Respirator headpiece and release mechanism

Information

  • Patent Grant
  • 6497232
  • Patent Number
    6,497,232
  • Date Filed
    Tuesday, October 16, 2001
    23 years ago
  • Date Issued
    Tuesday, December 24, 2002
    21 years ago
Abstract
A quick release mechanism and headpiece for use with a respirator. The quick release mechanism uses a cam latch pivotally attached to a yoke to control the tension in an upper tension strap. In the latched position the upper tension strap traverses the yoke to support and seal the respirator mask against the face of the wearer. In the unlatched position the upper tension straps loosely support the mask below the chin of the wearer in a parked position. In one embodiment, a guide is provided on the yoke to ensure that the mask may be consistently donned and doffed with minimal effort (e.g., potential one-handed donning and doffing). An opening may also be provided in the face mask and optionally in the yoke, and a filter may be disposed within the opening to provide the desired filtration of inhaled gases.
Description




BACKGROUND




Respirators are worn by persons subjected to unpleasant or noxious environments. A common type of respirator is the half mask respirator, which comprises a cup type mask supported by a yoke attached to two sets of straps. One set of straps, the upper set, is designed to rest on the crown of the head of a wearer. The second, lower, set is designed to wrap around the back of the neck of the wearer. The upper set is generally attached to a broadened flexible strap, commonly known as a cradle, that fits over, or cradles, the crown of the head. The upper strap is generally adjustably attached between the facepiece and cradle by a buckle having an adjusting mechanism such as a D-ring for tightening the strap against the head. A D-ring, as is well known in the industry, generally requires that a wearer use two hands to manipulate the D-ring to adjust the length of the strap during donning or doffing often proving to be challenging to the wearer. The lower strap generally includes a fastening element including a hook and slot arrangement and further includes an adjustment mechanism such as a D-ring.




A wearer typically puts on (dons) the respirator by clipping the lower straps behind the neck and then lifting the cradle up onto the top of the crown while simultaneously guiding the mask and yoke portion, or facepiece, into position on the face. The straps are then manipulated through the D-rings and adjusted until a good fit is achieved and a successful face seal check is performed. Removal, or doffing, of the respirator is performed opposite the donning operation wherein the lower straps are unbuckled and the cradle is removed from the head while the facepiece is withdrawn from the face of the wearer.




In the course of an average day, a worker required to wear a respirator may don and doff the respirator up to 20 times. The donning procedures of current art respirators, including adjustment and face seal check, are viewed by many wearers as being complex and cumbersome. In some cases wearers forego the donning procedure when it is perceived that the task they are to perform would take less time than the donning procedure. The donning procedure is further complicated by other protective equipment such as goggles, glasses, earmuffs, hats and hard hats that need to be removed in order to don or doff the respirator.




The doffing of current respirators is viewed by many wearers as an equally cumbersome task. In order to remove the respirator, even for short periods, the lower strap must be unbuckled and the cradle lifted off the head as described herein above. A temporary removal, or parking, of the respirator is performed by slipping the cradle off the back of the head and allowing the facepiece to drop in front of the wearer wherein the respirator is supported by the lower strap around the neck of the wearer. Both the complete doffing and the parking of the respirator are further hampered by the inclusion of safety equipment as set forth herein above.




Another problem with prior art respirators results when respirators rely on upper straps having no elongation. Over time, latching of rigid straps causes material fatigue in the mask and may cause breakage of the mask during donning.




Another problem with prior art respirators is that the strap attachments, as well as tightening and release mechanisms, cause point loads in the facepiece making them uncomfortable to the wearer.




Accordingly, there remains a need in the art for a respirator that may be easily and conveniently donned, doffed and parked without discomfort to the wearer.




SUMMARY




The above discussed and other drawbacks and deficiencies of the prior art are overcome or alleviated by the present respirator headpiece and quick release respirator mechanism. In one embodiment, the quick release respirator mechanism includes a yoke attached to the respirator face mask. An over center cam latch is pivotally attached to the yoke. At least one strap is attached to the latch, such that actuation of the latch to a latched position increases tension in the strap, which supports and seals the respirator mask against the face of the wearer. In one embodiment, a guide is provided on the yoke to ensure that the mask may be consistently donned and doffed with minimal effort (e.g., potential one-handed donning and doffing). An opening may also be provided in the face mask and optionally in the yoke, and a filter may be disposed within the opening to provide the desired filtration of inhaled gases.




