Protective glove

Abstract

A hygienic glove having multiple removable layers. Each outer and successive layer has a tab means, whereby the outer and successive layers can be readily torn off or removed from the remainder of the glove, leaving the remaining layers, and finally the last layer, in place on the wearer's hand.

Description

TECHNICAL FIELD

This invention relates to the area of hand hygiene and, in particular, to the use of gloves. In particular, this invention relates to the promotion of sterile handling in a range of situations from food preparation to surgical procedures using gloves.

BACKGROUND

The following references to, and descriptions of, prior proposals or products are not intended to be, and are not to be construed as, statements or admissions of common general knowledge in the art. In particular, the following prior art discussion does not relate to what is commonly or well known by the person skilled in the art, but assists in the understanding of the inventive step of the present invention of which the identification of pertinent prior art proposals is but one part.

Although the invention relates to the use of sterile gloves in a variety of applications, for convenience and ease of explanation, and by example only, the invention will be described herein in terms of its application to the food preparation industry.

It is unknown for people preparing food generally and, in particular, for those preparing food in fast food or take away outlets, as well as those serving, to wear gloves when touching the food. Unfortunately, it appears to also be customary for these same gloves to be worn when handling a purchaser's money and also for preparing food for subsequent purchasers. Accordingly, any hygiene advantages in using such gloves according to such practices are negated.

While this practice is clearly unhygienic, it is understandable that a server should do this owing to the time taken to discard an old glove and replace it with a new glove prior to serving another customer.

Other problems with the prior art are associated with the use of disposable gloves. For example, where they are used in situations where sensitivity of touch is required, they are generally sufficiently thin skinned that they can be prone to failure and can, therefore, be associated with the transmission of bacteria and contaminants. This is especially a problem for dentists, forensic police, medical practitioners, and the like.

DISCLOSURE

It is an object of this invention to ameliorate the problems outlined above and to provide a hygienic glove device, which can be manufactured to be sufficiently robust for a range of applications while maintaining the requisite sensitivity of touch for that application.

In one aspect of the invention, there is provided a hygienic glove having a plurality of layers or skins, which glove thickness is sufficiently fine to permit the wearer to maintain an appropriate degree of manual dexterity.

It may be preferred that the glove be manufactured in such a manner as to permit the wearer to readily discard unwanted layers as required.

It is preferred that the material from which the glove is manufactured is a latex material that closely molds to the wearer's hand and flexes with corresponding movements of the hand. Any appropriate material can, however, be used.

It may be preferred that the glove have several layers where it is used for an application such as food handling, whereas a glove directed for use in more sensitive applications, such as by dentists, surgeons and other medical health professionals, may be a dual skinned latex glove that is unitary in design.

In order that the invention may be more readily understood, we shall describe it by way of non-limiting examples and specific embodiments thereof, with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1A is a schematic representation of a layered glove according to one aspect of the invention; FIG. 1B is a schematic representation of a layered glove with an outer tab lifted;

FIG. 1C is a schematic cross-sectional representation of the layers of the embodiment shown in FIG. 1A;

FIG. 2A is a schematic rear view of a glove according to the embodiment shown in FIG. 1A; FIG. 2B is a schematic representation of a front view of the glove shown in FIG. 2A;

FIG. 3A is a schematic representation of a first type of tab, where a first set of tabs are offset with respect to each other; FIG. 3B is a schematic representation of a glove having a second type of tab where one tab overlies a second tab;

FIG. 4A is a schematic representation of a glove made according to another embodiment of the invention having large, curved tabs; FIG. 4B is a schematic representation of a glove according to another embodiment having smaller curved tabs;

FIGS. 5A and 5B are schematic representations showing front and back views of heavy-duty lined gloves; FIG. 5C is a schematic representation of layers of glove material according to the embodiment shown in FIGS. 5A and 5B; and

FIG. 6 is a schematic cross-sectional representation of the layers of the embodiment shown in FIG. 5A.

