Helmet and suit apparatus

Abstract

A helmet and suit apparatus comprising a helmet with a lens that is connected to a yoke, a neck dam, or other garment via a seal ring assembly. In some embodiments, the apparatus has an air control system permitting air flow into and out of the helmet and for maintaining positive air pressure in the helmet. In further embodiments, the air control system has a series of passages and lens ports that permit air flow on to the inside surface of the lens for anti-fogging purposes, as well as a series of head ports for cooling the wearer's head. The apparatus further comprises a communication system, accessory rails for mounting equipment, and attachment points in the inside of the helmet for receiving hard hats and chin straps as needed.

Claims

1. A helmet apparatus adapted to be worn over the head of a wearer, comprising: a helmet having an outside surface, an inside surface, a front, a back, a pair of sides, a top, and a bottom; a lens mounted to the front of the helmet; an air control system permitting air flow into and out of the helmet; and a seal ring assembly adapted to receive and mate with the bottom of the helmet; wherein a plurality of accessory rails are mounted to the outside surface of the helmet, wherein each of said accessory rails run from the front to the back of the helmet; and wherein a top surface of said helmet defines a rail protrusion which receives one of the accessory rails and defines a handle opening positioned between said top surface of the helmet and said accessory rail.

2. The helmet apparatus of claim 1, wherein the air control system comprises an air inlet mounted to the outside surface of the helmet and permitting air flow into the air control system, a series of passages connected to both the air inlet and a plurality of ports positioned throughout the inside surface of the helmet permitting air flow into the helmet, and an air exhaust valve mounted to the outside surface of the helmet and permitting air flow out of the helmet.

3. The helmet apparatus of claim 2, wherein the air inlet defines an inlet port facing towards the rear of the helmet and being adapted to receive an air hose; and wherein said inlet port further comprises a first component integrally connected to a second component at about a ninety degree angle, wherein the second component is connected to the series of passages of the air control system.

4. The helmet apparatus of claim 2, wherein the plurality of ports comprise a plurality of head ports permitting air flow to the wearer's head and a plurality of lens ports permitting air flow to an inside surface of the lens.

5. The helmet apparatus of claim 2, wherein the air exhaust valve defines an exit channel through which air exits the inside surface of the helmet; the air exhaust valve further comprising an umbrella valve fitted into said exit channel and permitting air flow only out of said helmet, a pressure plate, and a spring engaged to the umbrella valve, said pressure plate and spring providing a force that opposes the opening of said umbrella valve.

6. The helmet apparatus of claim 5, wherein the air exhaust valve further comprises an exhaust cover placed over the umbrella valve, the pressure plate and the spring; wherein said exhaust cover having a labyrinth exhaust which defines a series of hollow portions having right angles to permit passage of air flow through said exhaust valve.

7. The helmet apparatus of claim 2, wherein the front of the helmet further comprises a bezel which defines a lens opening and being adapted to receive the lens; and wherein the lens is positioned at an upwards angle when received in the bezel.

8. The helmet apparatus of claim 7, wherein the lens comprises a pair of opposing sides and a pair of opposing lengths, wherein the lens curves backwards towards the rear of the helmet.

9. The helmet apparatus of claim 8, wherein the air inlet is mounted to one of the sides of the helmet and the air exhaust valve is mounted to the opposing side of the helmet, wherein the air inlet is positioned adjacent to and behind one of the opposing sides of the lens and the air exhaust valve is positioned adjacent to and behind the other opposing side of the lens.

10. The helmet apparatus of claim 1, wherein the seal ring assembly comprises a clamp ring and a seal ring, wherein said seal ring comprises a top surface being adapted to receive the bottom of said helmet and a bottom surface being adapted to receive and engage a top surface of said clamp ring.

11. The helmet apparatus of claim 10, wherein the seal ring assembly is adapted to receive and secure a top portion of a garment between said seal ring and said clamp ring.

