Construction of and method of constructing a protective and effective gripping glove or other garment
The present invention is embodied in a composite yarn having fibers of cotton and high-density polyethylene, or fibers of cotton, steel and fiberglass where the cotton fiber is in some fashion exposed to a surface to be engaged by the composite yarn. The present invention is further embodied in a method of making such composite yarns or a fabric including one or more composite yarns in accordance with the present invention. The present invention is further embodied in a method of making protective apparel, such as a glove, from a composite yarn or fabric in accordance with the present invention. By way of example, a knit glove made with either or any of the disclosed composite yarns enjoys the benefits of both cut-resistance and enhanced gripping ability. Such articles of manufacture thus protect a user from sharp or abrasive items while also allowing that user to handle items that may be wet or otherwise difficult to manipulate.
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The invention relates to a protective and effective grip glove, sleeve or other garment. In particular, the invention is directed to a novel yarn construction that, when made and used in accordance with the present invention, would provide a cut resistant glove or other knit item having also effective grip characteristics even in moisture intensive environments.
BACKGROUNDIndustrial safety focuses on protection of a worker from a variety of dangers, including cuts and abrasions from handling of items in process. While hand and arm protection is critical, injury to other body parts is also of concern. Thus, protective garments such as gloves, sleeves, arm bands, vests, coats, leggings, pants and other garments are used to provide protection in a variety of work environments. Such items must be both strong and flexible to be effective. For example, gloves may be used to protect a worker from handling cold or hot items. Gloves may also be used to protect a worker from sharp or abrasive items. A particularly difficult environment is a bottling plant, which routinely requires a worker to handle a variety of potentially dangerous work in process such as glass, aluminum, in addition to operating the machinery that is used in the processing of such work materials. A bottling plant involves yet further danger in that much of the material may be wet due to the nature of such processes. Workers wearing gloves in such a moisture intensive environment need not only protection from punctures, cuts and abrasions, but also, an effective grip that guards against slippage or mishandling of wet, often sharp, work materials.
A variety of work gloves have been used in such environments in the past. String knit gloves are a more recent garment that are growing in popularity. Such garments, and more particularly gloves, provide a desired flexibility and protection from both heat and cold. As a result, string knit gloves are replacing older work gloves made of canvas, leather or jersey. Further, string knit gloves have a multitude of uses ranging from a jogging glove to manufacturing and package handling gloves.
String knit gloves may be made using various fibers. The introduction of aramids such as KEVLAR™ brand fiber and other aramid fibers has proven effective against cuts, punctures and other abrasions. String knit gloves may also be made using Spectra™ brand polyethylene and even steel fibers. Moreover, to address grip ability and product life, PVC dot and brick patterns have been used on the palm.
Even so, string knit gloves and other garments may be improved. One recognized problem with protective string knit gloves and garments is that the fibers, especially the Spectra™ fiber, can still be slippery. Since these gloves are routinely used in food processing, glass handling, automobile manufacture, metal stamping and other hazardous work environments, there is substantial use of such gloves. Moreover, these environments and other such manufacturing facilities involve a variety of fluids. This causes the gloves or other garments to become even more slippery. The problem is so acute that it has been suggested to users that they place a disposable latex glove over the knit glove to improve gripping ability. Of course, sliding a latex glove on over a knit glove is difficult to accomplish and awkward in use. As to other garments, such as sleeves and the like, the suggestion has no application and the problem persists.
The art has attempted to address the slippage and grip problem by the use of PVC dots that may be placed about the palm of fingers of a glove. However, there is a need in the art for garments, specifically gloves that provide more direct and comprehensive gripping ability in the context of a string knit glove. One response in the art is to apply or coat the glove or gloves with PVC in order to enhance gripping ability.
There is a further need in the art for gloves and other garments, including but not limited to sleeves, armbands, and protective apparel that enjoy the benefits of a cut resistant knit having enhanced, more comprehensive gripping ability.
There is a further need in the art for a yarn construction that provides the fundamental element for constructing string knit garments, including gloves, to protect a user and provide enhanced gripping ability.
There is a yet further need in the art for a knit glove and other garments that provide not only cut resistance but also gripping ability even in moisture intense work environments.
These and other features, objects and advantages of the present invention will be seen and understood by those of ordinary skill in the art upon reading this application in conjunction with the associated drawings.
SUMMARY OF THE INVENTIONThe present invention, and the various embodiments thereof, addresses the above issues, both independently and separately, to provide novel yarn constructions from which a variety of garments can be produced. The present description, therefore, supports and discloses but does not limit the invention.
