ADAPTABLE EPAS HOODS FOR ACIDIC AND CONTAMINATED ENVIRONMENTS

Abstract

A detachable hood provides head, neck, and chest protection from contaminating agents. The hood is composed of an anti-acid polyurethane fabric with polyester thread stitching and a polyurethane sealing band disposed on the stitching. The hood features a pair of elastic bands disposed on the polyurethane fabric that defines a 20 mm channel between them. A double-sided tape is disposed within the channel and is configured to adhere the fabric to the edge of a full-face mask to create a hermetic seal. In another embodiment, the hood includes a frontal opening, and the pair of elastic bands are disposed along its diameter, providing resistance and elasticity to the opening to allow for adaptation to different mask models.

Claims

1. A detachable hood for protection of a head, neck, and chest against exposure to contaminating agents, comprising: an anti-acid polyurethane fabric; a polyester thread stitching on the anti-acid polyurethane fabric; a polyurethane sealing band disposed on the polyester thread stitching; a pair of elastic bands disposed on the anti-acid polyurethane fabric; a 20 mm channel defined between the two elastic bands; and a double-sided tape disposed within the 20 mm channel, wherein the double-sided tape is configured to adhere the anti-acid polyurethane fabric to an edge of a full-face mask.

2. The detachable hood of claim 1, wherein the anti-acid polyurethane fabric is waterproof, is coated in Pu/PVC with a Nylon mesh and has a thickness of 310 grams per square meter.

3. The detachable hood of claim 1, wherein the polyester thread stitching comprises a 100% high-tenacity 0.35 mm waxed polyester thread.

4. The detachable hood of claim 3, wherein the polyester thread stitching is a straight stitch with reduced seam puckering.

5. The detachable hood of claim 1, wherein the polyurethane sealing band has a width of 18 mm.

6. The detachable hood of claim 1, wherein the pair of elastic bands are composed of a latex and have a width of 0.5 mm.

7. The detachable hood of claim 1, further comprising a frontal opening, wherein the pair of elastic bands comprise a high-resistance latex and are disposed along a diameter of the frontal opening, the pair of elastic bands are configured to provide a resistance and an elasticity to the frontal opening.

Description

DETAILED DESCRIPTION OF THE DRAWINGS

[0022] These and other features, aspects, and advantages of the present invention will become better understood with regard to the following description, appended claims, and drawings where:

[0023] FIG. 1: EPAS HOOD for neck and head protection with resistance to contaminated environments, such as sulfuric acid, suspended dust, chemical mining dust, and other environmental agents.

[0024] FIG. 2: Sketch of patterns duplicated for anti-acid and paper EPAS HOODS, both show identical dimensions and manufacturing techniques. Only the textile material to be used will vary.

[0025] FIG. 3: 3M Versaflo Hood for exclusive use as Replacement S-605-10.

[0026] FIG. 4: Anti-acid hood for exclusive use with BLS 5700/c visor.

[0027] FIG. 5: Full-body paper suit with opening in the neck area.

[0028] FIG. 6: Close-up FIG. 3 failure point opening neck opening zone.

[0029] FIG. 7: Improvised seals at opening points on market hoods.

[0030] FIGS. 8, 9, 10, and 11: Types of full-face masks to which the EPAS HOODS can be adapted.

[0031] FIGS. 12, 13, 14, and 15: Full-face masks of different models with anti-acid EPAS HOODS installed.

DETAILED DESCRIPTION OF THE INVENTION

[0032] The present invention seeks to create a safety hood in two different textiles: [0033] Polyethylene and PVC. The first, commonly known as a paper hood, serves to protect the worker's neck and head from dust and suspended particles, is disposable, and the second, washable and reusable, for the protection of personnel against work environments with acids in liquid and gaseous states.

[0034] The safety hood is composed of an anti-acid polyurethane fabric (1) which, in one embodiment, is waterproof, is coated in Pu/PVC with a Nylon mesh, and has a thickness or grammage of 310 grams per square meter (gsm). The anti-acid polyurethane fabric (1) includes polyester thread stitching (2) on the anti-acid polyurethane fabric (1). The polyester thread stitching (2) may be comprised of a 100% high-tenacity, 0.35 mm waxed polyester thread. This stitching may be a straight stitch with reduced seam puckering. A polyurethane sealing band (3) is disposed on the polyester thread stitching (2) to seal the seams. The polyurethane sealing band (3) may have a width of 18 mm. In sealing areas configured to engage a full-face mask, the hood has a pair of elastic bands (4) disposed on the anti-acid polyurethane fabric (1). The pair of elastic bands (4) may be composed of a latex and have a width of 0.5 mm. It has a 20 mm channel (5) defined between the two elastic bands (4) where it has a double-sided tape disposed within the 20 mm channel (5). This double-sided tape is configured to adhere the anti-acid polyurethane fabric (1) to the edge of the full-face mask (6) and generate the hermetic seal. In one embodiment, this sealing structure, comprising the pair of elastic bands (4), the 20 mm channel (5) defined therebetween, and the double-sided tape disposed within the channel (5), may be disposed on the anti-acid polyurethane fabric (1) independent of other features, such as a frontal opening, to provide a versatile sealing mechanism.