DETAILED DESCRIPTION OF THE INVENTION

An inexhaustive list of alternative glove-making materials is provided below, noting that such materials may be used in composite within a single layer or glove where each layer may homogenously consist of a material that is different from other layers within the same complete glove:

Material	Properties	Application
Natural	Durable rubber; abrasion	Cleaning, food processing
rubber-latex	resistant; good tactile	and handling; most
	sensation transfer	industrial application but
		not contact with oils
Synthetic	Good alternative for	Solvent resistance (but not
rubber-nitrite	latex-sensitive individuals;	ketones, etc.); medical
	abrasion resistant	examination; emergency
		workers; laboratory staff;
		general industry, cleaning
		and food processing
Synthetic	Oils, acid, solvent, caustic	Manufacturing, chemical
rubber	chemical resistance	handling and cleaning; not
neoprene		abrasion resistant
Polyvinyl	Chemical and ketone	Selected
Alcohol	resistant, but not water and	industrial-chemical
(PVA)	alcohol. Abrasion resistant	handling applications
Polyvinyl	Chemical, fat, oil resistant;	Food contact
Chloride	abrasion resistant,
(PVC)	economical
Polyethylene	Disposable; economical	Food service and general
(PE)		industrial applications
Polyurethane	Good dexterity and	Parts handling
(PV)	chemical resistance (except
coated	for solvents)
Cotton fiber;	Good dexterity; thermal	Limited industrial
Polyester/	insulation	applications
cotton blend;
Wool blends
KERLAN ®;	Coatings for cut protection;	Limited industrial
TEFLON ®	microbial and stain	applications
	resistance

The embodiment of the invention of the type shown in FIGS. 1A and 1B is directed primarily to the food preparation industry, although it can have many other applications. This glove 10a has a plurality of disposable, relatively thin, layers or skins 21a-21c. The gloves made according to the invention will be generally referred to by the reference numeral 10 throughout the specification.

In the first embodiment of the invention shown in FIGS. 1A and 1B, a hygienic glove 10a having multiple removable layers is provided. Preferably, the glove 10a comprises multiple layers 21a-21c (the multiple layers are generally referred to by the reference numeral 21 throughout the specification) and is made of a latex material, although any appropriate material may be used. The use of latex as the multiple layer material is, however, advantageous due to its non-tacky or non-sticky properties, making easier the separation and removal of an outer layer 21a from its next adjacent underlying layer 21b.

The glove 10a comprises a unitary glove 10a that permits a user to treat the glove 10a as a single glove when initially putting it on. To the wearer, the glove 10a is a unitary piece of glove wear. The multiple layers 21a-21c behave and perform as a single, loose-fitting glove, the collective thickness of the multiple layers 21a-21c being sufficiently thin to permit the wearer adequate tactile sensation to enable the relevant activity of the wearer to be performed. The multiple layers 21a-21c may have a tacky quality, thereby tending to stick together to facilitate their performance as a single layer. For example, the layers 21a-21c may be weakly bonded by hydrogen bonds or the like, to ensure adjacent layers 21a and 21b or 21b and 21c do not slide easily with respect to one another and behave as a single layer. However, preferably, for ease of removal when an outer layer 21a or 21b is to be discarded, the respective layers are able to move and part with respect to each other, thereby facilitating separation when required. Latex material lends itself to this characteristic of non-tacky, non-stickiness.

Each outer and successive layer 21a-21c has tab means (generally referred to by the reference numeral 20 throughout the specification), whereby the outer and successive layers 21a and 21b can be readily torn off or removed from the remainder of the glove 10a, leaving the remaining layers 21b, and finally 21c, in place on the wearer's hand. Although the location of the tab 20 is not restricted in the invention, it is preferred that it be provided at the wrist area 22 of each layer 21a-21c so that the tab 20 can be used by the wearer to remove that layer 21a-21c.