12. The helmet apparatus of claim 11, wherein the garment is chosen from the group consisting of a yoke or a neck dam.

13. A helmet and suit apparatus, comprising the helmet apparatus of claim 11, wherein the garment comprises a yoke integrally connected to a suit adapted to be worn over the body of the wearer, wherein the helmet and suit apparatus fully encapsulate the wearer when said helmet and said yoke are secured to the seal ring assembly.

14. The helmet apparatus of claim 10, wherein said seal ring assembly further comprises a pair of safety latches adjustably connected to the bottom of said helmet, and a retainer assembly connected to the bottom and back of said helmet.

15. The helmet apparatus of claim 1, further comprising a strain relief clamp mounted to the outside surface and adjacent the back of the helmet, said strain relief clamp being adapted to receive and secure a plurality of cables.

16. A helmet apparatus adapted to be worn over the head of a wearer, comprising: a helmet having an outside surface, an inside surface, a front, a back, a pair of sides, a top, and a bottom; a lens mounted to the front of the helmet; an air control system permitting air flow into and out of the helmet; and a seal ring assembly adapted to receive and mate with the bottom of the helmet; wherein the air control system comprises an air inlet mounted to the outside surface of the helmet and permitting air flow into the air control system, a series of passages connected to both the air inlet and a plurality of ports positioned throughout the inside surface of the helmet permitting air flow into the helmet, and an air exhaust valve mounted to the outside surface of the helmet and permitting air flow out of the helmet; wherein the air inlet defines an inlet port facing towards the rear of the helmet and being adapted to receive an air hose; and wherein said inlet port further comprises a first component integrally connected to a second component at about a ninety degree angle, wherein the second component is connected to the series of passages of the air control system.

17. A helmet apparatus adapted to be worn over the head of a wearer, comprising: a helmet having an outside surface, an inside surface, a front, a back, a pair of sides, a top, and a bottom; a lens mounted to the front of the helmet; an air control system permitting air flow into and out of the helmet; and a seal ring assembly adapted to receive and mate with the bottom of the helmet; wherein the seal ring assembly comprises a clamp ring and a seal ring, wherein said seal ring comprises a top surface being adapted to receive the bottom of said helmet and a bottom surface being adapted to receive and engage a top surface of said clamp ring; wherein said seal ring assembly further comprises a pair of safety latches adjustably connected to the bottom of said helmet, and a retainer assembly connected to the bottom and back of said helmet; wherein said clamp ring defines a pair of safety latch tabs extending outward from said clamp ring and being adapted to receive the pair of safety latches; wherein a front portion of the clamp ring further defines a lanyard attachment point being adapted to receive a cord; and wherein said retainer assembly comprises a clamp ring tab adjustably connected to the bottom and back of said helmet, and a retainer extending from a rear surface of said clamp ring and being adapted to receive said clamp ring tab.

18. A helmet apparatus adapted to be worn over the head of a wearer, comprising: a helmet having an outside surface, an inside surface, a front, a back, a pair of sides, a top, and a bottom; wherein the inside surface of the helmet is adapted to receive a hard hat worn over the head of the wearer; a lens mounted to the front of the helmet; an air control system permitting air flow into and out of the helmet; and a seal ring assembly adapted to receive and mate with the bottom of the helmet; wherein a plurality of attachment points are mounted to the inside surface of the helmet and said attachment points are adapted to receive the hard hat; wherein the hard hat is positioned internal to the outside surface of said helmet; and wherein the inside surface of the helmet defines a pair of chin strap attachment points being adapted to receive a chin strap.

Description

BRIEF DESCRIPTION OF THE FIGURES

(1) The drawings and embodiments described herein are illustrative of multiple alternative structures, aspects, and features of the present embodiments, and they are not to be understood as limiting the scope of present embodiments. It will be further understood that the drawing Figures described and provided herein are not to scale, and that the embodiments are not limited to the precise arrangements and instrumentalities shown.

(2) FIG. 1 is a perspective view of a helmet and suit apparatus, according to multiple embodiments and alternatives.

(3) FIG. 2 is a perspective view of a helmet and suit apparatus without a lens, according to multiple embodiments and alternatives.

(4) FIG. 3 is a front view of a helmet and suit apparatus, according to multiple embodiments and alternatives.

