KR20040035049A - Arm-Protecting Sleeve - Google Patents

Abstract

PURPOSE: A sleeve for protecting arm prepared by fabricating the sleeve with rubber and composite yarn comprising a core yarn consisting of a strand of stainless steel yarn and a strand of cover yarn consisting of dyneema, cables or spectra winding the stainless core yarn. CONSTITUTION: The sleeve generally formed of cylindrical shape comprises a main body(210) and end portions(220,230). The main body(210) is prepared of three strands including polyester yarn, rubber yarn and a composite yarn fabricated together. The end portions(230) is made of polyester yarn. The polyester yarn for the sleeve is promptly dried and soft and not wrinkled and has a dimension of about 75 denier. The polyester yarn serves not to loose the yarn forming the main body(210) of the sleeve after knitting the sleeve by heating and fusing the lower end portion(230) at about 50 to 60 deg C.

Description

Arm protection sleeve {Arm-Protecting Sleeve}

The present invention relates to an arm protection sleeve, and more particularly, to an arm protection sleeve having improved impact resistance, cut resistance and elasticity by knitting a composite yarn and a rubber yarn including stainless steel.

In general, a protective sleeve serves as a guard to protect a body part that is susceptible to injury by sharp means, such as a forearm or shin of an operator, in the course of performing a hazardous task using a mechanical device or apparatus. In addition, the protective sleeve also serves to absorb various shocks caused by external shock or impact applied to the body part. This protective sleeve is knitted with a material of a material having impact resistance and cut resistance.

Protective sleeves according to the prior art are often woven from glass fibers and Spectra ^™ . Spectra is a polyethylene-based material that has a specific strength and inelasticity of more than 3 GPa of tensile strength and 172 GPa of tensile modulus, excellent absorption of impact energy, and low density, making it lightweight. to be. These spectra are used in the manufacture of protective sleeves, cut resistant gloves or body armor.

Alternatively, as illustrated in FIG. 1, another type of protective sleeve 100 woven from Kevlar ^™ manufactured and sold by DuPont is commercially available. Kevlar is a polyamide-based material, which has high strength with a tensile strength of 3.5 GPa or more and a tensile modulus of 50 to 110 GPa. It is one of the advanced materials with excellent cold resistance to maintain. Protective sleeve 100 woven from the Kevlar material acts as a band to a portion of both ends of the protective sleeve that the forearm is fitted so that the body 110 of the protective sleeve 100 does not flow while worn on the forearm of the operator. The wrinkle piece 120 is formed. The wrinkle piece 120 serves to prevent foreign matter from penetrating into the body 110 of the protective sleeve 100 worn by the worker as well as the band of the protective sleeve 100, elasticity such as rubber yarn It is woven integrally with the body 110 using the material.

However, the protective sleeve 100 according to the prior art described above, when an impact is applied by an external blow in a state in which the operator wears, does not absorb the impact and propagates the impact to a region other than the region to which the impact is applied. Had a downside to passing to the body.

In addition, the protective sleeve according to the prior art is limited to only a portion of the protective sleeve 100, that is, the region of both ends of the body 110 of the protective sleeve 100, the stretch piece 120 is used, the operator Several types of protective sleeves are to be produced for each part of the body, ie forearm or shin. This acts as a factor in increasing the manufacturing cost.

Therefore, it is an object of the present invention to provide an elastic arm protection sleeve as well as impact and cut resistance.

1 shows a protective sleeve according to the prior art,

2 is a diagram illustrating a knitted configuration of a protective sleeve according to the present invention,

3 is an enlarged view showing a knitting configuration of the protective sleeve shown in FIG. 2,

4 is a diagram showing a detailed configuration of the composite yarn shown in FIG. 3;

5 is a view illustratively showing the organization of the seal constituting the sleeve for protecting the arm according to the invention.

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

100, 200: protective sleeve 210: sleeve body

220: sleeve end 320: rubber yarn

330: composite yarn 410: core yarn

430 cover company

According to a preferred embodiment of the present invention for achieving the above object, the sleeve for protecting the arm is knitted by twisting polyester yarn, rubber yarn and composite yarn (Composite Yarn), the composite yarn is a strand of stainless steel (Stainless steel) It includes a core strand composed of a yarn (Core Strand) and a cover strand composed of one strand (Dyneema), Kevlar (Spectra) wound around the core yarn (Cyne Strand).

According to another embodiment of the present invention, the stainless steel has a diameter of about 60 ㎛, the cover yarn is characterized in that having a size of about 1,600 denier (Denier).

