BRPI1103193A2 - Water resistant glove and chemicals, and chemical resistant glove - Google Patents

Abstract

WATER AND CHEMICAL RESISTANT GLOVE AND CHEMICAL RESISTANT GLOVE. A flexible, moldable glove with high resistance to water and chemicals permeation, and a manufacturing method. The glove is formed of multiple layers and using a standard assembly line.

Description

WATER AND CHEMICAL RESISTANT GLOVE, AND CHEMICAL RESISTANT GLOVE

FIELD

This Application is for water and chemical resistant gloves. More specifically, the present Application relates to flexible, sensitive, water and chemical resistant gloves made using an assembly line process (DIP).

BACKGROUND

Although there are many types of chemical resistant gloves available, most of them suffer from the disadvantage of being uncomfortable to the user due to the presence of rigid, inflexible materials.

Historically, in order to obtain the necessary resistance to water and chemicals, various membranes impermeable to certain chemicals and water have been hot-rolled or sealed together to produce a glove. These gloves were typically insensitive and rigid, making hand movement difficult for the wearer.

Therefore, there is a need for a water and chemical resistant glove that is flexible and comfortable and made by an assembly line (DIP) process.

BRIEF DESCRIPTION OF DRAWINGS

Fig. 1 illustrates a glove which may be formed according to the present application; and

Fig. 2 is an illustration of an exemplary cross section of a part of the glove of Fig. 1.

DETAILED DESCRIPTION

While embodiments of this Application may take many different forms, their specific embodiments are shown in the drawings and will be described in detail herein, with the understanding that the present disclosure should be considered as an exemplification of the principles of the Application as well as the best mode of practice. same, and is not intended to limit the Application to the specific embodiment illustrated.

The present Application concerns a skin covering which has high comfort as well as high water resistance and chemical permeation. This Application includes a method for creating such a skin covering. The skin cover may be a five finger glove, but it may also be a mitten having only one thumb, or a mitten having any combination of fingers present from zero to five. (See Figure 1). Such fur covering is not limited to a glove or mitt, and may include an apron, coat, hat, scarf, stocking, or shoe.

The chemical resistant nature of the glove results from the presence of a multilayer composition of at least two substantially waterproof layers and a chemical resistant layer. The substantially waterproof layer is composed of a mixture of polyurethane and nitrile, although generally it can be prepared with any material which gives a substantially waterproof character to the glove such as polyethylene, nitrile, polyurethane, chloroprene latex. , natural latex, butyl latex, hydrofluoric latex, and mixtures thereof. The chemical resistant layer is made up of polyvinyl alcohol (PVA), although any material is useful which lends a chemical resistant nature to the glove.

Optionally, the glove is also composed of a soft layer that is close to the skin. In terms of orientation, the PVA layer is sandwiched between two substantially waterproof layers, preferably composed of a mixture of polyurethane and nitrile. The polyurethane and nitrile blend layer also provides chemical resistance.

The PVA layer provides chemical permeation resistance. It is well known that a wide range of chemicals such as organic solvents, plasticizers, pesticides and detergents cannot easily permeate PVA. U.S. Patent Nos. 4,902,558 and 5,059,477, and U.S. Applications Serial Numbers 12 / 862,311; 61 / 363,871 and 61 / 393,712, all required by Honeywell, which are incorporated herein by reference, discuss the advantages of having a PVA layer in a chemical resistant glove. These patents explain that water tends to swell and plasticize the PVA layer. Therefore, the PVA layer must be protected in both upper and lower parts against the presence of water.

Thus, if the PVA layer is close to a soft layer, the soft layer should be substantially waterproof. Suitable malleable layers include those of synthetic fiber, natural fiber, chloroprene latex, natural latex, butyl latex, hydrofluoric latex, polyurethane, polyethylene and mixtures thereof. The pliable layer may be cotton, polyurethane, or latex rubber. A substantially waterproof fabric material is also contemplated.

It must be understood that there is no definite limitation on the number of layers the glove can have as long as the glove is comfortable and flexible enough for its intended use. There is also no limitation on the presence of duplicate layers.

One embodiment of the sleeve (10) comprises multiple layers including at least one outer layer of a polyurethane and nitrile mixture (12) surrounding and protecting an adjacent PVA layer (14) which is directly adjacent to one / two layers of the polyurethane and nitrile mixture (16-18) for a total of 3 to 5 layers, (see Figure 2).

Layer 20 is the soft layer which, when carried, is adjacent to the user's skin and is optional. There are no restrictions on the arrangement of the layers, except that the PVA layer is preferably protected from moisture. In addition, the thickness of the layers ranges from about 0.1 mm to about 1 mm for both the polyurethane and nitrile blend layer and the PVA layer. The glove may contain about 1 to 70 weight percent of polyvinyl alcohol and 1 to 70 weight percent of the polyurethane and nitrile mixture. The thickness of the malleable layer is in the range from about 0 mm to about 6 mm, or about 0 to 50 weight percent.

In another embodiment, the polyvinyl alcohol layer 14 is in the range of about 1 to 70 percent by weight, and the polyurethane and nitrile mixture layer 12 is in the range of about 1 to 70 percent. and the polyurethane and nitrile mixture layer 16-18 is in the range of about 1 to 70 weight percent.

