facilities or require a long period of weaving. There have been difficulties such as, or defects such as lowering the proper propagation or absorption effect required by long-term preservation. Also important is the improvement of the radar detection equipment, which had the disadvantage that the microwave radar used in modern warfare was not prepared for the use of various radio waves converted from 5GHZ to 100GHZ from 10GHZ.

The present invention can be easily mass-produced with materials that can be easily obtained from existing manufacturers in Korea while supplementing the above-mentioned drawbacks through long-term research on existing problems, and is much lighter than conventional camouflage nets. The result is a superior camouflage network that can simultaneously protect against day and night observations using simultaneous vision and infrared, as well as radar detection using a wide range of microwaves (5GHZ-100GHZ).

The present invention is designed to be able to be used for a long time, as well as waterproof, waterproof, flame retardant of the basic requirements of the gastrointestinal network, as described in detail below according to the accompanying drawings.

Metal sprayed with conductive metal yarns (2) cut variously between 5mm-100mm in length on one side of nonwoven fabric (1) which is made to have the highest tension in consideration of form, thickness, weight, etc. using synthetic fibers. The material shielding layer 4 is made of a nonwoven fabric 1 ', and the upper surface thereof is compressed and combined with another nonwoven fabric 1', and a radio wave shielding layer 4, 4 ', in which an appropriate amount of infrared reflecting pigment, flame retardant, anti-corrosion, and waterproof chemical is mixed on the front and back surfaces thereof. ) By attaching

In some cases, the matte color chemical layer 5 is formed on the front and back surfaces of the radio wave shielding layer 4, 4 'for the purpose of matting the radio wave blocking layer 4, 4' or for color matching. 5 ') may be applied.

Reference numeral 6 in the drawings is a camouflage network.

In the present invention as described above, the nonwoven fabric 1 for depositing the metal material layer 3 is manufactured to have excellent tension in consideration of shape, thickness, weight, etc., so that the weight is light instead of the strength. The material that can be used is polyester, nylon, etc. are suitable. Metal single yarns (2) forming the metal material layer (3) is to cut a variety of stainless steel, aluminum metal yarns, graphite, etc. in a length of 5m / m-100m / m (particularly 7m / m -60m / m) It should be as thin and thin as possible and should be 8-30 microns thick. The length of the metal single yarn 2 5m / m -100m / m corresponds to various propagation of the desired wave and changes according to the length of the wavelength.

Therefore, input by considering the composition and ratio of the length according to the observation angle. The selection of these metals reduces the reflection of the metal pieces according to the observation angle (0 ° -90 °) and reduces the rapid change due to the reflection effect, thereby increasing the safety and increasing the spatial impedance and matching the spatial input impedance. Matching results in the desired scattering and absorption reflections. Therefore, it is good to decide mainly on the observation at various angles of observation (0 ° -90 °) and wavelength at 45 ° angle at 10GHZ. At this time, the amount of metal single yarns 2 used per fabric M ² is Use about 2% -20% and the choice is increased or decreased depending on the shape (ie thickness, length, material) of the metal piece and also according to the required decay of scattering result (Decibel). (3db -20db) spawning effect is similar to that of forests.

At this time, the upper and lower surfaces to be laminated intersect the direction of the fabric of the nonwoven fabric (1) (1 '), thereby increasing the tensile, tearing and rupture strength of the fabric beyond that of the general woven fabric.

In addition, the radio wave blocking layer (4) and (4 ') has an appropriate amount of chemicals such as antimony, trimon, chlorinated paraffin, PVC, urethane, rubber chloride, and leopard, which are flame retardant, anti-seal, and waterproof chemicals, together with infrared pigments according to local characteristics. After a sufficient stirring for 2 hours or more in a mixer, a mixture of 150M-170 ° C coated heat treatment at 150M-170 ° C to obtain a series of infrared reflections, radar scattering and absorption reflection effects.

The present invention can complete an effective gastrointestinal cloth for infrared and radar detection in this way, but for the purpose of matching the color difference with the case of matte treatment, etc. 5) (5 ') is coated at a rate of 25M per minute at 180 ° C-200 ° C to match the difference between matte and color difference.

At this time, the completed infrared and radar effect camouflage has a natural feeling and a three-dimensional feeling through the punching process.

As described above, the present invention attaches the metal material layer 3 sprayed with the metal yarn 2 to the upper surface of the nonwoven fabric 1, compresses the nonwoven fabric 1 'again, and again, the radio wave blocking layer 4, 4'. Since the weight is very light, it is easy to demonstrate mobility in the field, and the material can be easily obtained and mass produced in Korea.

EXAMPLE

0.1mm thick nonwoven fabric using polyester as a material, 17mm long conductive metal single yarn (using aluminum metal yarn) was sprayed randomly by 5g between sample size 1MX 1.5M and 0.1mm thick using the same material The same nonwoven fabric was covered and pressed on it to complete the fabric of the nonwoven fabric containing the conductive metal material having a thickness of 02 mm. Next, stir well with infrared pigments and other chemicals that match the infrared reflectance of each color according to the characteristics of each area (desert area, semi-desert area, forest area, etc.), and then coated and finished with matte coating. After blocking the front target (replaced by reflector), the radar scattering value and infrared reflectance were measured. As a result, sufficient camouflage effect was obtained from radar propagation and infrared detection as follows.

The present invention was punched again and measured under the same conditions, and sufficient gastrointestinal effects were obtained from the following radar propagation.

In the same way, 5g of 21mm thick aluminum metal yarn was randomly sprayed between sample size 1MX 1.5M to complete the nonwoven fabric containing conductive metal material, and then coated with infrared pigments and other chemicals that match the infrared reflectance of each color in the same way. After measuring radar propagation scattering and infrared reflectance, sufficient camouflage effect was obtained from radar propagation and enemy line detection as follows.

The present invention was punched again and measured under the same conditions, and sufficient gastrointestinal effects were obtained from the following radar propagation.

1.Size of sample 1M × 1.5M

2. Measuring frequency 10GHZ

3. Measuring equipment 1) Micro-wave sweep oseilator (HP 8620 C / 86245 A) 2) Micro-wave frequency counter (HP5342 A), 3) RF Power Meter (HP 431 C / 478 A) 4) Tracking scope (TR 4110 / TR 4112), 5) Trans mission Antenna 6), Receiver Antenna, 7) Reflectorate Plate

4. Distance of antenna and reflector about 3M

5. Distance of antenna and sample about 2.8M

6. As a result of measuring the infrared reflectance with the sample, the reflectance for each color showed the reflectance within the following range, so that sufficient camouflage effect could be obtained from the infrared detection.

Claims (1)

Metal sprayed with conductive metal yarns (2) cut variously between 5mm-100mm in length on one surface of the nonwoven fabric (1) manufactured using synthetic fibers for consideration of form, thickness, weight, etc. The radio wave barrier layer 4 (4) (4) (4) (4) (4) (4) (4) (4) (4) (4) (4) (4) (4) (4) (4) (4) (4), Camouflage fabric made by attaching ').