According to another embodiment of the invention, the cover yarn is characterized in that wound about 100 to 200 times per meter of the core yarn.

According to another embodiment of the present invention, the rubber yarn is characterized in that the rubber yarn of thickness 90 times.

According to another embodiment of the present invention, the arm protective sleeve is characterized in that the weave of the polyester yarn, the rubber yarn and the composite yarn to a density of 5 gauge.

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

FIG. 2 shows a knitting configuration of the arm protective sleeve according to the present invention, and FIG. 3 shows an enlarged photograph of the knitting structure of the arm protective sleeve shown in FIG. 2.

2 and 3 together, the arm protective sleeve 200 of the present invention has a substantially cylindrical shape and is composed of a sleeve body 210, an upper sleeve end 220 and a lower sleeve end 230. .

Sleeve body 210 is knitted with three strands of yarn, one strand of polyester yarn 310, one strand of rubber yarn 320 and one strand of composite yarn 330, and an upper sleeve end. 220 and lower sleeve end 230 are knitted with polyester yarn 310.

The polyester yarn 310 constituting the sleeve 200 has various advantages such as softness, strong strength, no wrinkles, quick drying, no change in shape, and easy handling. The polyester yarn 310 used in the present invention has a size of about 75 denier. The polyester yarn 310 is the sleeve body 210 of the arm protective sleeve 200 by melting and heating the lower sleeve end 230 at a low temperature, about 50 ℃ to 60 ℃ after the sleeve 200 is knitted. ) To prevent loosening of the knitted yarns.

Here, the term "denia" is one of the number of bowels, and mainly refers to an international unit used to express the thickness of yarns or fibers such as raw silk, silk, and synthetic fibers. Denier is denoted by the customary code d or D, and the standard weight is 450 m and the unit weight is 0.05 g. That is, denier D is calculated by the following equation.

Therefore, the larger the denier value, the greater the density, and the smaller the denier value, the thinner and smaller the density.

The rubber yarn 320 uses white or colored rubber yarn 90 times thick and provides elasticity to the woven arm protective sleeve 200. The number 90 of the thickness 90 in the rubber yarn 320 is expressed as a number indicating the thickness of the yarn, and the larger the number, the thinner the thread.

The composite yarn 330 refers to a yarn composed of a core yarn and a cover yarn surrounding the core yarn, as described in detail with reference to FIG. 4. As used herein, the term 'Yarn' refers to a continuous strand of woven fiber, filament or material of the appropriate type, weaving, weaving or weaving the woven tissue to form a woven tissue. .

According to the invention, the arm protection sleeve 200 woven from three strands of polyester yarn 310, rubber yarn 320 and composite yarn 330 has a cut strength (Blade) as a performance level in accordance with the European standard (EN388). Cut Resistance) Meets 0 ~ 5.

Although FIG. 3 illustrates that the knitted tissue of the arm protection sleeve 200 is plain, other knitted tissues, such as Reverse, Rib, Shobari, Hatchi, Liju, and Gaga upside down, are illustrated. (Milano), Half-Milano, SCSI, Sheep, Pearls, Links, Intarsia, Cable, Fisherman, Transfer Jaqd, Floating Jacquard It may be knitted into any one of Floating Jaqd, Normal Jaqd, and Valtex.

Knitting is to make loops out of thread and thread them to form new loops (or noses) that intertwine to form knits. Such knitted fabrics are also referred to as meriyas, and are classified as upper meriyas and light meriyas according to their knitting structure and the direction of supplying the yarn for forming the loop of the knitted fabric, and are fundamentally different from woven or nonwoven fabrics. In other words, the knitted fabric is a generic term for a product made by wrought iron rings formed by a string of strings of a string or a string. Forming a loop while the thread is moving from side to side or forming a loop while turning in a circle is called a weft knitted fabric. Knitting a warp thread arranged like a fabric with a needle is called a knitted fabric, and the formation of the ring forms a zigzag shape. have.

4 illustrates a detailed configuration of the composite yarn 330 of the present invention shown in FIG.

The composite yarn 330 of the present invention includes a core yarn 410 and a cover yarn 430 surrounding the core yarn 410.

The core yarn 410 is composed of one strand of stainless steel having a diameter of about 60 μm.

Cover yarn 430 is composed of one strand of high tensile yarn, Dyneema, Kevlar or Spectra, having a size of about 1,600 denier or less. The cover yarn 430 is wound around the core yarn 410 by a twisting machine (not shown), and is made of a single strand of composite yarn 330. In this case, the cover yarn 430 is wound about 100 to 200 times, preferably 150 times, per meter of the stainless steel that is the core yarn 410.