The above discussed and other features and advantages will be appreciated and understood by those skilled in the art from the following detailed description and drawings.











BRIEF DESCRIPTION OF THE DRAWINGS




Referring now to the drawings wherein like elements are numbered alike in the several FIGURES:





FIG. 1

is a front perspective view of a respirator showing the unlatched position;





FIG. 2

is an expanded perspective illustration of a respirator facepiece showing the facepiece in an exploded view;





FIG. 3

is a side perspective view illustrating the parts comprising a hinge lock for the latch mechanism;





FIG. 4

is a top, left side perspective view of a respirator showing an unlatched position;





FIG. 5

is a side perspective view of a respirator showing an unlatched position;





FIG. 6

is a front perspective view of a respirator face showing a latched position;





FIG. 7

is a rear perspective view of a respirator showing a rear aspect of a facepiece and showing strap points of engagement with the yoke;





FIG. 8

is a perspective view of the inside surface of a headpiece;





FIG. 9

is a front cross sectional view of the headpiece of

FIG. 8

along lines


2





2


;





FIG. 10

is a side cross sectional view of the headpiece of

FIG. 8

along lines


4





4


;





FIG. 11

is a top perspective view of a sorbent cartridge shell component;





FIG. 12

is a top perspective view of a sorbent cartridge cap component;





FIG. 13

is a side perspective view of the sorbent cartridge cap of

FIG. 12

;





FIG. 14

is a rear perspective view of a second cartridge shell component;





FIG. 15

is a top perspective view of a standalone filter cartridge shell component;





FIG. 16

is a rear perspective view of a filter cartridge cap component;





FIG. 17

is a top perspective view of a disc filter base component;





FIG. 18

is a rear perspective view of a disc filter cover component; and





FIG. 19

is a front perspective of a respirator in a parked position.











DESCRIPTION OF THE PREFERRED EMBODIMENT




Referring to

FIG. 1

an exemplary respirator is generally shown at


10


. The respirator


10


incorporates a quick release mechanism


12


into a facepiece support system, the quick release mechanism


12


including a yoke


14


and a cam latch


16


pivotally attached to the yoke


14


via hinge pins


18


,


20


(shown in FIG.


2


). A facepiece


22


is supported by the yoke


14


to fit the facepiece


22


against the face of a wearer. Alternately, the facepiece support system may comprise a facemask/support piece (not shown) such that the facepiece


22


and yoke


14


are integrally molded into a single element by a known process, such as by dual shot molding or over-molding, among others.




The respirator


10


further may include sorbent material


24


,


26


(


26


is shown in

FIG. 2

) positioned on opposite sides of the facepiece


22


. The yoke


14


attaches to the facepiece


22


in a removable snap fit fashion against a button type stud (


62


in

FIG. 2

) similar to that of prior art respirators. Sorbent material


24


,


26


is disposed within sorbent cartridge shells


28


,


30


underneath sorbent cartridge caps


32


,


34


.




Referring again to

FIG. 1

, the exemplary cam latch


16


further includes a relief cut


36


accommodating an exhalation valve housing


38


while the cam latch


16


is in the latched position (shown generally at


40


in FIG.


6


). The cam latch


16


further includes first and second relief cuts


42


,


44


configured to accept a loop of the upper strap


46


. (Alternately, independent straps may be attached at the first and second relief cuts


42


,


44


) The upper strap


46


extends over a portion of the yoke


14


and through first and second strap guides


48


,


50


, positioned above the cam latch


16


. The upper strap


46


further extends to attach to first and second relief cuts


52


,


54


in the headpiece


56


. Thus, the cam latch


16


and headpiece


56


are connected, such that downward motion


58


of the cam latch


16


draws the facepiece


22


closer to the headpiece


56


, and upward motion


60


of the cam latch


16


relaxes tension in the upper strap


46


, allowing the facepiece


22


to fall away from the headpiece


56


into a parked position.