The present Application also contemplates a method for creating a water and chemical resistant glove. The method may also include the addition of one or more additives, wherein the additives comprise an adhesive, a dye, an antimicrobial agent, a fiber, a fragrance or mixtures thereof.

The method for creating a water resistant and chemical resistant glove comprises optionally placing a malleable layer (i.e. liner) on a hand-held conformer, optionally placing a coagulant on the hand-held conformer, then dipping the hand conformer into a mixture of polyurethane and nitrile, such that a continuous layer of the mixture is deposited on the conformer, and the conformer removed from the mixture; dipping the conformer into an aqueous polyvinyl alcohol solution so that a continuous layer of polyvinyl alcohol is deposited on the conformer and removing the conformer from the polyvinyl alcohol solution; dipping the conformer into a polyurethane and nitrile mixture so that a continuous layer of the mixture is deposited on the conformer and removing the mixture. The glove can then be removed from the conformer. The combined immersion and removal steps may be independently repeated several times to form multiple layers as desired. A soft layer (i.e. liner) may optionally be placed on the glove as the final step, in addition to or instead of the first step.

Example 1: A chemical and mechanical resistance glove was produced according to the process below. A porcelain conformer was cleaned and dried. The conformer was then dipped in a coagulant calcium nitrate solution. He remained in this solution for about 15 seconds. The conformer was then removed from solution and allowed to dry at room temperature. Then the coated conformer was dipped in a mixture of polyurethane and nitrile, having also colored pigments dispersed therein. The residence period was about 30 seconds. The conformer was then removed and dried for about 14 minutes. Then the conformer was dipped in a polyvinyl alcohol solution. The residence period was about one minute. The conformer was then removed from this solution, allowed to dry for about 17 minutes at about 65 ° C, then cooled to room temperature for about 8 minutes. Then the coated conformer was dipped twice in a mixture of polyurethane and nitrile. The dwell time was 0 seconds. Each dip had a drying time of 4 minutes at 65 ° C. Then cotton flakes were superimposed. The glove was dried and removed from the conformer.

From the foregoing, it can be noted that numerous variations and modifications can be made without departing from the spirit and scope of the Order. It must be understood that no limitation on the specific article and / or method illustrated here is intended, or should be inferred. Naturally, it is intended that all modifications within the scope of the claims be covered by the appended claims.

Claims (15)

1. WATER AND CHEMICAL RESISTANT GLOVE, characterized by the fact that it comprises: at least two water resistant polymeric layers; and at least one polyvinyl alcohol layer; where the polyvinyl alcohol layer is sandwiched between the water resistant polymer layers. GLOVE according to Claim 1, characterized in that the water-resistant polymeric layer comprises a polymer selected from the group consisting of polyethylene, nitrile, polyurethane, chloroprene latex, natural latex, butyl latex, - hydrofluoric latex. , and their mixtures. GLOVE according to claim 1, characterized in that the water-resistant polymeric layer comprises a mixture of polyurethane and nitrile. GLOVE according to claim 3, characterized in that the polyvinyl alcohol layer is in the range of about 1 to 70 weight percent, and the polyurethane and nitrile layer mixture is in the range of about 1 to 70 percent. 70 percent by weight. GLOVE according to claim 1, characterized in that the polyvinyl alcohol layer comprises multiple layers of polyvinyl alcohol, and the water resistant polymeric layer comprises multiple water resistant polymeric layers. GLOVE according to claim 1, characterized in that the glove further comprises a malleable layer. GLOVE according to Claim 1, characterized in that the soft layer is composed of a material selected from the group consisting of synthetic fiber, natural fiber, chloroprene latex, natural latex, butyl latex, hydrofluoric latex, polyurethane. , polyethylene and mixtures thereof. GLOVE according to claim 6, characterized in that the soft layer is composed of cotton. GLOVE according to claim 1, characterized in that it further comprises at least one additive, wherein the additive comprises an adhesive, a dye, an antimicrobial agent, a fiber, a fragrance, or mixtures thereof. 10. CHEMICAL RESISTANT GLOVE, characterized in that it comprises: at least two layers of a mixture of polyurethane and nitrile; at least one layer of polyvinyl alcohol; and a malleable layer; where the polyvinyl alcohol layer is sandwiched between the mixture of polyurethane and nitrile layers. GLOVE according to claim 10, characterized in that the soft layer is composed of cotton. GLOVE according to claim 10, characterized in that it comprises multiple layers of polyvinyl alcohol and multiple layers of the polyurethane and nitrile mixture. GLOVE according to claim 10, characterized in that the polyvinyl alcohol layer is in the range of from about 0.1 mm to about 1 mm thick; that the polyurethane and nitrile mixture layer is in the range of from about 0.1 mm to about 1 mm thick; and the malleable layer is in the range from about -0 mm to about 6 mm thick. GLOVE according to claim 10, characterized in that the polyvinyl alcohol layer is in the range of about 1 to 70 weight percent, of a layer of the polyurethane and nitrile mixture is in the range of about 1 to 70 percent. 70 weight percent, and a layer of the polyurethane and nitrile mixture is in the range of about -1 to 70 weight percent. GLOVE according to claim 10, characterized in that it further comprises at least one additive, wherein the additive comprises an adhesive, a dye, an antimicrobial agent, a fiber, a fragrance or mixtures thereof.