Winding while twisting the yarn is referred to as twisted yarn, and as illustrated in FIG. 4, the cover yarn 430 is wound around the core yarn 410 in the left direction, and conversely, the cover yarn 430 is wound around the core yarn 410. There is a coincidence of winding in the right direction. Such twisted yarns increase the tension of the yarn and can impart a suitable round appearance, elasticity and focusing properties to the yarn, and in particular, the weaving process has a good weaving property.

In FIG. 4, when the cover yarn 430 is wound around the core yarn 410, it is exemplified as being wound in the left edge direction, but it is also possible to wind it in the right direction.

Accordingly, the arm protection sleeve 200 of the present invention is composed of a composite yarn 330 including dynamema, kevlar, and spectra, which are high strength yarns, and thus exhibits good cutting resistance, and thus includes a rubber yarn 320. It shows elasticity.

A method of manufacturing the arm protective sleeve 200 of the present invention having the above-described configuration will be briefly described with reference to the tissue structure of FIG. 5.

Typically, sleeves, gloves or socks are knitted by the same knitting machine. Conventional knitting machines may be divided into circular knitting machines and flat knitting machines according to their structural form. A circular knitting machine is a machine for knitting a fabric while the needles are arranged in a circular shape, and a horizontal knitting machine is a machine for knitting a needle while the needles are arranged in a straight line. Such knitting machines are further divided into knitting machines, automatic knitting machines, and computer knitting machines, depending on the type of operation. At present, most knitting machines have been replaced by automated computer knitting machines.

In order to knit the arm protection sleeve 200 of the present invention, a knitting pattern of the arm protection sleeve 200 is set in the knitting machine, for example, a civilian pattern. The knitting machine used in the present invention uses a circular knitting machine called Rib Socks having 92 needles, 5 inches in diameter, and 5 gauges.

Herein, the term gauge is a unit representing the number of needles disposed within one inch of the knitting machine, and the density of the ten gauges means that the needle is densely knit with ten needles disposed within one inch.

A polyester yarn 310 is then provided to the knitting machine to knit to the upper sleeve end 220 on one side of the arm protection sleeve 200. The upper sleeve end 220 may be about 1 cm long, but in some cases, may be made of 2-3 cm.

Thereafter, one strand of composite yarn 330 and another strand of rubber yarn 320 that are dyed by Dyneema, Kevlar, or Spectra on stainless steel are provided with a knitting machine. The knitting machine knits the sleeve body 210 following the upper sleeve end 200 in accordance with a set knitting pattern. Figure 5 illustrates the organization of the yarn constituting the sleeve body 210, making a loop with a single strand of composite yarn 330, the rubber yarn 320 is knitted in the longitudinal direction of the sleeve body ( 210 is shown. In this case, the sleeve body 210 is knitted in the form of three rings to the top, and then make one ring toward the bottom so that the floor and the valley has a 3: 1 tissue relationship as illustrated in FIG. It is knitted.

When the sleeve body 210 is finished knitting, the supply of the rubber yarn 320 and the composite yarn 330 is stopped, and only the polyester yarn 310 is continuously supplied to the knitting machine in the form as illustrated in FIG. Knitted into lower sleeve end 230.

When one arm protective sleeve 200 is knitted, the lower sleeve end 230 is melted with heat and subjected to an overlock operation to make one arm protective sleeve 200 illustrated in FIG.

The above description is merely illustrative of the technical spirit of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas falling within the scope of the present invention should be construed as being included in the scope of the present invention.

Therefore, the above-described arm protection sleeve according to the present invention has the advantage of having good elasticity as well as impact resistance, cut resistance and wear resistance.

In addition, the arm protective sleeve according to the present invention has the advantage of making the operator feel a soft touch and fit.

Claims (7)

Arm protection sleeve knitted using rubber yarn and composite yarn. The method of claim 1, The composite yarn includes a cover yarn composed of one strand of stainless steel yarn, and a cover yarn composed of one strand of dyneema, kevlar, or spectra wound around the cover yarn. The method of claim 2, And wherein the stainless steel has a diameter of about 60 μm. The method of claim 2, And the cover yarn has a size of about 1,600 denier or less. The method of claim 2, Said cover yarn wound about 100 to 200 times per meter of said core yarn. The method of claim 1, The rubber yarn sleeve for protecting arm, characterized in that the thickness 90 times rubber yarn. The method according to any one of claims 1 to 6, The arm protective sleeve is a sleeve for arm protection, characterized in that knitting the rubber yarn and the composite yarn to a density of 5 gauge.