Turning to

FIG. 2

, an exploded view of exemplary facepiece


22


is shown illustrating a partially pre-assembled state. The facepiece includes a button type stud


62


configured to engage a relief cut


64


on the yoke


14


. Similarly, the facepiece


22


includes a button type stud


66


configured to engage a relief cut (not shown) on the yoke


14


. The facepiece


22


further includes a centrally located hole


68


configured to accept the exhalation valve seat


70


. Exhalation valve housing


38


receives an exhalation valve


71


, which further includes a retaining pin


72


sized to engage a retaining hole


74


disposed within the exhalation valve seat


70


(which may snap into the facepiece


22


or be integrally molded into the facepiece


22


by a known process).




Referring again to

FIG. 2

, an exemplary facepiece


22


may further include first and second side holes


76


,


78


configured to accept first and second cartridge/filter retainers


80


,


82


. The first and second cartridge/filter retainers


80


,


82


are shown tethered by a connecting material


84


such that they may be easily installed from the interior of the facepiece


22


and urged outwardly through the first and second side holes


76


,


78


. Alternately, the cartridge/filter retainers


80


,


82


may be integrally molded into the facepiece


22


by any known process.




Referring again to

FIG. 2

, exemplary first and second cartridge/filter retainers further include a plurality of raised portions


86


configured to engage and retain a portion of the first and second sorbent cartridge shells


28


,


30


. Sorbent material


26


is shown provided within the sorbent cartridge shell


30


underneath the sorbent cartridge cap


34


.




Referring again to

FIG. 2

, the exemplary yoke


14


may include first and second strap cinchers


88


,


90


(


88


shown in FIG.


4


), positioned below the cam latch


16


and configured to accept the lower neck straps


92


,


94


(shown in FIG.


4


). As shown, the respirator


10


may incorporate two neck straps


92


,


94


. However, the present respirator


10


may include a single neck strap (not shown), configured to slip over the head of the wearer or configured to engage the yoke with a mechanical fit, such as a snap-in buckle (not shown).




The exemplary first and second strap cinchers


88


,


90


include a post


96


(best shown in

FIG. 3

) around which a length of strap material is looped and a tooth member


98


(best shown in FIG.


3


), which holds the looped strap material in place and retains tension on the strap as it is tightened. Though the yoke


14


are illustrated including the first and second strap cinchers, the lower straps


92


,


94


may be attached through the posts


96


by any suitable method such as by being sewn, glued, riveted, or looped through a conventional D-ring (not shown), among others. The yoke


14


also includes first and second hinge pin-retaining holes


100


(not shown),


102


configured to accept the hinge pins


18


,


20


.




Referring again to

FIG. 2

, the exemplary yoke


14


further includes snap locks


104


,


106


formed or otherwise provided on the outer surface of the yoke


14


proximal to the hinge pins


18


,


20


. Turning to

FIG. 3

, the snap locks are sized and configured to receive notched portions


108


(not shown),


110


on the underside of the cam latch


16


proximal to the hinge pins


18


,


20


. The snap locks


104


,


106


and notched portions


108


,


110


provide secure engagement of the cam latch


16


in the latched position. Preferably snap locks


104


,


106


and notched portions


108


,


110


are configured such that an audible snap will occur when the cam latch


16


is engaged.




Turning now to

FIG. 4

, an exemplary respirator


10


is shown illustrating an unlatched position. The upper strap


46


extends from the cam latch


16


and through the first and second strap guides


48


,


50


to attach to headpiece


56


at relief cuts


52


,


54


. The lower straps


92


,


94


extend from the first and second strap cinchers


88


,


90


and attach to the neck catch


112


.




In one embodiment, the upper strap


46


comprises a resilient strap material having the flexibility to trace out the path from headpiece


56


through the yoke


14


to the cam latch


16


in both the latched and unlatched positions. Similarly, the lower straps


92


,


94


may comprise an elastic material. As used herein, the term strap includes material having any physical cross-section, including rectangular, trapezoidal, circular and elliptical, among others. As best shown in

FIG. 1

, the upper strap


46


supports and seals the facepiece


22


against the face of the wearer by spreading the tension load in the strap


46


across the cam latch


16


, the yoke


14


and the facepiece


22


. Spreading the loads as described creates a tight, yet comfortable, fit and seal of facepiece


22


against the face of the wearer.