By this means, a person can prepare food for one customer, handle their money and change (the latter operation not being critical to good hygiene), and then could simply remove the soiled outer glove layer 21a in order to hygienically serve the next customer, handling food with the next successive glove layer 21b, etc.

Although there is no limit in the invention concerning the number of layers or skins 21a-21c associated with each glove 10a, it is envisaged that it would be preferred for at least three to ten, preferably three to six, and more preferably three or four, such layers to be provided so that the glove 10a need only be replaced after serving multiple customers. This is because the glove 10a could become too bulky if an excessive number of layers or skins 21a-21c were used. Of course, each different type of application may require glove layers 21a-21c of differing thickness and robustness. For example, in dental or other medical surgery, where contact with sharp or pointy instruments is possible, thicker industrial layers 21a-21c may be preferred to avoid the glove 10a being penetrated.

Alternatively, the glove 10a may comprise progressively thicker layers, with thinner outer layers 21a. Where multiple layers 21a-21c are present when the glove 10 is first put on, failure of the glove 10a by penetration through all layers 21a-21c is less likely and thinner outer layers 21a and 21b may be adequate. However, if only one or two remaining layers 21b and/or 21c are left after removal of the outer layer 21a, the provision of greater thickness of these inner layers 21b and 21c facilitates greater safety and resistance to a breach.

In a particularly preferred embodiment, the innermost layer 21c is thick, and the plurality of outer layers 21a and 21b are uniformly thin, so that the manufacturing process requires only two different settings of duration for forming each layer, a longer time to form the thicker innermost layer 21c, and a uniformly shorter time for each subsequent outer layer 21a and 21b.

The invention can also apply to a genuinely unitary glove 10a, which is not provided with the multiple layer removal facility. It is envisaged that this application would be very suitable for use in the fields of dentistry and medical treatment where a practitioner would have the benefit of a double-skinned glove to protect against tearing while not losing any significant sensitivity of touch. Because the facing surfaces of adjacent layers 21a and 21b operate as multiple surfaces with accompanying surface tensions that must be breached to be penetrated, multiple layers improve the penetration and cutting resistance of the glove 10a, with any cut being potentially limited to outer layers 21a and 21b, whereas a single layer having the same combined thickness, when pierced or cut, may continue to split until entirely ruptured or breached.

FIGS. 2, 3 and 4 show examples of different tabs 20 that can be used in preferred embodiments of the invention having a plurality of removable layers 21, thus demonstrating the diversity in shape and location of these tabs 20 on the glove 10. The precise shape and location of these tab devices 20 varies. Larger, more accessible tabs 20 are preferred, particularly where multiple layers 21a-21c at the finger tips may make dextrous actions more difficult, although the thinness of the multiple layers 21a-21c of the invention mitigate this problem. The finger tips 624 (see FIG. 5B) of successive layers 21 may be molded, or worked subsequent to molding, to reduce layer 21 thickness in that region for better tactile sensitivity.

In FIG. 1A, the tabs 20a-20c are generally rectangular or frusto-triangular and generally are superimposed on each other, but slightly offset to enable a finger to get underneath the top tab 20a and to lift it to separate it from the remaining tabs 20b and 20c to enable the removal of the outermost layer 21a, as demonstrated in FIG. 1B by the upward arrow.

In FIGS. 2A and 2B, the underlying tabs 120b and 120c are progressively broader and shorter than the long and curved elongate outer tab 120a. FIG. 2B shows the underlying tabs 120b and 120c as partially ghosted. They are progressively broader so that the outermost tab 120a or, subsequently, 120b after removal of outer layer 121a, is the longest remaining tab 120a, 120b, and is accessible to lift and separate from the other tabs 120b, 120c. The tabs 20 may be coated with a non-stick surface, such as a felt or adhesive to allow easy separation, but progressively different shaped tabs 120a-120c are preferred.