(5) FIG. 4 is a right side view of a helmet and suit apparatus, according to multiple embodiments and alternatives.

(6) FIG. 5A is a cross-section view of a helmet and suit apparatus, across line 5-5 of FIG. 4, according to multiple embodiments and alternatives.

(7) FIG. 5B is a close-up view of an air control exhaust valve, from the region illustrated by the box 6 of FIG. 5A, according to multiple embodiments and alternatives.

(8) FIG. 6 is a rear view of a helmet and suit apparatus, according to multiple embodiments and alternatives.

(9) FIG. 7 is a left side view of a helmet and suit apparatus, according to multiple embodiments and alternatives.

(10) FIG. 8 is a cross-section view of a helmet and suit apparatus, across line 8-8 of FIG. 7, according to multiple embodiments and alternatives.

(11) FIG. 9 is a top view of a helmet and suit apparatus, according to multiple embodiments and alternatives.

(12) FIG. 10 is a cross-section view of a helmet and suit apparatus, across line 10-10 of FIG. 9, according to multiple embodiments and alternatives.

(13) FIG. 11 is a bottom view of a helmet and suit apparatus, according to multiple embodiments and alternatives.

(14) FIG. 12 is a top view of a suit and seal ring assembly without a helmet, according to multiple embodiments and alternatives.

(15) FIG. 13A is a close up, cross-section, and exploded view of a seal ring assembly without a helmet, across line 13-13 of FIG. 12, according to multiple embodiments and alternatives.

(16) FIG. 13B is a close up and cross-section view of a seal ring assembly without a helmet, across line 13-13 of FIG. 12, according to multiple embodiments and alternatives.

(17) FIG. 13C is a close up and cross-section view of a seal ring assembly in a closed position without a helmet, across line 13-13 of FIG. 12, according to multiple embodiments and alternatives.

(18) FIG. 14 is a side view of a seal ring assembly and a worker in a suit without a helmet, according to multiple embodiments and alternatives.

(19) FIG. 15 is a side view of a worker in a helmet and suit apparatus, according to multiple embodiments and alternatives.

(20) FIG. 16 is a front view of a worker in a helmet and suit apparatus, according to multiple embodiments and alternatives.

MULTIPLE EMBODIMENTS AND ALTERNATIVES

(21) FIG. 1 illustrates the helmet 8 having a lens 20 and a plurality of attachment rails 42 which are mounted to the outside surface 10 of the helmet 8. The front of the helmet 8 defines a microphone protrusion 22 located below the lens 20 and in front of the wearer's mouth. The protrusion 22 is adapted to receive a microphone. The sides of the helmet 8 define ear protrusions 25 which are adapted to receive speakers 52 (best illustrated in FIGS. 2 and 8) and permit a user to wear earplugs if desired. As discussed in more detail below, the helmet 8 is connected to a suit 200 and yoke 202 by a seal ring assembly 205. The seal ring assembly may also secure to a neck dam or any other type of garment that needs to be secured to helmet 8, and it is understood that the embodiments herein are not limited to attachment to a yoke. A pair of safety latches 110 and a retainer assembly 215 securely attach and seal the helmet 8 to the suit 200. A lanyard attachment point 225 extends from the seal ring assembly 205, which is adapted to receive a lanyard or other types of cord and assists the wearer in donning and doffing the helmet 8 from the seal ring assembly 205. As discussed in greater detail below, an air control system 60 permits continuous air flow in and out of the helmet 8, and maintains a positive pressure within the helmet 8. FIG. 1 illustrates the air exhaust valve 85 of the air control system 60.