In one embodiment, the upper strap


46


comprises a material having an elongation sufficiently low such that the strap


46


does not overly stretch when the wearer tightens the strap ends on the headpiece


56


, thus allowing for maximum travel of the upper strap


46


through the strap guides


48


,


50


when the cam latch


16


is moved to the disengaged, or parked, position. However, some elongation is necessary to allow the strap to flex, for example when the wearer makes facial movements. Accordingly, an exemplary strap elongation is above 0 percent maximum elongation to about 150 percent maximum elongation. In another exemplary embodiment, the maximum strap elongation is between about 10 to about 50 percent. In another exemplary embodiment, the maximum strap elongation is between about 25 to about 35 percent. In another exemplary embodiment, the maximum strap elongation is about 25 percent. The maximum elongation as herein defined allows that a 100 percent maximum elongation corresponds to a strap extension of double its initial length.




Turning now to

FIG. 5

, a side perspective view of an exemplary respirator


10


is shown illustrating a parked position. A preferred neck catch


112


may comprise a single support piece (not shown), or it may include two engageable/detachable portions


114


,


116


(best seen in FIG.


1


). The illustrated neck catch


112


advantageously provides a comfortable, rounded fit along the back of the wearer's neck. The engageable/detachable portions


114


,


116


may include a mechanical attachment (not shown), such as is known in the art, including Velcro, buckles or hooks and eyes, among others, allowing facile and convenient donning and doffing of the neck catch


112


. Alternately, the lower straps


92


,


94


may attach to a side buckle (not shown) positioned alongside the neck of the wearer.




Turning now to

FIG. 6

, a front perspective view of an exemplary respirator


10


illustrates a latched position


40


. The cam latch


16


includes a first and second concave regions


118


,


120


configured to retain the upper strap


46


when the cam latch


16


is in a latched position. Thus, the upper strap


46


(not shown), which is angled from the first and second strap guides


48


,


50


across the concave regions


118


,


120


, around the exhalation valve housing


38


and through the first and second relief cuts


42


(not shown),


44


effectively holds the cam latch


16


in position by pressure of the upper strap


46


against the first and second concave regions


118


,


120


. When the latch


16


is in the latched position under the chin of the wearer, the upper strap


46


further supports the facepiece


22


and biases it towards the face of the wearer.




The illustrated exhalation valve housing


38


further includes a ridge of material


122


(best seen in

FIG. 2

) disposed just interior to the relief cut


36


along a portion of the cam latch


16


. The ridge of material


122


is configured to engage the cam latch


16


in the latched position to further ensure that the cam latch


16


is secure. In one exemplary embodiment, the configurational fit between the ridge of material


122


and the cam latch


16


is such that latching of the cam latch


16


creates an audible click or snap. This farther ensures that the wearer is certain that the cam latch


16


is secure.




Turning now to

FIG. 7

, a rear perspective view of an exemplary respirator


10


illustrates the rear aspect of the facepiece


22


, the first and second strap guides


48


,


50


, and the first and second strap cinchers


88


,


90


. The rear aspect of the facepiece


22


includes readily deformable material around all points of contact with the face of the user to provide a comfortable and secure fit regardless of facial contouring. Accordingly, it is preferable that facepiece


22


comprise a resilient material, such as liquid silicone, rubber, or a thermoplastic elastomer, among others. The post


96


, around which a length of lower strap material is looped, and the tooth member


98


of the second strap cincher


90


are particularly evident in this aspect.




Turning now to

FIG. 8

, an exemplary headpiece


56


, including cinching relief cuts


52


,


54


, is illustrated. The attachment of the upper strap


46


to the headpiece


56


may be accomplished in a variety of ways, including use of plastic rivets (not shown) swaged over by a known process, such as ultrasonic welding. However, the illustrated headpiece


56


includes first and second relief cuts


52


,


54


comprising toothed, or uneven, incisions through the material of the headpiece


56


through which the upper strap


46


is passed. Thus, the user may tighten the upper strap


46


by simply pulling on ends


116


,


118


(shown in

FIGS. 9 and 10

) of the strap


46


. Incising of headpiece material provides flaps


128


,


130


, the toothed, or uneven, regions


132


,


134


of which will hold the strap ends


116


,


118


in place and maintain tension in the upper strap


46


.




Referring again to

FIGS. 8

,


9


and


10


the exemplary headpiece


56


shown includes cutouts


136


, which provide ventilation and flexibility to the headpiece


56


.