In some applications where contamination is a particularly critical issue, the tabs 20 of underlying layers 21 are preferably completely covered by the outermost remaining layer 21 to reduce the potential for contamination. In other applications, where sleeve areas 22 are unlikely to be soiled, for ease of removal of layer 21, the tabs may be more clearly separable.

In FIG. 3A, the tabs 220a-220c are circumferentially offset from each other and distinguishable by a corner cut out 223a and 223b that leaves a tab portion 20 of each sublayer 21 exposed. In FIG. 3B, the tabs 320a and 320b are only slightly offset, requiring greater finger-tip dexterity.

In FIG. 4A, each of the tabs 420a-420c are easily differentiated, large, curved and substantially circumferentially offset relative to each other to make separation of an individual tab 420a from the remaining layers 21 easier. The tabs 420a-420c define distinctly different shapes.

In contrast, the tabs 520a-520c shown in FIG. 4B follow a similar contour in which the contour of a first tab 520a is shadowed by a second underlying tab 520b and, in turn, a third tab 520c follows the general contour or line of intermediate tab 520b. The innermost tab 520c extends beyond the length of intermediate tab 520b and intermediate tab 520b extends less than underlying tab 520c.

In each case, the relative dexterity of the user as determined by the overall thickness of the glove 10a-10g may dictate the type of tab 20 to be used. In FIG. 4B, rubber tips 524 are provided on the tactile side of the finger ends 525 of each glove finger for extra grip. Additional grips may be provided in the glove palm area 626 as shown in FIG. 5B.

Another embodiment of the invention is shown in FIGS. 5A and 5B, which is a heavy duty glove 10g that is lined in an innermost layer with a blend such as cotton, polyester and/or wool. The glove 10g is preferably cotton lined for use when handling frozen materials such as meats and the like, but still employs the multiple removable layer concept. The thermal insulating layer 628 remains on the wearer's hand for the duration of the glove's 10g use and is not intended to be used without at least one waterproof latex or other material outer layer 621a. The glove 10g comprises multiple layers 621a that are discardable down to the final outer waterproof, etc., layer 621a. After the final, innermost layer 621a has been used/soiled and another use is required, the glove 10g must be discarded and replaced with a new glove 10g. The innermost layer 628 includes a wrist band for comfort and stability of the glove 10g on the wearer's hand. The use of the loose fitting glove 10g is, in one application, for handling meat in a coolstore in which the handled product is heavy and slippery.

In all the applications described, it is envisaged that embodiments incorporating features such as gripping pads 624, 626 on fingers and palms can be provided if required and still lie within the invention. The pads 624, 626 may comprise extra pads adhered onto the outer surface of the relevant layer 21 or may represent an area of reduced thickness. The pads 624, 626 may be molded to have a textured surface for better grip, including the provision of multiple knobs, ridges or repeated patterns such as the triangular/hexagonal pattern shown in FIG. 5B.

Referring to FIG. 5C, the glove 10g comprises an inner cotton layer 631 that is located adjacent the user's hand 12. An insulating layer of cotton or wool/polyester blend is protected from the wet meat or other items or products to be handled, by successive discardable layers of latex 621a-621c. However, the innermost water-resistant layer 621c is not discarded until the entire glove 10g is, so that the glove 10g always has at least one layer 621c of water-resistant protection. Pads 624, 626 are provided on the finger tips and the palm to enhance the wearer's grip of slippery and heavy meat products. As the operating temperature in such environments can be sub-zero, such as −4° C. (25° F.), the cotton or wool or blend layer 628 (see FIGS. 5A and 5B) thermally insulates the wearer's hands while providing an acceptable hypoallergenic and comfortable material against the skin.

It is further envisaged that the completed gloves can be manufactured by several means, examples of which follow.