(22) As shown in FIG. 2, the front of the helmet 8 defines a bezel 18 which is adapted to receive the lens 20 and the bezel 18 defines a lens opening 15. The bezel 18 is connected to the helmet 8 by a plurality of screws, or any other attachment mechanism known to one of ordinary skill in the art. FIG. 2 illustrates one of the chin strap attachment points 35 which are adapted to receive a chin strap. As discussed below, in some embodiments the helmet 8 is hard-wired with a communication system 50 (e.g. a two-way open microphone communication as a non-limiting example). The communication system 50 comprises a pair of binding posts 58 (including a positive and negative post in some embodiments), which are positioned on the outside surface 10 of the helmet 8 and adapted to receive wiring. As illustrated in FIG. 2, the posts 58 pass through the wall and into the inside of the helmet 8. In some embodiments, the pair of binding posts 58 are connected to the inside surface 11 of the helmet via a stud and nut, which is sealed with gaskets to prevent leaks. The communication system 50 further comprises a pair of speakers 52 which are mounted to the inside surface 11 of the helmet and are positioned adjacent to the wearer's ears. A speaker cover 55 with a plurality of openings is mounted over each speaker 52.

(23) FIG. 3 illustrates the air inlet 62 and the air exhaust valve 85 of the air control system 60. As previously noted, the yoke 202 is securely connected to the helmet 8 via the seal ring assembly 205. Furthermore, a pair of safety latches 110 (which are positioned on both sides and towards the front of helmet 8 as shown in FIG. 4), connect the helmet 8 to the seal ring assembly 205. The air exhaust valve 85 is positioned behind and below the bezel 18 which provides some protection from debris coming towards the wearer.

(24) As illustrated in FIGS. 4 and 6, the outside surface 10 of helmet 8 defines a plurality of rail protrusions 48 which are adapted to receive the rails 42. In some embodiments, a rail 42 is positioned along the top of the helmet and its corresponding protrusion 48 defines an opening 45 which can be used as a handle and/or for guiding the worker into tight spaces. In some embodiments, the top rail 42 comprises a first component which is generally parallel to the surface of the lens 20 and a second component which runs along a portion of the top of the helmet 8. In some embodiments, the first and second component of the top rail 42 intersect at an angle that is greater than ninety degrees. As illustrated in FIG. 4, the lens 20 is positioned at a slight upwards angle relative to the arrows from line 5-5 in FIG. 4 (which is the same plane as the ground surface).

(25) As shown in FIGS. 4 and 6, a retainer assembly 215 is positioned at the back of the helmet 8 and connects to the seal ring assembly 205. The retainer assembly 215 comprises a clamp ring tab 108, which is adjustably connected to the back of the helmet 8, and clamps onto the clamp ring 220 of the seal ring assembly 205.

(26) FIG. 5A illustrates the attachment points 32 mounted to the inside surface 11 of helmet 8. In some embodiments, there are four attachment points 32 positioned throughout the inside surface 11 and the points 32 are adapted to receive a universal hard hat. FIG. 5A further illustrates the pair of binding posts 58 of the communication system 50 and the accessory rails 42 mounted on the outside surface 10 of the helmet 8.

(27) According to multiple embodiments and alternatives, the helmet 8 is supplied with air via a hose that is connected to a compressor. In some embodiments, air first enters the air control system 60 via the air inlet 62 which defines an inlet port 65. The air inlet 62 is attached to the helmet via a cam locking system and additional screws as needed. The air inlet 62 further defines an o-ring gland 70 which is adapted to receive an o-ring 72. The o-ring 72 is fitted onto the gland 70 and provides a seal between the air inlet 62 and the helmet 8. In further embodiments, the inlet port 65 defines a female threaded hole and is adapted to receive an air hose barb which in turn is connected to a compressor.

(28) Following passage into the inlet port 65, air enters into a series of passages 75 and is distributed throughout the inside of the helmet. Much of the air is distributed to a plurality of lens ports 78 (best illustrated in FIG. 8) which are positioned to provide air flow to the inside surface of the lens 20 for anti-fogging purposes. Air also passes through a series of distribution channels 80, which are positioned along the top and sides of the helmet 8, and through a plurality of head ports 82 (also illustrated in FIG. 8) which supply air to the wearer's head. After entering the helmet chamber, air exists through the air exhaust valve 85.