Turning now to

FIG. 11

, an exemplary sorbent cartridge shell


28


is shown. The sorbent cartridge shell


28


includes the preferable off-center opening


138


(the off-center aspect of which shifts the sorbent cartridge out of the wearer's view), including recessed portions


140


configured and arranged to receive the raised portions


86


of the first and second cartridge/filter retainers


80


,


82


, a base portion


142


, including ridges


144


, and a sidewall portion


146


, including an upper edge


148


. The configuration of recessed portions


140


on the sorbent cartridge shell


28


and raised portions


86


on the first and second cartridge/filter retainers allows quick and facile installation or removal of the sorbent cartridge shell


28


via a simple twisting motion. The ridges


144


on the base portion


142


set the sorbent material (not shown) away from the base portion


142


, allowing an optimal amount of filter material surface area to be exposed. This reduces pressure loads and allows for easier breathing and more efficient filtering. Preferable material for this sorbent cartridge shell


28


includes carbon and absorbent filter materials.




Turning now to

FIGS. 12 and 13

, an exemplary sorbent cartridge cap


32


is illustrated. The sorbent cartridge cap


32


includes a plurality of openings


150


, an upper circumferential edge


152


, an outer rim


154


and an inner rim


156


. As preferred, the plurality of openings


150


are arranged as hexagonal openings defined by the material of the sorbent cartridge cap


32


to maximize the exposed surface area of the underlying filter material (not shown). An inner ring


158


of cap material may be provided, as illustrated, to decrease flex in the cap


32


, re-enforce the structure and set the filter disc (not shown) away from the cap material to increase the effective exposed filter disc surface area. The outer and inner rims


154


,


156


of the sorbent cartridge cap


32


are sized and configured to guide the upper edge


148


of the sorbent cartridge shell


28


into place during sorbent cartridge assembly. In one exemplary embodiment, the outer and inner rims


146


,


148


of the sorbent cartridge cap


32


are sized and configured to securely engage the upper edge of the sorbent cartridge shell


28


. The sorbent cartridge cap


32


may be connected to the sorbent cartridge shell


28


as is known in the art. In one exemplary embodiment, the filter cartridge cap is snapped or welded to the sorbent cartridge shell


28


.




Referring now to

FIG. 14

, an exemplary second cartridge shell


162


is illustrated. The second cartridge shell


162


may be sized and configured to receive a pleated, particulate filter (not shown). The second cartridge shell


162


includes a plurality of openings


164


, lower circumferential edge


166


and an extended rim


168


. In this embodiment, the plurality of openings


164


are arranged as circular openings defined by the material of the sorbent cartridge


162


, less preferred than hexagonal openings, but still providing a good amount of exposed surface area of the contained sorbent material (not shown). One advantageous embodiment provides that the extended rim


168


of the second cartridge shell


162


be sized and configured to receive a pleated filter (not shown), which filters particulate materials. The second cartridge shell


162


preferably is permanently attached, by welding, snapping or other known methods, to the top of the sorbent cartridge shell


30


. Alternately, the second cartridge shell


162


may be configured to engage threading


170


(shown in

FIG. 1

) (preferred where the second cartridge shell


162


is used) disposed on the sorbent cartridge cap


32


.




Turning now to

FIG. 15

, an exemplary standalone filter cartridge shell


172


component is illustrated. The standalone filter cartridge shell


172


is illustrated including an off-center opening


174


(the off-center aspect of which shifts the standalone filter out of the wearer's view), including recessed portions


176


configured and arranged to receive the raised portions


86


of the first and second cartridge/filter retainers


80


,


82


, a base portion


178


, including ridges


180


, and a sidewall portion


182


, including an upper edge


184


. The configuration of recessed portions


176


on the standalone filter cartridge shell


172


and raised portions


86


on the first and second cartridge/filter retainers


80


,


82


allows quick and facile installation or removal of the standalone filter cartridge shell


172


via a simple twisting motion. The ridges


180


on the base portion


178


set the filter material (not shown) away from the base portion


178


, allowing an optimal amount of filter material surface area to be exposed. This reduces pressure loads and allows for easier breathing and more efficient filtering. Suitable material for the standalone filter cartridge shell


172


includes, among others, filter materials capable of filtering particulates, and in particular, pleated particulate filters.