A cut-resistant and effective gripping ability glove has been developed comprised of a novel yarn construction. Those of ordinary skill will appreciate that the disclosed yarn construction has application well beyond that of a glove, including but not limited to sleeves, arm bands, vests, coats, pants, leggings and other clothing items. The invention is disclosed in the form of a glove, but also embodied in any other garment, having the following yarn constructions: (1) a string knit glove formed with fibers of cotton and high-density polyethylene; and (2) a sting knit glove formed with fibers of cotton, steel and fiberglass. In each instance, the cotton string is exposed to provide comprehensive and wet grip ability. Of course, many other garments may be made of these yarn constructions.
The use of a cotton string not only provides for gripping of wet or moist objects, but also provides a cost benefit. It is known that gloves (or sleeves or other garments) with superior cut resistance are made from yarns that cost substantially more than the materials of the present invention. Moreover, it has been found that gloves made of the second yarn has significantly enhanced cut resistance when compared to a glove made of aramid fibers of the same weight.
Described somewhat more particularly, the present invention is embodied in a glove made with a unique combination of materials that provides effective gripping ability for a user. For example, the invention includes a cut resistant and comprehensive gripping ability glove made with a composite yarn having a cotton string or fiber comprising approximately 5 to 85 percent of the composite yarn by weight, and a high-density polyethylene string or fiber comprising 5 to 85 percent of the composite yarn by weight. Another embodiment of the present invention is a glove made with a composite yarn having a cotton string or fiber comprising approximately 20 to 84 percent of the composite yarn by weight, a steel string or fiber comprising approximately 8 to 45 percent of the composite yarn by weight, and a fiberglass string or fiber comprising approximately 8 to 45 percent of the composite yarn by weight. Yet another embodiment of the present invention is a glove made from composite yarn having a cotton string or fiber comprising approximately 70 percent of the composite yarn by weight, a steel string or fiber comprising approximately 15 percent of the composite yarn by weight, and a fiberglass string or fiber comprising approximately 15 percent of the composite yarn by weight. In each of these embodiments, it is to be understood that the cotton string or fiber is exposed so as to contact an item to be handled. By use of the cotton fiber, the glove is able to contact the item more comprehensively than would PVC dots or the like. Instead, the cotton fiber is able to make contact with an object to be secured at all points where the user makes contact with the object, as opposed to just those points at which a PVC dot or the like is found.
It will be appreciated by those of skill in the art that the elemental yarns described herein may be used to manufacture a variety of garments. In fact, while the present invention has specific application to cut-resistant and enhanced gripping ability gloves, sleeves and the like, it has application to any garment or product that may be constructed in accordance with the invention. Thus, any fabric, garment or other product manufactured with a composite yarn having either cotton and high-density polyethylene or cotton, steel and fiberglass is made in accordance with the present invention. Thus, the present invention includes:
a composite yarn as described herein having fibers of cotton and high-density polyethylene, or fibers of cotton, steel and fiberglass; a method of manufacturing such composite yarns for the construction of garments such as a glove; and a method of manufacturing a cut resistant and enhanced gripping ability fabric for use in the manufacture of a glove, garment or other item such as protective apparel or the like.
Objects, features and advantages of various systems, methods, and articles of manufacture according to various embodiments of the invention include:
Systems for providing cut resistant fabrics and garments having a composite yarn with either cotton and polyethylene or cotton, steel and fiberglass with the cotton string exposed, such as a glove;
Methods of providing cut resistant fabric and garments, having a composite yarn with either cotton and polyethylene or cotton, steel and fiberglass with the cotton string exposed, such as a glove; and articles of manufacture providing cut resistant fabrics and garments a composite yarn with either cotton and polyethylene or cotton, steel and fiberglass with the cotton string exposed, such as a glove.
Other aspects, features and advantages will become apparent with respect to the remainder of this document.
Embodiments of the invention are directed to systems, methods, and articles of manufacture providing cut resistant and gripping ability fabrics and garments utilizing your compositions of the invention, such as a glove. References will now be made in detail to the disclosed embodiments of the invention which are illustrated in the accompanying drawings. Wherever possible, the same reference numbers will be used throughout the drawings to refer to the same elements.
In one embodiment, the glove can be made from a composite yarn with a cotton fiber that comprises approximately 5 to 85 percent of the composite yarn by weight, and a high-density polyethylene fiber that comprises approximately 5 to 85 percent of the composite yarn by weight. Other embodiments can include other types of fibers and materials with different material composition percentages.
In another embodiment, a glove can be made from a composite yarn with a cotton fiber that comprises approximately 20 to 84 percent of the composite yarn by weight, a steel fiber comprising approximately 8 to 45 percent of the composite yarn by weight, and a fiberglass fiber comprising approximately 8 to 45 percent of the composite yarn by weight. Other embodiments can include other types of fibers and materials with different material composition percentages.