(29) In some embodiments, the exhaust cover 102 is attached to the outside surface 10 of the helmet 8 via a cam locking system. As shown in FIG. 5B, in further embodiments the air exhaust valve 85 defines a pair of o-ring glands 95 which are adapted to receive a pair of o-rings 98 and provides a seal to the helmet 8. The air exhaust valve 85 may also be secured in place by screws as needed. As shown in FIG. 5B, the air exhaust valve 85 further comprises an umbrella valve 88 having a stem and a flap, wherein the stem can be fitted into an exit channel 86 defined by the air exhaust valve 85. In some embodiments, the umbrella valve 92 provides backflow prevention by preventing air flow only out of the exit channel 86. A pressure plate 90 having a spring 92 (illustrated by the X in FIG. 5B) engages the flap of the umbrella valve 88 and provides a force that opposes the opening of the umbrella valve 88 (i.e. provides a closing force onto umbrella valve 88).

(30) After passing through the umbrella valve 88 and overcoming the opposing force applied by the pressure plate 90 and spring 92, air passes through the labyrinth exhaust 100 of the exhaust cover 102 which comprises a series of passages having right angle turns that stop solid debris from entering into the cover 102 and prevent failure of umbrella valve 88. After passing through the labyrinth exhaust 100 of the exhaust cover 102, the air passes into the ambient air.

(31) FIG. 6 illustrates the series of distribution channels 80 which connect the air inlet 62 and air passages 75 to the plurality of head ports 82 and a plurality of lens ports 78. The channels 80 span the length of the helmet 8 and also span laterally (as shown in FIG. 6). The helmet 8 defines a plurality of rail protrusions 48 which are adapted to receive the accessory rails 42. The helmet 8 further defines a pair of ear protrusions 25 and a clamp protrusion 30 which is adapted to receive the strain relief clamp 28. A clamp ring tab 108 is adjustably connected to the rear and bottom 12 of helmet 8 and is adapted to engage the clamp ring 220 of the seal ring assembly 205. In some embodiments, the helmet 8 further defines hard hat attachment point protrusions 33 positioned adjacent to the ear protrusions 25.

(32) As illustrated in FIGS. 6-8, according to multiple embodiments and alternatives, the air inlet 62 faces towards the rear of helmet 8 and at a slight downward angle generally parallel to line 8-8 in FIG. 7. In some embodiments, the air inlet 62 is positioned between the lens 20 and one of the ear protrusions 25. FIG. 7 illustrates the outside surface 10 of the helmet 8 defining a binding post protrusion 31 which is adapted to receive the pair of binding posts 58 of the communication system 50, which are then positioned adjacent to the air inlet 62, and between the lens 20 and one of the ear protrusions 25. The binding posts 58 also face towards the rear of helmet 8 at a slight downward angle generally parallel to line 8-8 in FIG. 7. The binding post protrusion 31, and the position of the pair of binding posts 58, protect the posts 58 from debris and other materials coming towards the wearer.

(33) FIG. 8 illustrates the distribution channels 80 and the plurality of head ports 82 positioned along the inside surface 11 of the helmet which cool the wearer's head. As previously noted, a plurality of attachment points 32 are also attached to the inside surface 11 of the helmet and are adapted to receive a hard hat. As shown in FIGS. 8 and 10, in some embodiments a plurality of lens ports 78 are positioned along the top of the lens 20. The lens ports 78 increase in size as the distance from the air inlet 62 increases and the ports 78 remove fog from the lens 20. The air inlet 62 defines an inlet port 65 which, in some embodiments, comprises a first component integrally connected to a second component at a right angle before entering into the air passages 75 of the air control system 60. As shown in FIG. 8, a pair of snap grooves 38 are mounted to the inside surface of the ear protrusions 25, and are adapted to receive the speakers 52 of the communication system 50. The pair of snap grooves 38 are positioned near the wearer's ears.

(34) As shown in FIG. 9, the accessory rails 42 are mounted to the rail protrusions 48. In addition, the rails 42 are generally positioned parallel to line 10-10 of FIG. 9. FIG. 9 illustrates air inlet 62 and air exhaust valve 85 of the air control system 60. In addition, the clamp protrusion 30 and the strain relief clamp 28 define a series of openings which are adapted to receive and secure a plurality of wires (such as air, communication, and light) to prevent accidental disconnections. In some embodiments, the strain relief clamp 28 is positioned on the same side of helmet 8 as the air inlet 62. In further embodiments, the strain relief clamp 28 is positioned below and behind both the air inlet 62 and posts 58, and is adapted to receive a hose and/or wires connected to same.