[0035] The basic pattern of this hood is that it is framed in the lower frontal opening (7), passing through the upper frontal opening (8). The lower frontal opening (7) is the opening corresponding to the face that extends to the upper frontal opening (8). This opening, which is rigid in other models, is sewn with high-resistance, acid-resistant elastics, which may be a high-resistance latex, and with a double axis, which creates a flexible opening of the pair of elastic bands (4). As such, in this embodiment, the pair of elastic bands (4) are disposed along a diameter of the frontal opening and are configured to provide a resistance and an elasticity to said frontal opening. The segment posterior to the face corresponds to the nape protection zone (9) being the part of the hood that will be in direct contact with the nape area of the neck, over the shoulders. The front neck protection zone, which is next to the lower frontal opening (7) will protect the neck in its front segment. The lower segments indicate the length of the hood, with the lower front segment (10) being the lowest front segment that will protect the worker's chest down to the ribs, while the lower posterior segment (11) corresponds to the lowest rear segment that will protect the worker's upper and mid-back.

[0036] In the case of the anti-acid PVC hood, its use is ideal in sectors where there is exposure to acid agents. A good example of these environments is sulfuric acid plants in mining operations, as this component plays an important role in the leaching of oxidized copper minerals. Critical points in these facilities, where acid concentration increases, are the primary and secondary absorption towers, drying towers, and a quench tower. On the other hand, regarding the paper hood, its use is suitable in work environments where there is particulate matter and suspended dust, and where the concentration and physical/chemical characteristics of these agents do not imply the degradation (in the short term) of the polyethylene textile (workshops, construction, mining).

[0037] The manufacturing of the pieces is done based on previously designed patterns, where the textile fibers of the hoods are superimposed, squaring them and marking key points for immobilization: lower frontal opening (7), upper frontal opening (8), nape protection zone (9), lower front segment (10) and lower posterior segment (11). Subsequently, the edges of the pattern are marked on the textile, cutting them along the entire contour already determined from lower frontal opening (7) to the lower posterior segment (11), to then take it to a double-stitching process on mechanized equipment (sewing machine) with high-chemical-resistance thread side polyester thread through the segments: upper frontal opening (8), nape protection zone (9), lower posterior segment (11), lower front segment (10) up to the lower frontal opening (7). Then, the same double-stitching procedure is repeated, changing the polyester thread for high-resistance and durable latex elastic for the segments of the lower frontal opening (7) and upper frontal opening (8).

Technical Advantages

[0038] One of the advantages of this equipment lies in its versatility, as it allows for its use in different models of full-face respiratory protection (3M full-face respirator series 6000, 6800, 6900, AIR FFS990 full-face respirator, MSA Advantage, Activex ATX 1500, BLS 5600 series, among others). Currently, there is no homologous anti-acid hood on the market, and, in general, workers exposed to acidic environments use paper suits, which come with a hood that is attached from the neck area. Unfortunately, the material of these suits does not provide sufficient protection and degrades quickly when exposed to environments of these characteristics. On the other hand, there are fabric hoods that are part of headpieces and self-contained breathing apparatuses. These latter, although they provide optimal protection, have the disadvantage of fabric hoods that are permeable upon contact with liquids, needing to be sent for cleaning with the additional disadvantage of the waiting time for new use. Clarifying this last point, the second advantage of this invention emerges, as, being made of a washable material, it can be quickly washed and dried to be used again.

[0039] The anti-acid hood is made of a high-strength and elastic polyamide core, coated in PVC. This configuration provides an impermeable membrane, which, together with its inner polyamide layer, offers high protection with elasticity and resistance. For its part, the polyethylene hood, better known as paper, is lightweight, comfortable, and breathable, which allows for the continuous flow of heat and perspiration from users. Like the anti-acid hood, it is detachable and allows for its use on all models of full-face visors available on the market. It is disposable, and can be used throughout the entire workday, except for accidents such as tears or material collapse due to complex environmental conditions (excessive contamination and dust).

[0040] The embodiments of the detachable hood for protection of a head, neck, and chest against exposure to contaminating agents are exemplary and numerous modifications, combinations, variations, and rearrangements can be readily envisioned to achieve an equivalent result, all of which are intended to be embraced within the scope of the appended claims. Further, nothing in the above-provided discussions of the detachable hood for protection of a head, neck, and chest against exposure to contaminating agents should be construed as limiting the invention to an embodiment or a combination of embodiments. The scope of the invention is defined by the description, drawings, and claims.