Another embodiment, the glove can be made from a composite yarn with a cotton fiber that is either wrapped around a base or core yarn of the composite yarn, or can otherwise be combined with the base or core yarn such that at least some of the cotton fiber is exposed to facilitate contact with an object to be gripped or handled.
In another embodiment, the glove can be made from a composite yarn, wherein the composite yarn comprises cotton, steel, and fiberglass. In this example, a cotton fiber may comprise approximately 70 percent of the composite yarn by weight, the steel fiber may comprise approximately 15 percent of the composite yarn by weight, and the fiberglass fiber may comprise approximately 15 percent of the composite yarn by weight. In this embodiment, the composite yarn may once again include a cotton fiber either wrapped around a base or core yarn of the composite yarn, or can otherwise be combined with the base or core yarn such that some or all of the cotton fiber is exposed to facilitate contact with an object to be gripped or handled.
In some or all of these embodiments, a glove or other garment made in accordance with the invention can impart a grip on a portion of an object in relatively wet condition. Furthermore, the use of cotton fiber in a composite yarn for cut resistant fabrics and garments, such as gloves, can minimize the material costs of the composite yarn as compared to conventional fabrics and garments.
In one embodiment, a core material such as that shown at 301 in
In the embodiments shown in
In yet another embodiment, a cover material 302 may include a cut resistant fiber or material, such as high-density polyethylene. The cut resistant fiber or material can be wrapped, wound, twisted, or can otherwise cover at least a portion of the core material 300. Other suitable cut resistant fibers or materials for a cover material such as 302 can include, but are not limited to, an aramid, acrylic, Vectran™ (liquid crystal polymer), steel, fiberglass, a polyolefin, nylon, polyester, and other relatively strong, knittable materials or fibers. Regardless, it is to be understood that such cover materials would also include a cotton fiber that would be exposed so as to contact or object to be wrapped.
In yet another embodiment, composite yarn may include a core material and a cover material, wherein at least one cotton fiber, associated with either the core material or cover material, includes an exposed external surface capable of facilitating contact with an object that contacts an external surface of the composite yarn.
In one embodiment of a composite yarn, the wrap fiber may comprise a wrapped fiber cotton which comprises approximately 5 to 85 percent of the composite yarn by weight, and the core fiber may comprise a high-density polyethylene which comprises approximately 5 to 85 percent of the composite yarn by weight. Other embodiments may include other types of fibers and materials with different material composition percentages so long as a cotton wrap fiber or material is used and exposed as described herein.
Thus, in the embodiment shown, one or more cut resistant fibers or materials can be used as a second or additional cover material in conjunction with the core material and first cover material so long as at least one cotton fiber, associated with either the core material or cover material, includes an exposed external surface capable of facilitating contact with an object that contacts an external surface of the composite yarn.
In one embodiment of a composite yarn, a core material can include a cotton fiber, and both the cover material and additional cover material can include cut resistant fibers. In this embodiment, the cotton fiber of the core material can have an exposed external surface capable of facilitating contact with an object that contacts an external surface of the composite yarn.
In another embodiment, the composite yarn may be made of a cotton fiber comprising approximately 20 to 84 percent of the composite yarn by weight, a steel fiber comprising approximately 8 to 45 percent of the composite yarn by weight, and a fiberglass fiber comprising approximately 8 to 45 percent of the composite yarn by weight. Other embodiments can include other types of fibers and materials with different material composition percentages.
In another embodiment, the composite yarn may be made of a cotton fiber comprising approximately 70 percent of the composite yarn by weight, a steel fiber comprising approximately 15 percent of the composite yarn by weight, and a fiberglass fiber comprising approximately 15 percent of the composite yarn by weight. Other embodiments can include other types of fibers and materials with different material composition percentages.
In block 502, a core material is provided for a composite yarn, wherein the core material comprises a cut resistant fiber.
Block 502 is followed by block 504, in which a cover material is provided for a composite yarn, wherein the cover material comprises at least one cotton fiber.
Block 504 is followed by block 506, in which a portion of the core material is covered with a cover material, wherein an exposed external surface of the cover material can facilitate contact with an object that contacts an external surface of the composite yarn.
Block 506 is followed by block 508, in which, optionally, another portion of the core material is covered with an additional cover material, wherein the additional cover material comprises a cut resistant fiber.
The method 500 ends at block 508. Other processes or methods in Allocation Committee accordance with other embodiments of the invention can include fewer or greater elements.
In block 602, a core material is provided for a composite yarn, wherein the core material comprises a cotton fiber.
Block 602 is followed by block 604, in which a cover material is provided for a composite yarn, wherein the cover material comprises a cut resistant fiber.