(35) FIG. 10 provides a cross-section view of the helmet 8 along line 10-10 of FIG. 9. As previously noted, attachment points 32 (which are adapted to receive hard hats) are mounted to the inside surface 11 of the helmet 8. FIG. 10 further illustrates the speaker cover 55 positioned over the speaker 52, the chin strap attachment point 35, the binding posts 58 of the communication system 50, and the inside of strain relief clamp 28. Positioned below the lens 20 and in the front of helmet 8, a pair of microphone attachment straps 40 are mounted to the inside of the microphone protrusion 22. The straps 40 are adapted to receive and secure a microphone. The lens 20 is secured to the helmet 8 by the bezel 18 and a sealing gasket. A plurality of lens ports 78 are positioned along the top length of the inside surface of the lens 20 and a plurality of head ports 82 are positioned throughout the inside surface 11 of the helmet 8 to cool the wearer's head. As shown in FIG. 10, the bottom 12 of the helmet 8 defines a shoulder 105 which is adapted to engage the seal ring assembly 205. The clamp ring tab 108 is adjustably connected to shoulder 105, and securely engages the clamp ring 220. In some embodiments, the bottom 12 of the helmet 8 mates with the seal ring 208 of the seal ring assembly 205.

(36) FIG. 11 is a bottom view of a helmet 8 secured to a seal ring assembly 205, which is connected to a yoke 202. As discussed in more detail below, the seal ring assembly 205 has a a clamp ring 220, wherein its bottom surface 223 defines a ridged frame 230 positioned adjacent to the perimeter of ring 220. As illustrated in FIGS. 11-12, a pair of safety latch tabs 218 extend outward from clamp ring 220 and are adapted to receive the pair of safety latches 110. A lanyard attachment point 225 extends outward from the front of clamp ring 220, and is adapted to receive a lanyard or other types of cord which assist in donning and doffing helmet 8. The clamp ring tab 108 secures around the clamp ring 220. As illustrated in FIGS. 11 and 13B, the yoke 202 is compressed between the seal ring 208 and the clamp ring 220 via a plurality of screws 232.

(37) FIG. 12 is a top view of the seal ring assembly 205 without a helmet 8, and FIGS. 13A-13C provide cross-section views of the seal ring assembly 205 along line 13-13 illustrated in FIG. 12. According to multiple embodiments and alternatives, the seal ring assembly 205 comprises a seal ring 208 and a clamp ring 220, wherein a yoke, a dam, or any other garment is secured between said seal ring 208 and clamp ring 220. In further embodiments, the seal ring assembly 205 comprises a retainer assembly 215 having the clamp ring tab 108 which is adjustably connected to the rear of the helmet 8 and mates with the retainer 216 (also illustrated in FIG. 14) that is positioned on the rear of the clamp ring 220. FIG. 12 further illustrates the top surface 209 of the clamp ring 220 which defines a ridge frame 230 adjacent to its outer edge.

(38) As shown in FIGS. 13A-13C, the seal ring assembly 205 comprises a seal ring 208 which defines a screw receiving bore 231 and receives a washer, as a non-limiting example. The outside surface of the seal ring 208 defines an o-ring gland 210 which is adapted to receive an o-ring 212. A yoke 202 from a suit 200 is positioned between the seal ring 208 and the clamp ring 220. It will be appreciated by one of ordinary skill in the art that a yoke is a standard tubular extension to a suit that extends upwards toward a wearer's head and acts as the interface between the suit and a diving helmet. In this configuration, the yoke is attached to a suit and is fully sealed on the chest, shoulders, and back area of the suit. The yoke is typically permanently attached to the upper part of a suit and is often trimmed for attachment for the desired configuration or purpose (i.e. to a helmet). A neck dam is typically made of a flexible material and is funnel shaped, such that the neck dam can stretch over the wearer's head to form a seal around the neck. When a neck dam is connected to the seal ring assembly 205 and a helmet 8, the assembly protects the wearer from the neck up. When a yoke (that is permanently attached to a full body suit) is secured to the seal ring assembly 205 and a helmet 8, the helmet and suit apparatus 5 provides total encapsulation to the wearer. It will be appreciated that any type of material or garment can be sealed by the seal ring assembly 205, and the present embodiments are not limited to a yoke or neck dam.

