Smoke protective hood

A hood for protecting the wearer from poisonous fumes and the like includes a respirator having a portion arranged to be gripped in the mouth of the user to hold it in place.

SUMMARY OF THE INVENTION 
A smoke protection hood includes a respirator which features a mouthpiece 
adapted to be gripped in the mouth of the user to hold the hood in 
effective position. 
BACKGROUND OF THE INVENTION 
It is well known that most of the lives lost in fires are lost due to smoke 
inhalation, and that these deaths occur because no means has been made 
readily available which will give a person, who is caught in a fire, 
adequate protection from smoke inhalation for the relatively short period 
of time necessary to escape the fire. The present invention contemplates 
the provision of a mask or hood that can be conveniently stored, is simple 
to use, and is effective to give the user protection from smoke inhalation 
for approximately fifteen minutes. 
Hoods have been provided for protecting the wearers from various dangerous 
conditions including smoke inhalation, and the hood disclosed in the 
patent to Nakagawa U.S. Pat. No. 4,231,118 is purported to provide 
protection from fire, smoke and poisonous gases. Other hoods and similar 
protective devices are disclosed in the patents to Lufkin U.S. Pat. No. 
1,856,879, Lund et al. U.S. Pat. No. 3,789,839 and Zebuhr U.S. Pat. No. 
4,133,055. 
It is, of course, of utmost importance to the wearer of a smoke protective 
hood that he be able to breathe easily and efficiently, and it is 
therefore desirable that the mouthpiece be precisely located relative to 
his or her mouth. It is evident that, if a hood is too large or too small 
for the head of the wearer, the mouthpiece will be displaced from his 
mouth and will have to be continuously adjusted to give him a feeling that 
he is getting enough air under the circumstances. 
None of the above-mentioned patents disclose any means for locating the 
mouthpiece near the user's mouth and it is an important object of the 
present invention to provide such means.

DESCRIPTION OF A PREFERRED EMBODIMENT 
In FIG. 1 the reference numeral 10 indicates generally the mask or hood of 
the present invention which includes a front panel 11 and a rear panel 12 
secured together along their side and top edges. The panels are cut so 
that, when the side and top edges are joined, an opening is formed at the 
lower end through which the head of the user can be inserted into the 
hood, and a dome-like upper portion is formed that is adapted to 
comfortably receive the head. The lower portion of the hood is cut rather 
full so that the lower edge of the hood engages the shoulders, back and 
chest of the user. 
The front and rear panels 11 and 12 are identical in construction, 
consisting of an outer layer 15 (FIG. 3) of flexible, fire-retardant, 
non-combustible, heat-reflective vinyl material, and an inner layer 17 of 
polyester cloth. The layers 15 and 17 of each panel are effective to 
insulate the wearer from the outside heat, and the fact that the layers 
are slightly spaced apart augments this insulating action. An opening 18 
is provided in the front panel 11, and a window 20 of flexible, 
transparent, non-flammable, plastic material is secured in the opening 
between the inner and outer layers by a line of stitching surrounding the 
opening. The stitching passes through the plastic window and through both 
the inner and outer layers of the front panel 11. A second opening 22 is 
provided in a rearwardly-bulged portion 23 of the front panel 11, and a 
tubular mouthpiece 25 extends through this opening. The mouthpiece has an 
opening 25a at one end and is open at the other end. An annular 
dish-shaped retainer plate 25b is integrally formed on the open end of the 
mouthpiece, and this retainer plate is disposed between the outer layer 15 
of the front panel and one curved wall of a cloth bag 27 that contains 
chemicals which filters the air entering the mask. A rectangular plastic 
cover 29 is secured to the front panel to hold the bag 27 in place. The 
cover 29 has a plurality of holes 29a therein which permit air to enter 
the mask. A multi-layer filter element 30 is disposed between the bag 27 
and the cover 29. This element, which may be made of layers of fiberglass 
cloth, is generally circular in configuration and is bonded to the outer 
peripheral edge of the retainer plate 25b. 
A valve 33, which includes an annular plastic frame 34 (FIG. 4) and four 
radial arms 35, is mounted in the tubular mouthpiece 25, the annular frame 
being dimensioned to snugly engage the inner wall of the mouthpiece. If 
desired, the filter can be secured in the mouthpiece by a plurality of 
small setscrews. The valve includes a circular membrane 37 (FIGS. 5 and 6) 
that is fastened to the frame 34 by a screw 38. The membrane is made of a 
flexible material, such as a thin sheet of vinyl and is adapted to flex 
rearwardly to the open position of FIG. 6 when the user of the hood 
inhales, and is adapted to move to the passage-closing position of FIG. 5 
when the user exhales. Thus, air entering the mask will be permitted to 
move inwardly through the filter cloth 30 and the filter bag 27 while 
exhaled air will not be permitted to pass outwardly into the filter bag. 
To help hold the bag 27 and the mouthpiece 25 firmly in place, an elastic 
strap 40 (FIG. 2) is adapted to be removably secured to buttons 41 on the 
front panel of the mask. When the elastic band is fastened around the back 
of the mask, substantially as shown in FIG. 1, the mouthpiece will be 
resiliently urged toward the user's face so that it can be effectively 
gripped by the user. A plurality of slits may be provided at graduated 
distances from the ends of the strap 40 so that a suitable setting may be 
selected by the user. 
The filter element 30 and the bag of chemicals 27 comprise a respirator 
unit, while the mouthpiece 25 and the cover 29 cooperate with the wall 11 
to hold the respirator in place. The bag 27 may contain chemicals, such as 
cocoanut charcoal, silica and almondine, that are effective to absorb the 
poisonous gases encountered in a fire. The multi-layer cloth filter 
element 30 is preferably made of a plurality of layers of thin fiberglass 
cloth, but it will be evident that other sheet material may also be used 
as long as it has the ability to filter particulate material and heavy 
gases. The cloth bag 27 itself, independent of the chemicals, acts as a 
filtering element. All elements of the respirator and the surrounding, 
non-combustible materials must have sufficient porosity or be suitably 
apertured to permit the passage of air. 
The hood itself may be made of material that is not only non-combustible 
but also has reflective properties to act as a insulator. The transparent 
window could be made from a material that has a reflective outer surface 
but is optically clear. 
If desired, a draw-string can be threaded through an appropriate loop or a 
continuous passage around the hood at the neck area so that the bottom of 
the hood can be effectively closed by drawing the hood close around the 
neck area of the wearer without preventing the exhaling of air by the 
wearer and enabling the venting of the exhaled air to atmosphere through 
the bottom of the hood.