Referring to FIG. 1C, one manufacturing method involved is a wet process in which a mold of a hand is dipped into a vat of a liquid material such as latex and then dried, such as by being blow dried. During this stage, a tab 20 is applied, adhered, stamped or cut into the material of the newly formed layer 21 and the glove 10a, i.e., the immediately formed glove layer 21c, is then coated with a release agent 27. The release agent 27 may be a gas or may be a sprayed-on formulation. For example, the release agent 27 may be Dow Corning 200 Fluid Food Grade 350 cs or sm 2128 silicone emulsion. The release agent 27 may not remain, but may dissipate as a gas or volatile, having treated the layer 21c outer surface to prevent adherence by the wet and forming subsequent layer 21b. However, the release agent 27 may leave a non-stick residue (such as the silicone emulsion) to ensure the layers 21a-21d are slideable and separable relative to each other. This process is repeated until the required number of layers 21a-21d have been achieved.

As shown in FIG. 6, the thickness of successive layers 721a-721f may be graded for a glove 10h. The innermost layer 721a may be sufficiently thick, thereby providing an adequate barrier on its own. Successive outer layers 721b and 721c may comprise progressively thinner layer walls or all outer layers 721d-721f may be of unitary minimum thickness given that innermost layer 721a alone is an effective barrier.

Another manufacturing means is provided by dry spraying the glove 10a material onto a mold, adding the tab 20 and coating the glove 10a with a release agent 27, then repeating this process until the final glove 10a is complete.

Alternatively, a machine can be used to put preformed glove layers 21 of individual glove members 10 onto a mold by hand or by an automated process. Any appropriate method may, however, be used.

Therefore, while we have described herein specific embodiments of the invention, it is envisaged that other embodiments will exhibit any number of and any combination of the features previously described and it is to be understood that variations and modifications in this can be made without departing from the spirit and scope of the invention.

Throughout the specification and claims, the word “comprise” and its derivatives are intended to have an inclusive rather than exclusive meaning unless the contrary is expressly stated or the context requires otherwise. That is, the word “comprise” and its derivatives will be taken to indicate the inclusion of not only the listed components, steps or features that it directly references, but also other components, steps or features not specifically listed, unless the contrary is expressly stated or the context requires otherwise.

Claims

1. A glove comprising a plurality of discardable layers, the glove comprising: at least one outer layer made from a material having physical and chemical properties of water or chemical resistance and abrasion or penetration resistance; andat least one inner layer having skin compatibility properties for use against the skin of a wearer.

2. The glove according to claim 1, wherein the at least one outer layer is separable from the at least one inner layer by engagement of a wrist portion of the outer layer that is pullable to strip the outer layer from a user's hand.

3. The glove according to claim 1, wherein the at least one inner layer is made of a different material from the at least one outer layer.

4. The glove according to claim 1, wherein the at least one outer layer comprises a plurality of layers having an average wall thickness substantially less than the average thickness of the layer wall of the inner layer.

5. The glove according to claim 2, wherein the at least one outer layer comprises a plurality of outer layers that are progressively thinner layers with each successive outer layer.

6. The glove according to claim 5, wherein the inner layer is significantly thicker than the plurality of outer layers.

7. The glove according to claim 6, wherein the inner and outer layers are made from the same material.

8. The glove according to claim 1, wherein the inner layer is treated with a release agent to prevent the next outer layer adhering or sticking to the inner layer.

9. The glove according to claim 1, wherein the outer layer is made of latex.

10. The glove according to claim 1, wherein the inner layer is made of a thermal insulating material and is adhered to the at least one outer layer immediately adjacent the inner layer, the at least one outer layer additionally including one or more discardable layers having water-resistant properties.

11. The glove according to claim 1, wherein the pullable wrist portion includes a tab able to be manipulated to remove the outer layer.

12. The glove according to claim 11, wherein each outer layer includes its own tab.

13. The glove according to claim 11, wherein the tab of the outermost outer layer is the only tab exposed for manipulation.

14. The glove according to claim 11, wherein the outermost outer layer covers the tabs of the inner and outer layers lying thereunder.

15. The glove according to claim 11, wherein the tabs of all inner and outer layers are accessible and visible.