Turning now to

FIG. 16

, an exemplary filter cartridge cap


186


is illustrated. The filter cartridge cap


186


includes a plurality of openings


188


(as shown, hexagonal openings are preferred), an upper circumferential edge


190


and an inner ring


192


, connected to the upper circumferential edge


190


by spokes


194


. The upper circumferential edge


190


is sized and configured to securely engage the extended rim of either the second cartridge shell


162


or the standalone filter cartridge shell


172


. As shown, it is preferred that the inner ring


192


extend downward relative to the upper circumferential edge


190


to expose a maximal surface area of the second filter material (not shown). While the snap fit is illustrated, the second filter cartridge cap


172


may engage the second cartridge shell


162


or the standalone filter cartridge shell


172


by any known method, including gluing, threading, snap fits and welding, among others.




Referring now to

FIG. 17

, an exemplary disc filter base


196


component is illustrated. The disc filter base


196


includes the preferable off-center opening


198


(the off-center aspect of which shifts the disc filter out of the wearer's view), including recessed portions


200


, configured and arranged to receive the raised portions


86


of the first and second cartridge/filter retainers


80


,


82


, a base portion


202


, including ridges


204


, and a sidewall portion


206


, including an upper edge


208


. The configuration of recessed portions


200


on the disc filter base


196


and raised portions


86


on the first and second cartridge/filter retainers


80


,


82


allows quick and facile installation or removal of the disc filter base


196


via a simple twisting motion. The ridges


204


on the base portion


202


set the filter material (not shown) away from the base portion


202


, allowing an optimal amount of filter material surface area to be exposed. This reduces pressure loads and allows for easier breathing and more efficient filtering. As shown, the disc filter base


196


may also include external threads


210


to accommodate a threaded cover and an exemplary cover of which is described below.




Referring now to

FIG. 18

, an exemplary disc filter cover


212


is illustrated. The disc filter cover


212


includes a lower circumferential rim


214


, a sidewall portion


216


, a ceiling portion


218


and a plurality of openings


220


disposed through the ceiling portion


218


. The lower circumferential rim


214


and sidewall portions


216


are configured engage the upper circumferential edge


152


of the sorbent cartridge cap


32


or the upper edge


208


of the disc filter base


196


and receive a disc filter material (not shown). While the snap fit embodiment is illustrated, the disc filter cover


212


may engage the first sorbent cartridge cap


32


or the disc filter base


196


by any known method, including threading, snap fits and welding, among others.




The present respirator


10


is donned via manipulation of the cam latch


16


of quick release mechanism


12


. Donning is begun with the cam latch


16


in the up and unlatched position. A wearer grasps the headpiece


56


with one hand and the yoke


14


or exhalation valve housing


38


with the other hand. The two detachable portions


114


,


116


of the neck catch


112


are positioned around the neck of the user and secured along with lower straps


92


,


94


. The headpiece


56


is guided over the top of the head and the facepiece


22


is placed proximal to the face. The cam latch


16


is then lowered in the direction of the arrow


58


(in

FIG. 1

) into the latched position.




The respirator


10


is doffed by reverse (upward) motion of the cam latch


16


. The cam latch


16


rotates in the direction of the arrow


60


(in

FIG. 1

) about the pivot pins


18


,


20


to the unlatched position. The quick release mechanism


12


is actuated in this fashion partially by manipulative force of the user, partially by the tension stored in the upper strap


46


and partially by the weight of the lower portion of the respirator


10


. Thus, the quick release mechanism


12


is actuated and the respirator parked simply by applying thumb pressure against cam latch


16


. In addition, respirator


10


in accordance with the present invention can be doffed without the removal of other safety headgear such as, for example, safety glasses (not shown).




Turning to

FIG. 19

, further illustration of exemplary respirator


10


parking is shown. As can be seen, the present respirator


10


provides for a convenient and comfortable parked position. Once the respirator


10


is doffed as described above, the yoke


16


rotates upwards, relative to the wearers face, and the effective length of the upper strap


46


between the headpiece


56


and the facepiece


22


is increased. The facepiece


22


drops away from the face of the wearer in the direction indicated by arrow


222


. In one embodiment, the upper strap


46


slides as much as four inches through the guide holes


48


,


50


as the yoke


16


is moved from the latched position to the unlatched position. Thus, the respirator


10


is effectively parked without removal of neck catch


112


from the neck or removal of the headpiece


56


from the top of the head. Donning the respirator


10


from the parked position simply requires that the facepiece


22


be lifted into position on the face while the cam latch


16


is flipped downward in direction of the arrow


58


, preferably with the use of just one hand.