(39) The assembly 205 further comprises a clamp ring 220 which defines a boring that is adapted to receive the screw that passes through the bore 231 of the seal ring 208. As illustrated in FIGS. 13A-13B, in some embodiments the top edge of the yoke 202 (or a neck dam or any other type of garment) is compressed between the seal ring 208 and the clamp ring 220 by a plurality of screws 232. Once screwed together, a permanent seal is formed between the suit 200 and the seal ring assembly 205 as illustrated in FIG. 13C. In some embodiments, an optional sealing compound is also added between the seal ring 208 and clamp ring 220.

(40) FIG. 14 illustrates a worker in a suit 200 wherein the yoke 202 has been connected to the seal ring assembly 205. As previously noted, a pair of safety latch tabs 218 extend from the clamp ring 220 and are adapted to engage the pair of safety latches 110. Likewise, a retainer 216 extends from the rear of the clamp ring 220 and is adapted to receive the clamp ring tab 108. The seal ring 208 is affixed to the clamp ring 220 and its outer edge defines the o-ring gland 210. The seal ring assembly 205 is adapted to receive and mate with the bottom 12 of the helmet 8. FIGS. 15-16 illustrate a worker fully encapsulated in the helmet and suit apparatus 5.

(41) In operation, a worker can affix a hard hat to the attachment points 32 if needed. The worker may also attach various accessories to the accessory rails 42, and non-limiting examples of the accessories include: lighting systems for low light conditions, camera systems for monitoring and/or recording, backup lighting, thermal cameras, laser pointing devices, gaseous detection devices, and other job specific equipment known to one of ordinary skill in the art. In some embodiments, the worker can attach an air hose to the inlet port 65 which is connected to a compressor. If needed, the worker can secure the various hoses and wires to the strain relief clamp 28. Next, the worker enters the suit 200 from a zipper in the back of the suit and places their head through the yoke 202 and seal ring assembly 205. The helmet 8 is then donned by aligning the clamp ring tab 108 with the retainer 216, and the retainer assembly 215 guides the helmet 8 in place. If a chin strap is affixed to the chin strap attachment points 35, the user can buckle the chin strap. Next, the user snaps the clamp ring tab 108 in place to the retainer 216 and secures the pair of safety latches 110 to the safety latch tabs 218 of the seal ring assembly 205. If a lanyard or other cord is connected to the lanyard attachment point 225, the worker can also utilize the lanyard for donning and doffing. Once the helmet 8 is connected to the seal ring assembly 205, and the clamp ring tab 108 and safety latches 110 are in place, the helmet and suit apparatus 5 is ready for operation. Once the task is complete, the worker simply removes the safety latches 110 and the clamp ring tab 108 from the seal ring assembly 205, and removes the helmet 8.

(42) It will be understood that the embodiments described herein are not limited in their application to the details of the teachings and descriptions set forth, or as illustrated in the accompanying figures. Rather, it will be understood that the present embodiments and alternatives, as described and claimed herein, are capable of being practiced or carried out in various ways.

(43) Also, it is to be understood that words and phrases used herein are for the purpose of description and should not be regarded as limiting. The use herein of including, comprising, e.g., containing, or having and variations of those words is meant to encompass the items listed thereafter, and equivalents of those, as well as additional items.

(44) Accordingly, the foregoing descriptions of several embodiments and alternatives are meant to illustrate, rather than to serve as limits on the scope of what has been disclosed herein. The descriptions herein are not intended to be exhaustive, nor are they meant to limit the understanding of the embodiments to the precise forms disclosed. It will be understood by those having ordinary skill in the art that modifications and variations of these embodiments are reasonably possible in light of the above teachings and descriptions.