Block 604 is followed by block 606, in which a portion of the core material is covered with a cover material, wherein an exposed external surface of the cotton fiber can facilitate contact with an object that contacts an external surface of the composite yarn.
Block 606 is followed by block 608, in which, optionally, another portion of the core material is covered with an additional cover material, wherein the additional cover material comprises a cut resistant fiber.
The method 600 ends at block 608. Other processes or methods in accordance with other embodiments of the invention can include fewer or greater elements.
A cut resistant fabric in accordance with an embodiment of the invention can be manufactured using a process or method, such as the method 700 illustrated in
In block 702, a plurality of composite yarn is provided. In the embodiment shown in
Block 702 is followed by block 704, in which the plurality of composite yarns is incorporated into a body of a fabric. In this embodiment, the plurality of composite yarns can be woven or knitted into a body of a fabric using a plain weave, similar to the fabric shown in
At bock 704, the process or method 700 ends. Other processes or methods in accordance with other embodiments of the invention can include fewer or greater elements.
While the above description contains many specifics, these specifics should not be construed as limitations on the scope of the invention, but merely as exemplifications of the disclosed embodiments. Those skilled in the art will envision many other possible variations that within the scope of the invention.
Claims
1. A composite yarn, comprising:
- a cotton fiber; and
- a high-density polyethylene fiber,
- wherein a composite yarn is formed having a portion of the cotton fiber exposed so that said exposed portion may be placed into contact with an object to be gripped or otherwise engaged.
2. A composite yarn, comprising:
- a cotton fiber;
- a steel fiber; and
- a fiberglass fiber,
- wherein a composite yarn is formed having a portion of the cotton fiber exposed so that said exposed position may be placed into contact with an object to be gripped or otherwise engaged.
3. A protective garment such as a glover, comprising:
- a cotton fiber; and
- an aramid-based fiber,
- wherein a portion of said cotton fiber is exposed such that it may be placed into contact with an object to be gripped or otherwise engaged.
4. The protective garment of claim 3, wherein said aramid-based fiber comprises a polyethylene fiber.
5. The protective garment of claim 3, wherein said aramid-based fiber comprises a steel fiber.
6. The protective garment of claim 3, wherein said aramid-based fiber comprises a fiberglass fiber.
7. The protective garment of claim 3 wherein said aramid-based fiber includes a steel fiber and a fiberglass fiber.
8. The garment of claim 3 wherein the aramid-based fiber is selected from the group consisting of an acrylic fiber, a polymer fiber, a steel fiber, a fiberglass fiber, a nylon fiber, and a polyester fiber.
9. A composite yarn, comprising:
- a first core material;
- a first cover material wrapped around a portion of said material; and
- a second cover material wrapped around a portion of said core material,
- wherein said first core material and said first cover material comprise a cut-resistant fiber, and wherein said second cover material comprises a gripping fiber exposed at least in part to contact an object, whereby said composite yarn may be used as a protective garment by which to contact and engage an object.
10. The composite yarn of claim 9 wherein said first cover material comprises an aramid-based fiber selected from the group consisting of an acrylic fiber, a polymer fiber, a steel fiber, a fiberglass fiber, a nylon fiber, and a polyester fiber.
11. The composite yarn of claim 10, wherein said second cover material is comprised of a cotton fiber.
12. A method of making a composite yarn comprising the steps of:
- providing a core material; and
- covering a portion of said core material with a first covering fiber so as to expose at least a portion of said first covering fiber to an object to be contacted.
13. The method of claim 12 wherein said core material comprises a cut-resistant fiber selected from the group of an acrylic fiber, a polymer fiber, a steel fiber, a fiberglass fiber, a nylon fiber, and a polyester fiber.
14. The method of claim 12 wherein said first covering fiber comprises a cotton fiber.
15. The method of claim 12 wherein said method further includes the step of covering a portion of said core material with a second cover fiber wherein said second cover fiber comprises a cut-resistant fiber.
16. The method of claim 13 wherein said core material comprises a cut-resistant fiber.
17. The method of claim 13 wherein said first covering fiber comprises a cotton fiber
18. The method of claim 13 wherein said second covering fiber comprises an aramid-based fiber selected from the group of an acrylic fiber, a polymer fiber, a steel fiber, a fiberglass fiber, a nylon fiber, and a polyester fiber.
Type: Application
Filed: Oct 22, 2007
Publication Date: Jul 3, 2008
Applicant: Best Glove, Inc. (Menlo, GA)
Inventor: Eric P. Goddard (Rome, GA)
Application Number: 11/977,007
International Classification: A41D 19/00 (20060101); D02G 3/02 (20060101);