While preferred embodiments have been shown and described, various modifications and substitutions may be made thereto without departing from the spirit and scope of the invention. Accordingly, it is to be understood that the present invention has been described by way of illustration and not limitation.



Claims
  • 1. A quick release respirator mechanism comprising:a yoke attached to a respirator face mask; a latch attached to the yoke; at least one guide associated with the yoke; at least one strap attached to the latch, the at least one strap disposed within the at least one guide.
  • 2. A mechanism as set forth in claim 1 wherein the latch is pivotally attached to the yoke at a first end of the latch.
  • 3. A mechanism as set forth in claim 1, further including at least one opening in the face mask, and wherein the at least one opening includes at least one filter disposed within the opening.
  • 4. A mechanism as set forth in claim 1, wherein the respirator mechanism further includes a headpiece, wherein the yoke includes a pair of guide holes, a pair of straps are attached to the latch at a pair of lock holes positioned in the latch at a second end thereof, and wherein the pair of straps are disposed within the pair of guide holes and are attached to the headpiece.
  • 5. A mechanism as set forth in claim 4 wherein the straps are comprised of a resilient material having a substantially round cross section.
  • 6. A mechanism as set forth in claim 4 wherein the latch is pivoted from an unlatched position to a latched position, and wherein a tension force is produced in the straps in the latched position biasing the mask against a face of a wearer.
  • 7. A mechanism as set forth in claim 4, further comprising:a pair of attachment points positioned in the yoke; and a pair of straps attached to the headpiece, the straps disposed at the attachment points.
  • 8. A mechanism as set forth in claim 7 wherein the attachment points each comprise a cinching mechanism comprising a pair of slots.
  • 9. A mechanism as set forth in claim 8 wherein the cinching mechanisms comprise a D-ring attached to the yoke.
  • 10. A mechanism as set forth in claim 1 wherein the yoke is comprised of a rigid plastic material.
  • 11. A mechanism as set forth in claim 1 wherein the latch is comprised of a rigid plastic material.
  • 12. A quick release respirator mechanism comprising:a yoke attached to a respirator face mask; a latch attached to the yoke; at least one guide associated with the yoke; at least one strap attached to the latch; at least one opening disposed in the face mask; at least one filter disposed within the opening.
  • 13. A mechanism as set forth in claim 12 wherein the latch is pivotally attached to the yoke at a first end of the latch.
  • 14. A mechanism as set forth in claim 12, wherein the respirator mechanismfurther includes a headpiece, wherein the yoke includes a pair of guide holes, a pair of straps is attached to the latch at a pair of lock holes positioned in the latch at a second end thereof, and wherein the pair of straps are disposed within the pair of guide holes and are attached to the headpiece.
  • 15. A mechanism as set forth in claim 14 wherein the straps are comprised of a resilient material having a substantially round cross section.
  • 16. A mechanism as set forth in claim 14 wherein the latch is pivoted from an unlatched position to a latched position, and wherein a tension force is produced in the straps in the latched position biasing the mask against a face of a wearer.
  • 17. A mechanism as set forth in claim 14, further comprising:a pair of attachment points positioned in the yoke; and a pair of straps attached to the headpiece, the straps disposed at the attachment points.
  • 18. A mechanism as set forth in claim 17 wherein the attachment points each comprise a cinching mechanism comprising a pair of slots.
  • 19. A mechanism as set forth in claim 18 wherein the cinching mechanisms comprise a D-ring attached to the yoke.
  • 20. A mechanism as set forth in claim 12 wherein the yoke is comprised of a rigid plastic material.
  • 21. A mechanism as set forth in claim 12 wherein the latch is comprised of a rigid plastic material.
CROSS REFERENCE TO RELATED APPLICATIONS

The present application is a continuing application of co-pending application Ser. No. 09/608,899, filed Jun. 30, 2000, which is a continuation-in-part application of copending application Ser. No. 09/255,601, filed Feb. 22, 1999, now U.S. Pat. No. 6,338,342 both of which are specifically incorporated by reference herein.

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Continuations (1)
Number Date Country
Parent 09/608899 Jun 2000 US
Child 09/981576 US
Continuation in Parts (1)
Number Date Country
Parent 09/255601 Feb 1999 US
Child 09/608899 US